Text

Fire Endurance Test of Thermo-Lag 330-1 Fire Protective Envelope (3/4 Inch,1-1/2 Inch & 2 Inch Conduits)
	ML20128H052
Person / Time
Site:	Comanche Peak
Issue date:	01/13/1993
From:	Humphrey C, Priest D; OMEGA POINT LABORATORIES
To:	;
Shared Package
ML20127K787	List: ML20127K784; ML20127K789; ML20127K812; ML20128G931; ML20128G949; ML20128G955; ML20128G968; ML20128G986; ML20128G994; ML20128G998; ML20128H018; ML20128H031; ML20128H052; ML20128H068; ML20128H077; ML20128H092; ML20128H102; ML20128H112; ML20128H119;
References
	12340-94367J, NUDOCS 9302160254
	Download: ML20128H052 (571)
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FIRE ENDURANCE TEST OF A THERMO-LAGe 330-1 FIRE PROTECTIVE ENVELOPE (3/4 in.,1-1/2 in. & 2 in. Conduits)

Project No. 12340-94367j Scheme 9 Assembly 3 O FIRE ENDURANCE TEST TO QUALIFY A PROTECTIVE ENVELOPE FOR CLASS 1E ELECTRICAL CIRCUITS December 28,1992 Prepared For:

TU Electric COMANCHE PEAK STEAM ELECTRIC STATION P.O. Box 1002 Glen Rose, Texas 76043-1002 O .+. . .s 46 #

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Report No.12340-94367j December 28,1992 Texas Utilities Electric Page ii ABSTRACT A 2 in. O conduit assembly , a 1-1/2 in. O conduit assembly, and a 3/4 in, o conduit assembly clad with a nominal thickness of 1/2 in.

Thermo Lag @ 3301 and various upgrades as described herein were evaluated in accordance with the Texas Utilities Electric TEST PLAN, Rev. 8, based essentially on the requirements of American Nuclear Insurers Bulletin B.7.2,11/87, Attachment B entitled:

'ANIIMAERP RA Standard Fire Endurance Test Method To Qualify A Protective Envelope For Class IEEE Electrical Circuits", Revision I, dated November 1987, and the Nuclear Regulatory Commission letter dated October 29,1992 (see Appendix K.) All three of these assemblies were found to meet the requirements of those documents for a fire resistance period of 60 minutes O

The details, procedures and observations reported herein are correct and true within the limits of sound engineering practice. All specimens and test sample assemblies were produced, installed and tested under the surveillance of either Texas Utilities' or the testing laboratory's in-house Quality Assurance Program.

This report describes the analysis of a distinct assembly and includes descriptions of the test procedure followed, the assembly tested, and all results obtained. All test data are on file and remain available for review by authorized persons.

Y/ 1 4 2 $ 7t v 0 N 'w d d 4 /b3/93 Constance A. Humphrey f Date' Manager, QA Dept, f / /

Deggary N. Priest t//}/?.3 Da'te President

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Report No.12340-94367j December 28,1992 Texas Utilities Electric Page m TABLE OF CONTENTS rIy,y PAGE INTRODUCTION 1 OBJECTIVE 1 TEST PROCEDURE 1 Fire Test Furnace 2 Thermocouples 3 Circuit Integrity 3 Insulation Resistance Testing 4 Data Acquisition system 5 Hose Stream Test 5 Barrier Inspection 6

)

Visual Cable Inspection 6 TEST ASSEMBLY 6 Test Deck 6 Test Items (General) 8 Test Items (Conduits) 9 Conduit Supports 9 Electrical Cables 10 Thermocouple Placement 11 Thermo-Lag

Installation Highlights 12 TEST RESULTS 14 CONCLUSIONS 21-APPENDICES Appendix A: CONSTRUCTION DRAWINGS 23 Appendix B: TEST PLAN 31 Continued on next page V oA n o o; , *A t I Oft TO

Report No.12340-94367j December 28,1992 Texas Utilities Electric Pageiv V(3 TABLE OF CONTENTS (CONT.)

TI B f PAGE Appendix C: THERMOCOUPLE LOCATIONS 52 Appendix D: CIRCUIT INTEGRITY DETAILS 67 Appendix E: INSULATION RESISTANCE DETAILS 75 Appendix F: GRAPHICAL TEST DATA 85 Appendix G: TABULAR TEST DATA 181 Appendix H: QUALITY ASSURANCE 262 Appendix I: PHOTOGRAPHS 503 Appendix J: THERMO-LAGS INSTALLATION DETAILS 513 Appendix K: NRC LETTER, "Thermo-Lag 8 Acceptance 515 Methodology for CPSES Unit 2," dated

) October 29,1992

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V INTRODUCTION The protection of vital electrical circuits from the effects of an enernal fire exposure is of primury concern in the design and construction of an electrical power generating plant. Typical" fire protective envelopes" are designed to protect the contents of an electrical raceway for fire exposure periods of one to three hours, during which time the electric.al circuitry must remain functional.

The external fire exposure selected to evaluate protective envelope systems is that described in the ASTM E119-88 Fire Tests of Building Construction and Materials (E119 Time-Temperature Curve, described later in this document.)

Typical fire test programs involve the selection and construction of a specific electrical raceway system, instrumentation for thermal and circuit integrity measurements, followed by the application of the protective envelope system by qualified personnel.

This standard should be used to measure and describe the properties of materials, products, or assemblies in response to heat and flame under controlled laboratory conditions and should not be used to describe or appraise the fire hazard or risk of OG materials, products, or assemblics under actual fire conditions. However, results of this test may be used as elements of a fire risk assessment that takes into account all the factors that are pertinent to an assessment of the fire hazard of a particular end use.

OBJECI'IVE The objective of this project was to evaluate a specific protective envelope system for use as a 1-hour fire-protective envelope for redundant electrical systems. The entire program was carried out in accordance with the Texas Utilities Electric, TEST PhAN, One Hour Fire Endurance Tests of Articles Protected with the Thermo-Lage 330 Fire Barrier System, Rev. 8, which may be found in Appendix B of this document. For reasons of clarity and to reduce redundancy, many items discussed in the Test Plan have not been duplicated elsewhere in this document.

TESTPROCEDURE This entire test program was performed in accordance with Texas Utilities Electric TEST PLAN, Rev. 8, which has been included in Appendix B. Many of the specific details of this project will be found in that document.

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(G FIRE TESTFURNACE

> The test furnace is designed to allow the specimen to be uniformly exposed to the specified time-temperature conditions. It is fitted with symmetrically located natural gas burners designed to allow an even heat flux distribution across the surface of a test specimen.

The temperature within the furnace is determined to be the mathematical average of thermocouples located symmetrically within the furnace and positioned 12 in, away from representative parts and locations of the test specimen. The exact positioning of the thermocouples is such that the average fire exposure across the entire test specimen can be determined. The materials used in the construction of these thermocouples are those suggested in the E119 test standard. During the performance of a fire exposure test, the furnace temperatures are monitored at least every 15 seconds and displayed for the furnace operator to ailow control along the specified temperature curve. All data is printed to paper every 30 seconds and saved to magnetic disk every minute.

The fire exposure is controlled to conform with the standard time-temperature curve shown in Figure 1, as determined by the table below:

2000 -

Temperatuns Thne 1750 - )

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1000 5 5 1250 - 1300 10 Ei

'UUU ~ 1462 20 5 1550 3) c.

E 750- 1700 m 0 SUU - 1792 m

_1850 120 250 - 1888 150 0 . . . , , , , , 1925 180 0 25 50 75 100 125 150 175 200 Time (minutes)

Ficure1 The test furnace used consists of a large horizontal exposure chamber, with an internal dimension of 12 ft long and 7 ft wide. The furnace is equipped with diffuse-flame natural gas burnere symmetrically located across the floor of the furnace and controlled by individual gas flow valves, with the overall gas flow to

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the furnace being controlled by a single overall gas control valve. Capable of a maximum heat output of 5 million Blu/ hour, these burners are arranged well below the exposed face of the specimen to ensure an even temperature at the surface of the specimen. Windows are located on two sides of the furnace to allow observation of the specimen during fire exposure. The depth of the furnace is variable, being increased to the desired amount by the addition of concrete blocks around the perimeter ledge. These blocks are lined with ceramic fiber blanket to minimize the heat loss from the furnace and to decrease the time required for the furnace walls to heat up. For these tests, the walls are built up from their normal height of 40 in, to a total height of slightly over 79 in. from the furnace floor to the

top of theledge.

The fire test is controlled according to the standard time / temperature cure, as indicated by the average temperature obtained from the readings of the furnace interior thermocouples symmetrically located across the specimen,12 in. away.

The thermocouples are enclosed in protection tubes of such material and dimensions that the time constant of the thermocouple assembly lies between 5.0

, and 7.2 minutes, as required by the E 119 standard. The furnace temperature during a test is controlled such that the area under the time / temperature curve is within 10% of the corresponding area under the standard time / temperature curve for the one hour test period.

The furnace pressure is controlled to be as nearly neutral with respect to the surrounding laboratory atmosphere as possible, measured at the vertical mid-height of the test specimen. Adjusting the neutral plane at that position results in a nominal +0.015 in. WC pressure at the top of the specimen (under surface of the deck) and -0.015 in. WC pressure at the bottom of the specimen.

I TITERMOCOUPLES Temperatures on the interior of the fire protected systems are measured with Type K, 24 gauge, Chromel-Alumel electrically welded thermocouples formed from Chromel and Alumel wires of "special limits of error (11.1 C)," and covered with braided fiberglass insulation (unless thermocouple lead routing requires higher temperature resistance, in which case the thermocouple lends are -

insulated with ceramic fiber or Nexcl8 insulation).

CIRC ~UIT INTEGRITY The purpose of the circuit integrity measurement was to enable the detection of the occurrence of a short between any two conductors or ground (the conduit steel) or an open circuit. Since the failure of any conductor within the system would result in a failure of the protective envelope,-it was not important to be able to determine exactly which conductor failed, but merely that it did fail.

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Consequently, all conductors in each cable type were connected in a single series circuit, with a 1000 1/4 watt resistor between each. (For instance, if a raceway contains 7C/#12 AWG cables, all of the conductors of a particular color are connected into a single, series electrical circuit. Each of these is then connected to the others, in an overall series circuit, with a 1/4 watt,1000 resistor between each, so that if a short occurs between any two [or more] conductors within a single cable, a minimum of 1000 will be dropped from the circuit (see section on Circuit Integrity for complete details].) Finally, a 10000 resistor was installed between this circuit and a 12 volt battery to act as a load resistor for the data acquisition system, and a 1000 resistor was connected between the end of the

< circuit and system ground (See Appendix D: CIRCUIT INTEGRITY DETAILS.)

The resultant circuit allows the measurement of steady state voltage drops across the entire circuit, which will change accordingly as any combination of the resistors is removed from the circuit by shorting of any conductors, i Prior to beginning the fire test, the circuit integrity signals were connected to the data acquisition system and their inputs verified. The voltage measured (using a calibrated 41/2 digit DVM) was noted and recorded as iV (initial voltage). Then one of the 1000 resistors was shorted, and the resultant voltage measured and

,A saved as V-loon (voltage with 1000 removed from _ the circuit). This, then, d indicates the minimum voltage change from Vi that would show a short had occurred in any of the cables. Following the completion of the fire exposure test, a final voltage was measured and recorded as Vr (final voltage). Continuous collection of the circuit integrity voltage signals was performed during the entire fire exposure and hose stream tests and data collection was terminated after the hose stream test was complete. See Appendix D: CIRCUIT INTEGRITY DETAILS for circuit schematics for each of the cable types in this test.

INSULATION RESISTANCE TESTING

, As an additional check on the condition of the conductor insulation, insulation resistance testing was performed on each cable type before the fire and after the hose stream test. The insulation resistance tests were performed using a TU Electric owned and calibr9 fed n?aML megohmmeter, set to the 500 volt DC level for insulation restance testing on all instrumentation cables and the 1500 volt DC level for all power and control cables. To perform the insulation resistance test, the connection to ground was broken for each cable type and the test instrument leads connected from conductor to conductor and from each conductor to ground. Any leakage between that cable type's conductors and ground, or from conductor to conductor, is readily detected in this manner. Upon discovery of an ohmic reading which is lower than the criteria set in the October -

29,1992, NRC Letter (Appendix K) , the reading will be documented in the test report and the splices between cables will be broken and each cable tested

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Report No. 12340-94367j December 28,1992 Texas Utilities Electric Page 5 b

v separately to determine which cable conductor is bad or if there is a bad splice or test lead. Provided the low reading is on a cable, that cable is then removed from the raceway and visually examined to determine where and how the failure occurred.

DATA ACQUISITION SYSTEM i

The outputs of the test article thermocouples and circuit integrity lines and furnace probes are monitored by a data acquisition system consisting of a John Fluke Mfg. Co., Model HELIOS 2289A Computer Front End, a John Fluke Mfg.

Co., Model HELIOS 2281A Extender Chassis (in the case of the 200 channel capacity unit), and an Apple Computer Co., Macintosh Classic microcomputer.

l The Computer Front End is connected to the RS422 Serial Interface Port of the Macintosh and the Extender Chassis is serially connected to the Computer Front End. The computer is programmed in Microsoft BASIC to command the HELIOS units to sample the data input lines, receive and convert the data into a digital 4

format, and to manipulate the raw data into usable units for display on screen and paper and for saving to floppy disk.

Two data acquisition units are used for the majority of tests due to the large p number of data channels. One data acquisition unit is configured for monitoring V 200 data input channels and is used to sample all (or most) of the test article thermocouples. A second data acquisition unit is configured for monitoring 100 data input channels and is used to sample the circuit integrity lines of the test article, ambient laboratory temperature, furnace temperature probes and, if necessary, the remaining test article thermocouple inputs.

IIOSE STREAM TESI' According to the Test Plan, following the fire exposure test, the test specimen is removed from the test furnace, lifted approximately 6 ft. from the ground (as measured from the lowermost part of the specimen), slowly turned (nominally 6 to 8 revolutions per minute) and exposed to the impact, erosion, and cooling effects of a hose stream directed perpendicularly at the exposed surface of the test specimen as outlined in the standard. The stream is delivered, for _a minimum period of 5 minutes, through a 1-1/2 in, fog nozzle with an adjustable stream, with a nozzle pressure of 75 psi, a spray angle of 30 and with the tip of the nozzle a distance of 5 ft. from the exposed face. The nozzle is to flow a minimum of 75 gpm during the hose stream test. It is recognized that, with a three-dimensional object, not all surfaces can he attacked by the hose stream test. For this reason, the specimen is lifted high enough to allow the stream to play against the sides, inside and outside vertical surfaces and the underside of the item, resulting in little,if any, direct force being applied to the inside top surface of the specimen.

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Texas Utilities Electric Page6 l BARRIER INSPECTION Following the hose stream test, all barrier materials, joints and seams are to be visually inspected for burnthrough or openings in the barrier envelope in accordance with the acceptance criteria outlined in the NRC letter dated October 29,1992, (Appendix K.)

VISUAL CABLE INSPECTION Following the barrier inspection, the barrier materials will be systematically removed and the condition of the various assembly aspects will be noted (see Post

Test Observations). The cables in each system will be visually inspected for damage in accordance with the acceptance criteria outlined in the NRC letter dated October 29,1992, (Appendix K.) If any visible thermal damage exists, the outerjacket of the cable in question will be slit open and the condition of the inner conductor insulation will be assessed.

4 TESTASSEMBLY n TESTDECK V

The test deck consisted of a perimeter of 3 in structural steel channel, welded together into an 8 ft by 13 ft rectangle, with the points outward. Over the top of this framework a layer of 10 GA steel shee; was welded to form a continuous, smooth top. Pipe sockets (4 in. e, sch. 40 steel pipe) were then welded onto each corner, so that 3 in. e steel pipe legs could be attached to hold the assembly at a comfortable working level. Holes were then cut into the deck steel at the appropriate locations to allow the test item to be installe,d into the deck assembly. Structural elements were typically attached to the ten item above the deck level, to rigidly fix the item to the deck. Following the installation of the test item, the deck was reinforced with steel channel positioned so as to minimize any warping, bending or sagging -

during the fire test (the size of the channel being selected after consideration of the amount of stiffness required for that particular assembly), and then insulated on the underside with two 2 in thick layers of 6 pcf ceramic fiber blanket, held in place with impaling pins, spaced a maximum of 12 in. o.c. The figure below illustrates a cross-sectional view of one edge of a typical deck assembly, showing the structural steel, the decking and the insulation.

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! I Following complete installation of the test item, the underside of the deck was insulated as previously described, with the ceramic blanket being pushed into direct contact with the test item. A " box" around the penetration point in the deck steel was formed of 3 in, steel channel on edge and the enclosed area completely p filled to a nominal depth of 3 in, with silicone foam fire seal.

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it 2M&a2W2e a FIRE SIDE CROSS-SECTION VIEW OF POINT OF PENETRATION OF THE DECK BY A TEST ITEM This method of sealing around the point where a' test item penetrates the test deck has proven very effective at withstanding the 60 minute fire exposure. Since the penetration seal is considered a part of the support system, and is not in itself '

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Report No.12340-94367j December 28,1992 Texas Utilities Electric Page 8 4

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being evaluated by this test method, the important aspect of the seal is that it be

" typical" of a field installation and withstand the fire exposure test. The silicone foam system used in this design does not unduly act as a heat sink, nor does it offer significant physical support to the penetrating item. Its purpose is to seal the gap without affecting the evaluation of the protective envelope system.

TESTITEM MATFJtIALS (GENERAL)

As with conduit materials installed at CPSES, the materials used in the test were subjected to on-site commercial grade dedication programs prior to acceptance and subsequent installation. The conduit materials used in the test were provided to Texas Utilities by various vendors, and are similar in design and representative i of those installed at CPSES.

All test items were constructed from materials extracted from TU Electric's Comanche Peak Steam Electric Station stock n. 4terial storage areas in accordance with existing site procedures.

Electrical cables used in this and other test programs consisted of site-specific cables supplied by TU Electric and taken from CPSES lot inventory. These cables were as follows:

CROSS.

CABLE CABLE DIAMETER SECTIONAL TYPE FUNCTION DESCRIPTION (In.) AREA (in2)

W-020 Power 3C/#6 AWG 600v. 0.980 0.754 W-023 Power 3C/#8 AWG 600v. 0.747 0.438 W-046 Control 9C/#12 AWG 600v. 0.690 0.374 W-047 Control 7C/#12 AWG 600v. 0.605 0.287 W-048 Control 5C/#12 AWG 600v. 0.575 0.260 W-063 Instrumentation 4 Shielded, 0.737 0.427 Twisted Pair 16 AWG 600v.

W-071 Instrumentation 5C/#16 AWG 600v. 0.474 0.176 The diameters and cross-sectional areas listed herein represent the Laboratory's average of ten measurements of each cable type.

Thermo-Lag 8 330-1 Materials Thermo-Lag 8 materials were procured from Thermal Science, Inc. (TSI), St.

Louis, MO. The Thermo-Lag 8 materials extracted from CPSES site stock were representative of materials installed in the plant. Each one hour rated Thermo-fs\

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Lag

330-1 flat panel is 1/2 in. thick (nominal) x 48_in. wide x 78 in.-long, with -

stress skin monolithically adhered to the panel on .one face. _ Each panel-was -

1 received with 350 Topcoat factory applied. The stress skin is installed adjacent to '

' the surface of the protected commodity. Other materials supplied by TSI were 330 ;

69 stress skin sheets 4 ft. x 7 ft.,350 Topcoat (two part water based mixture),330-1 --

trowel grade _ subliming compound (used with 3301 panels) _ All Thermo-Lage i panels were measured, saw cut and installed onto the respective test assembly by Peak Seals craft personnel using approved ~ CPSES drawings, procedures-and 4

specifications. Installations were inspected by_ CPSES certified quality control j inspectors.

l Other Materials -

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1 Materials used in conjunction with Thermo-Lag e components, but furnished by

[ other vendors included: - Dow Corning 3-6548 RTV silicone foam fire stop material and Thermal Ceramic Knowool M-Board (ceramic fiber damming board). These l

j materials were all previously supplied by Promatec, Houston,. Texas. Other i commercial grade products used were: 1/2 in, wide x 0.020 in. thick type 304

' stainless steel rolled-edge banding straps with wing seals; 16 to-18 GA stainless steel tie wire; and, 0.010 in. stainless steel sheet metal. .

j TESTITEM (CONDUITS) j-

! This assembly consisted of three conduit loops (2 in, e,1-1/2 in.: e 3/4 in. v.) Each L conduit loop extends through the deck,into a 90 elbow (long side vertical), across a horizontal span,'into second 90* elbow-(long side vertical) and back up through l the deck. - All three of the conduit assemblies extended three feet above the surface '

l: of the deck.

CONDUIT SUPPORTS t

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A single trapeze type unistrut hanger was fabricated to-support the: horizontal section of the three conduit runs. The hanger consisted of two P2546 unistrut

! vertical sections with a 2 in, wide,6-1/4 in. long plate factory welded to the top and

[ :a P1001 horizontal sectian secured to the vertical sections with angle brackets and-t spring nut hardware. The hanger was 33-1/2 in.-high to place the bottom of the 2 -

in. W conduit (2-1/2 in. o.d.) 36 in. below the ' deck insulation. :The completed 3 hanger was 39-1/4 in, wide.

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j. The hanger was placed mid-span of the horizontal conduit run. The plates on top of the hanger were insulated from the steel deck by 4 in, of Calcium Silicate Board '

r (Promat, Inc.: Promat-L Cladding, two 2 in'. thick layers) attached to'the steel

- decking with 1/2 in. diameter threaded rods. The conduits were attached to the

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bottom of the unistrut hanger with conduit straps and spring nut hardware (steel--

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O plate filler was used on the 1-1/2 in. e and 3/4 in. o conduits to place the bottom of all three conduits 36 in, below the deck insulation).

ELECTRICAL CABLES All electrical cables used in this project were site specific for CPSES. Where possible, an approximate 1/3 mix of Power, Instrumentation and Control cables

' were pulled into each conduit. The internal cross sectional areas for each conduit are as follows:

CONDUIT SIZE CROSS SECTIONAL (INCHES) AREA (in2) 3/4 0.442 1-1/2 1.767 2 3.142 -

The tables below show the cable types used in each conduit,.the number of-cach cable installed, the total cross-sectional area of each cable type and the percent of g the total available area taken up by each type.

3/4 IN. CONDUIT CROSS.

CABLE NUMBER SECTIONAL Se OF TOTAL TYPE PRESENT AREA (in2) AREA W-071 1 0.176 39.82 TOTAL FILL => 0.176 39.82 %

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. 1 1/2 IN. CONDUIT CROSS.

? CABLE NUMBER SECTIONAL % OF TOTAL TYPE PRESENT AREA (in2) AREA W-023 1 0.438 24.79 W-048 1 0.260 14.71 W-071 1 0.176 9.96

- TOTAL FILL => 0.874 49.46%

i 3 IN. CONDUIT CROSS CABLE NUMBER SECTIONAL % OF TOTAL

. TYPE PRIEENT AREA (in2) -AREA i W-023 1 0.438 -13.94 p l W-048 1 0.260 8.27 V " W-063 1 0.427 13.59 TOTAL FILL => 1.125 35.80 % .

THERMOCOUPLE PLACEMENT 1

24 gauge, . Type K, Chromel Alumel electrically-welded thermocouples (Special-Limits of Error: il.1 C, purchased with lot traceability and calibration certifications) were attached nominally _ every 6 in. along-one each of power, control and instrumentation cables (except .for the 3/4 in o conduit, which contained a single, instrumented cable), by placing the thermojunction in direct contact with the top surface of the cable and covering with a double wrap of glass fiber reinforced electrical tape (Glass Cloth Electrical Tape, Class "B" Insulation, 1/2 in, wide,3M Corporation, Item No. 27) for a minimum distance of 3-1/2 in.

In the 2 in. o and the 1-1/2 in. o conduit, the instrumented Power cable was located at the nominal conter of the cable bundle, while the instrumented Control cable-was located midway in the bundle and the Instrumentation cable with thermocouples was located on the outside of the cable bundle.

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Report No.12340-943G7j December 28,1992 Texas Utilities Electric Page 12 O

e @b ,, = W-023 (Power)

Note: Exact cable @ ,

placement is not showm here. This drawingis v ~

merely to illustrate the h = W 047 (Control) relative placements of /*

the mstrumented cables, - @ = W 071(Instrument) marked by X's. -

g Cable Bundlein Conduit In order to get a realistic measurement of the temperatures at the conduit steel, similar thermocouples were positioned nominally every 12 in, along the top surface of each conduit, being held in position by a short piece of Glass Cloth O Electrical tape. The thermocouple leads were taped securely to the conduits at points away from the thermojunction by wrapping the tape completely around the conduit and thermocouple lead.

THERMO LAGS INSTALLATION HIGHLIGHTS Thermo-Lag

materials were installed in accordance with the instructions contained in the Test Plan, Rev. 8. Short abstracts of the installation are included herein to clarifv specific details. Drawings of the installed Thermo-Lag

on the test assembly are shown in Appendix J.

Thermo Lag

3301 Flat Panel (1/2 in. nom. thickness)

These panels were used to construct the LBD box design and support steel protective envelopes.

Thermo-Lage 330-1 Subliming Trowel Grade Material This material was used to pre-caulk all joints and seams between pre-shaped sections, flat panels, underneath and over stress skin.

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Thermo Lage 3301 Pre Shaped Conduit Sections (1/2 in. nom. thickness)

This material was used to construct the 2 in and 1-1/2 in, raceway design protective envelopes.

Thermo-Lag

3301 Pre-Shaped Conduit Section (3/4 in. nom. thickness)

This material was used to construct the 3/4 in raceway design protective envelope.

Application Methods Each rigid conduit raceway was covered first prior to installing material on the support members using 1/2 in, nominal thickness Thermo-Lag @ 330-1 Pre-Shaped Conduit Material except the 3/4 in, e conduit system which used 3/4 in, nominal thickness pre-shaped material as described below. All joint, seams and built-up areas were pre caulked _with 3301 Trowel Grade Material and secured in place with stainless steel tie wire and metal banding material.

The UniStrut trapeze type support member was covered with Thermo-Lag

Flat A Panel material for a 9 in, distance extending from the closest Thermo Lag

Pre-V Shaped section leaving the remaining UniStrut support steel surfr.ce unprotected from the fire source.

Each raceway LBD fitting was covered with a flat panel material in a manner similar to an L-shaped box configuration. All joints were pre-caulked with 330-1 Trowel Grade Material and secured in place with stainless steel banding material. The LBD " box" configurations were then upgraded as described below.

Refer to Appendix J for further details.

Upgrade Techniques The 3/4 in. dia, raceway was clad with 3/4 in, nominal thickness Thermo-Lag

330-1 Conduit Sections, secured using stainless steel tie wire. All joints were pre-caulked with Thermo Lag 8 330-1 Trowel Grade Material and secured- using stainless steel banding or tie wire.

All LBD flat panel box-design joints were pre-caulked with 3/16 in, of Thermo-Lag

330-1 Trowel Grade and upgraded using Thermo-Lag

330-69 Stress Skin with a 2 in, min. overlap on adjoining panels. Where the raceway enters and exits the LBD,330-69 Stress Skin was cut such that when folded,2 in. of stress-skin material lapped over the adjoining Thermo-Lag @ 330-1 panel and raceway.

The Thermo-Lag

330-1 Trowel Grade was allowed to set and become tacky prior M #" 'oi >

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Iteport W.12340-94367J Decemler 28,1992 Texas Utilities Electric Paga 14 O

G to applying the stress skin. The stress skin was secured to the LBD box with 1/2 in, long staples. Where the stress skin is attached to the entering and exiting raceway, a 2 in. high stress skin collar was circumferentially wrapped around the raceway and stapled in place. After the stress skin had been applied to all the LBD box joints, a skan coat of'I'hermo Lag 8 3301 Trowel Otude was applied over iho stress skin. )

l

'ITNT RE'UL'IB The completed test specimen was placed on the Laboratory's horizontal fire test l furnace and the thermoenuples and circuit integrity systems connected to the data acquisition system and their outputs verified. A clectrical problem was discovered that used several thermocouples to road artificially high temperatures. These criannels were unplugged from the data acquisition unit and disregarded. The test was conducted on Dncomber 3,1992, by Herbert W.

Stansberry II, project manager, with the followits persons present:

Chester Pruett - TU Electric (Fluor Daniel Corporation)

Cal Banning - TU Electric (ABB Impell Corporation) p' Obald Bhatty TU Electric Melvin Quick - TU Electric (Stone & Webster Engineering)

Randy Hooton - TU Electric

. Herschel Crawford - TU Electric Deggary N. Priest - Omega Point Laboratories, Inc.

Kerry Hitchcock - Omega Point Laboratories, Inc.

Connie Humphry - Omega Point Laboratories, Inc.

Cleda Patton - Omega Point Laboratorica, Inc.

i Richard Beasley - Omoga Point Laboratories, Inc.

l Laudencio Castanon -

Omega Point Laboratories, Inc.

David Lynd -

Alamo Crane Co.

David McMillan -

Alexander Utilities, Inc.

Elmer Rigdon - Alexander Utilities, Inc.

Rich Lohman - Thermal Science, Inc.

Stewart Chambers - Thermal Science, Inc.

l The furnace was fired and the ASTM E119 standard time temperature curve followed for a period of 60 minutes. The pressure differential between the laboratory surrounding the furnace and a point within the furnace level with the vertical midpoint of the exposed portion of the specimen was maintained at approximately 0.00 in. water column throughout the test.

The furnace was fired at 7:34 p.m. By 0:38 (min:sec) the outside surface of the test item was beginning to turn brown, and by 1:10 (min:sec) had ignited' fairly p~a,

o wo

.- . .. ..-- -=. - - . _ . -

Iteport No.12340 943G7j Demmler 28,1992 Texas Utilities Electric Page 15 l

uniformly across the exposed surfn:es. By 1:26 (min:sec) the furnace was filled with intense smoke and heavy flaming. During the fire exposure, no visual openings into the raceway were observed.

In the course of the fire endurance test, several problems were encountered.

These problems are discussed, in detail, in the following passages:

During the pre test equipment verification, an electrical problem was found to be effecting thermocouple channels 193, 194 and 196. These thermocouple channels were registering artificially high temperatures due to a ground loop in the circuit integrity system (possibly an electrically insufficient conduit to condulet connection). 'he thermocouple leads were unplugged from the data acquisition systeta. During the early stages of the test, the same problem manifested itselfin thermocouple channels 192,205 and 225. These leads were unplugged when the problem was discovered.

Due to the time constant (5.0 7.2 minutes) inherent in the furnace probe thermocouples required by the test standard, the furnace operator detected an over temperature condition (due to the combination of furnace fuel flow and burning test Mem) and turned the furnace fuel down. When that happened, the flaming on the surface of the Thermo Lag 8 material slowly O stopped, causing the furnace proben to register an under-temperature condition. Consequetly, the operator increased the fuel flow to the furnace and the surface of the test item then re ignited and filled the furnace with smoke and flames again. The furnace temperature thus "saw toothed" its way along the D19 heating curve until the temperature was considerably above 1,000 F, at which time the previously mentioned phenomenon ceased, and the specimen burned steadily for the remainder of the fire exposure period.

Thermocouple channels 195 and 206 were found be reading erroneous temperatures in the comac of the test. The leads were unplugged and the connections verified. After reconnecting the plug leads, the thermocouples were reconnected to the data acquisition unit and data collection resumed on these channels.

Data acquisition was lost for a three minuto period from 28:00 to 30:00 due to a communication error in the data acquisition unit. The acquisition system was restarted and data collection resumed at 31:00. The communication problem was investigated with the technical assistance of John Fluke Mfg.

Co. The problem manifested itselfin the data output buffer of the HELIOS unit. When the computer polled the RU 422 Serial Interface Port for input data, it received less input ' channels than- the HELIOS unit was commanded to place on its output buffer. Thus the computer program d fo g na

(/

Report No.12340 94367j December 28,1992 Texas Utilities Electric Paga10 a

. O i

would wait, in a data collection loop, for the remainder of the data. A program restart was required to break the loop. In consequent discussions with John Fluke Mig. Co., a smaller data sampling loop was recommended, along with error trapping and correcting routines.

, e During the fire exposure, several of the thermocouples located along the conduit steel began reading excessively high temperatures. The affected thermocouple channels which continued to rise during the test typically would peak during the latter portions of the test and then the readings would start lowing significantly as the actual temperature inside the test

' assemblics (as indicated by the cable thermocouples) began to climb toward the boiling point of water. The problem was attributed, upon post test disassembly and based on past experience, to electro chemical reactions caused by saturation of the fiberglass thermocouple insulation braiding by condensato accumulated on the conduit steel. Early in the test, the condensate saturated the thermocouple lead wires and caused erroneous readings. As the test continued, the condensate began to " cook" out of the thermocouple lead wires and the readings began to decrease, showing temperatures closer to the actuel temperature of the conduit steel. The condensate discovered on the conduits upon disassembly had a thick, O syrupy consistency and was dark brown or black. The material found was V a mixture, of unknown proportions, of the water condensed on the conduits and the gaseous and liquid byproducts of the combustion of the Thermo.

Lag

material.

At the end of the fire exposure period, the thermocouples were disconnected, the furnace extinguished and the specimen removed from the furnace. Circuit continuity measurements were continued throughout the fire and hose stream exposure. The test specimen was elevated to a distance of approximately 6 ft.

between the floor and the bottom of the test item and spun on a swivel at a rate of 6

- 8 revolutions per minute (to ensure exposure of as much of the exterior surface as possible) while being exposed to a 30" angle spray nozzle hose stream test with a minimum pressure at the nozzle of 75 psi at a distance of 5 feet, for a 5 minute duration. The minimum flow from the nozzle was 75 gpm (in accordance with Test Plan Ref. 4.13.1). The hose stream was thus positioned to attack the sides, bottom and inside vertical surfaces of the test item, with only minimal exposure to the top surface.

No failure of any of the circuit integrity systems was noted throughout the fire and hose stream exmosures. When the test item was removed from the furnace it was still flaming, which slowly decreased as it was positioned for the hose stream test.

Prior to the hose stream test, no openings or othe- severe damage was noticed on the specimen. The outer layer of the stress skin upgrade was exposed along the O

d o^ ao, 4*%uo #

Report No.12340 94367) Decemler 28,1992 Texas Utilities Electric Page 17 O

corners of the LBD boxes. The remainder of the exposed surface of the test item was covered with a layer of black ash.

Followin ha.w stream test, the Thermo Lag

pieces remained firmly affixed and the . w na steel band was still tightly wrapped around the assemblies. A fuller de .gion of the condition of the protectivo envelope is presented later in this doctanent.

The significant temperatures within the raceway system at the end of the fire exposure test are presented in the table below. (Shaded values are above the allowable limits.)

h1A1 TEMI'EltATUltE AVG. TEMI'EIMTUltE '

LOCATION ( F) ( F) 3/4 in. CONDUIT Conduit Steelt 890 000 W 071 (Instr.) Cable 522 279 O 21,2 in. CosoUiT Conduit Steelt 10G5 GM W 023 (Power) Cable 478 29G W 048 (Control) Cable 419 3t3 W 063 (Instr.) Cable 383 301 2 in. CONDUIT Conduit Steelt 861 462 W 020 (Power) Cable 423 ~

3M W-047 (Control) Cable 300 _

274 W 071 (Instr.) Cable 381 309 t All conduit steel temperatures were affected by condensate saturation.

The average initial temperature for all thermocouples at the start of the test was 65'F, yielding an allowable temperature increase of 250'F, or 315 F actual for the average temperatures. (A 325*F increase above the 65*F initial temperature yields a maximum allowable individual temperature of 390'F, in accordance with ASTM E119 88.)

Prior to the fire test, the voltage signals from each of the circuit integrity systems was measured to establish a baseline (V i ). Then, after shorting across a single 5.0 " *of O- A ogggo

Report No.12340-94367j Decemler 28,1992 Texas Utilities Electric Page 18

O 1000 resistor, the minimum voltage necessary to indicate failure (V_ loon) was measured. At the completion of the fire and hose stream exposure tests, the voltage was again measured (Vr). These values are displayed in the table below.

Additionally, a 500 volt insulation resistance test of each instrumentation cable i

(conductor to conductor and conductor to ground) and a 1500 volt insulation resistance test of each power and control cable (conductor to conductor and conductor to ground) was performed before (Ri ). and after (Rr) the fire and hose stream tests. These results may be found in Appendix E: Insulation Resistance

!. Testing Details.

CABLE l V V-ioon Vt l 3/4 IN. i J

CONDUIT

W-071 4.689 4.184 4.693 1 1/2 IN.

CONDUIT W-023 2.928 2.145 2.932 i

p W-048 4.169 3.588 4.174

?

L/ W-071 4.579 4.077 4.583 2 in. CONDUIT W-023 2.931 2.150 2.935 i W-048 4.174 3.593 4.178

! W-063 5.926 5.5G8 5.930 All data may be found in the Appendices attached to this document.

Post Test Eramination

Immediately following the hose stream test, the test item was systematically disassembled and examined for damage and general condition. A listing of those findings follows. In all cases, when describing a particular Thermo-Lag

330-1 Flat Pt.nel or Pre Shaped Conduit Section, the term " panel" or " pre shaped section" will be used, i

f

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Report No.12340 94367j December 28,1992 Texas Utilities Electric Page 19 O

3/4 IN. O CONDUIT i LOCATION OBSERVATION Left side, above condulet. The outermost layer of stress skin was mostly exposed with very little char on top. Char depth 1 under the outer layer of stress skin was 1/2 in.

Most areas under the outer layer of stress skin had 1/4 in. uncharred material remaining.

Left side,90* condulet. The outermost layer of stress skin upgrade was mostly exposed with 1/2 in, of char build up on top. Char depth under the outer stress skin was )

1/2 in. About 1/4 in. of solid, uncharred ]

material remained under the char layer.

Center, horizontal section. The char depth on top of the outer layer of. stress skin was 1/2 in. The char depth under the outer i layer of stress skin was 1/4 in. Against the conduit,1/4 in, uncharred material was found near the LBDs with 1/8 in. elsewhere.

Right side,90' condulet. The outermost layer of stress skin upgrade was mostly exposed with 1/2 in. of char build ',tp on top. Char depth under the outer stress skin was 1/2 in. About 1/8 to 3/16 in, of solid, uncharred material remained under the char layer.

Right side, above condulet. The outermost layer of stress skin was mostly exposed with very little char on top. Char depth under the outer stress skin was-1/2 in. Most areas on the inner layer had 1/8 to 3/16 in, uncharred material remaining. The outer layer had no remaining uncharred materirgl.

W-071 Cable The cable suffered no apparent heat damage.

The cable jacket was slightly stiffened in the condulet area. The remainder- of- the cable length '. as still flexible.

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Report No.12340-94367j Decomier 28,1992 Texas Utilities Electric Page 20 0

1 1/2 IN. O CONDUIT LOCATION OBSERVATION l Left side, above condulet. The char depth was 1/2 in. Most areas had no uncharred material remaining.

Left side,90 condulet. The outermost layer of stress skin upgrade was mostly exposed. Depth of char was 1/2 in. Char depth under the outer stress skin was 1/2 in.

About 1/8 in of solid, uncharred material remained under the char layer.

Center, horizontal section. The char was 1/2 in. No Thermo Lag *

remained uncharred against the conduit in most areas, in some spots, up to 1/16 in, uncharred material was discovered.

Right side,90 condulet. The outermost layer of stress skin upgrade was mostly exposed. Depth of char was 1/2 in. Char ,

depth under the outer stress skin was -1/2 in.

About 1/4 in of solid, uncharred material remained under the char layer.

Right side, above condulet. One area near- the deck suffered barrier O "e - teri i. ea trea er 8 r thre==a.

uncharred, remained over the inner layer of stress skin at this location. The char depth i elsewhere was 1/2 in. Most areas had no uncharred material remaining.

11/2 in, a Conduit Cables The cable jackets of the W 023 cable was blistered and cracked above the right LBD area (at the barrier burnthrough site) and 2 ft to the left of the right LBD. The outer jacket was cut away to observe the inner conductor insulation.

The inner conductor insulation appeared intact and undamaged. The remaining cables were still flexible and visibly undamaged. Slight greenish-white residue on some cables in condulet area (possibly from filler material between conductors inside the outer insulation sheath.)

5.0 "

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Report Ns.12340-943G7) December 28,1992 Texas Utilities Electric Pag 221 O

2 IN. O CONDUlT LOCA'I.'10N OBSERVATION Left side, above condulet. The char depth was 1/2 in. Most areas hau no uncharred material remaining.

Left side,90* condulet. The outermost layer of stress skin upgrade was mostly exposed. Depth of char was 3/4 in. Char depth under the outer stress skin was 1/2 in.

About 1/16 in, of solid, uncharred material remained under the char layer.

Center, horizontal section. One area midway between the left LBD and the centerline support member suffered from barrier burnthrough. The char depth elsewhere was 1/2 in. No Thermo Lage remained uncharred against the conduit in most areas. In some spots, up to 1/16 in, uncharred material was discovered.

Right side,90* condulet. The outermest layer of stress skin upgrade was mostly exposed. Depth of char was 3/4 in. Char depth under the outer stress skin was 1/2 in.

Between 1/8 to 1/4 in, solid, uncharred material remained under the char layer.

Right side, above condulet. The char depth was 1/2 in. Most areas had no uncharred material remaining.

1-1/2 in. e Conduit Cables The cable jackets of the W-023 cable was blistered and cracked in the area between the left LBD and the midspan support member (at the barrier burnthrough site). The outer jacket was cut away.to observe the inner conductor insulation. The inner conductor insulation appeared intact and undamaged. The remaining cables were still flexible and visibly undamaged. Slight greenish white residue on some cables in condulet area (possibly from filler material between conductors inside the outer insulation sheath.)

CONCLUSIONS The 2 in, e,1 1/2 in, e, and 3/4 in, e Conduit assemblics, clad in a nominal 1/2 in, thickness Thermo Lag

3301 material with additional upgrades presented herein, met the requirements of the TEST PLAN (essentially those of American h fo na

's .

I Report No.12340 943G7j hmber 28,1992 Texas Utilities Electric Page 22 l O

Nuclear Insurers Bulletin B.7.2,11/87, Attachment B entitled: "ANI/MAERP RA Standard Fire Endurance Test Method To Qualify A Protective Envelope For Class IEEE Electrical Circuits," Revision I, dated November 1987), for a fire resistance rating of one hour. .

The assembly met the acceptance criteria contained in the TEST PLAN and the NRC letter dated October 29,1992, for the following parameters: 1) visual cable inspection revealed no apparent thermal damage (on the inner conductor insulation),2) no loss of circuit integrity occurred during the course of the fire and hose stream tests, and 3) the results of the insulation resistance tests were well within the allowable limits.

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l Iteport No.12340 94307j December 28,1992 Texas Utilities Electric APPENDICES O

l 4

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Appendix A

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iteport No.12340 943G7j Decernber 28,1992 Texas Utilities Electric APPENDICES O

O Appendix B TEST PLAN O 4%~f? %,0f

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1 TEST PLAN Rev. 8 ONE HOUR FIRE ENDURANCE TESTS OF ARTICLES PROTECTED WITH THE THERMO LAGS FIRE BARRIER SYSTEM 1.0 SCOPE This test plan describes tho methods and guidelines to be utilized for the preparat8on of test specimens, installation of the THERMO LAGS (hereafter referred te as "Thermo Lag") Fire Barrier Systems, performance of fire endurance and hose stream tests, electrical cable circuit integrity, insulation resisttnce testing and temperature monitoring, and all applicable documentation of these tasks and the test results.

2.0 OBJECTIVE The objective of these tests is te qualify a protective generic fire barrier system for redundant essential cables at TU Electric's Comanche Peak Steam Electric Station.

Successful results of this test program will provide documented evidence that the h

d generic fire barrier systems will satisfactorily withstand an ASTM E119 88 fire exposure for a period of one hour, followed by a hose stream test. The circuit integrity will be monitored continuously using digital data acquisition. These tests shall satisfy the requirements for fire testing the cable raceway fire barriers as detailed in the American Nuclear Insurers Bulletin B.7.2,11/87, Attaclunent B entitled: "AN1/MAERP RA Standard Fire Endurance Test Method To Qualify A Protective Envelope For Class IEEE Electrical Circuits", Revision I, dated November 1987, and the NRC Letter dated October 29,1992, (Ref.4.1.22)(attached),

in the absence of other standards for these specific types of tests, standard practice shall be invoked. Variations in this test procedure from these methods, such as the hose stream test alternatives described in Section 8, will be documented in the final test report.

3.0 ACCEPTANCE CRITERIA 3.1 Temperature Temperatures of all thermocouples will be monitored with each tray rail for cable trays averaged and outside of steel thermocouples for conduits averaged. In addition, thermocouples on one of each cable type (power, control, instrumentation) will be averaged. Acceptance criteria maximum temperatures will be 250' above the ambient initial temperature, for averages as listed above and 325' above the ambient initial temperature, for any single thermocouple, p

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2 3.2 Hose Stream Test / Barrier Inspection A hose stream test with 30' fog nozzle at 75 psi minimum pressure and 75 gpm minimum flow will be applied to the test assembly from 5' 0" away for five minutes.

FoLlowing the hose stream test, a visualinspection will be conducted to document any evidence of burnthrough or opening of the barrier by the hose stream. Acceptance criteria requires that no evidence of burnthrough or openings in the barrier are identified such that the raceway or cables are visible.

3.3 Cable Visual Inspection Providing items 3.1 and 3.2 are satisfactery, cable visual inspection is not required. However, if either of these criteria are not met, the barrier material will be removen and the cables will be inspected visually for damage in accordance with the criteria described in Section 8.5. Documentation of cable visual condition will support cable functionality testing in 3.4.

3.4 Insulation Resistance Testing Providing items 3.1 and 3.2 are satisfactory, insulation resistance (IR) testing is not required.

However,if either of these criteria are not met, the barrier material will be removed and IR testing shall commence within thirty (30) minutes following the hose stream test. The acceptance criteria for IR testing is described in Section 7.11.1. Following completion of IR testing, cable visual inspection (item 3.3) shall be performed. During the barrier visual inspection and prior to thirty minutes following the hose stream test, insulation resistance testing will be conducted using the formula for acceptance criteria in the NRC Letter dated October 29, 1992. Providing the results meet those value, the test will be considered satisfactory.

3.5 Cable Circuit Integrity - American Nuclear Insurer's criteria and method for cable circuit monitoring for successful passage of the ASTM E119 88 Fire Endurance and Water Hose Stream Test as outlined in Sections 8 and 9 of this test plan. -

4.0 REFERENCES

4.1 Documents 4.1,1 Federal Register / Volume 45, No. 225/ Wednesday, November 19,1980 Fire Protection Program for Operating Nuclear Power Plants 10 CFR, Part 50, Appendix R.

4.1.2 American Nuclear Insurers Bulletin B.7.2.. 11/87, Attachment B entitled: "ANI/MAERP RA Standard Fire Endurance Test Method To Qualify A Protective Envelope O

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V For Class IEEE Electrical Circuits", Revision I, dated November 1987.

4.1.3 ASTM E119-88 " Standard Methods of Fire Tests of Building Construction end Materials."

4.1.4 Thermal Science, Inc.'s Technical Note 20684, Revision V "THERMO-LAG 330 Fire Barrier System, Installation Procedures Manual, Power Generating Plant Application,"

including TSI letters of clarification thereto.

4.1.5 Specification CPES-M-2032, Rev. O, " Procurement and Installation of Fire Barrier and Fireproonng Materials."

4.1.6 M21701,"Thermo Lag Typical Details"

a. Sheet 01, Rev. CP-1

b. Sheet 02, Rev. CP-1

c. Sheet 03, Rev. CP-1 ,

d. Sheet 03A, Rev. CP-1

e. ' Sheet 03B, Rev. CP-1

f. Sheet 04, Rev. CP-1

g. Sheet 04A, Rev. CP-1 3 h. Sheet 05, Rev. CP-1 (d i. Sheet 05A, Rev. CP-1

j. Sheet 06, Rev. CP-1

k. Sheet 07, Rev. CP-1

1. Sheet 08, Rev. CP-1

m. Sheet 09, Rev. CP 1

n. Sheet 10, Rev. CP-1

o. Sheet 11, Rev. CP-1

p. Sheet 12, Rev. CP-1

q. Sheet 13, Rev. CP-1

r. Sheet 14, Rev. CP-1

s. Sheet 15, Rev. CP-1 4.1.7 Construction / Quality Procedure CQP-CV-107, Rev. O,

" Application of Fire Barrier and Fireproofing Materials."

4.1.8 Specification CPES-M-1061, Rev. O, " Fire-Rated, Radiation Shielding and Pressure Penetration Seals."

4.1.9 M2-1901, " Penetration Seals Typical Details"

a. Sheet 01, Rev. CP-1

b. Sheet 02, Rev. CP-1 p c. Sheet 03, Rev. CP-1 G y, n

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O d. Sheet 04, Rev. CP 1 V

4.1.10 Construction / Quality Procedure - CQP-MS 125, Rev. - 1,

" Penetration Seals and Maintenance of Separation Gaps" i

J i 4.1.11 Installation Procedure IP 0044.CP, Rev. E, " Installation and

! Repair of 3-6548 Silicone RTV Foam Penetration Seals."

4.1.12 Quality / Construction Procedure QCP-0044.CP, Rev. .F,.

' " Installation Inspection of 3 6548 Silicone RTV Foam 4

Penetration Seals."

j 4.1.13 - Installation Procedure IP 0045.CP, Rev. D, " Installation and j Repair of 45B Elastomer Penetration Seals."

! 4.1.14 - Quality / Construction Procedure QCP 0045.CP, Rev. D,

! " Installation Inspection of 45B Penetration Seals."

4.1.15- . Quality / Construction Procedure QCP-0049.CP, -Rev. C, j " Documentation of Penetration Seal Inspection."

! 4.1.16 Quality / Construction Procedure QCP 0067.CP, Rev. D,

" Density Verification."

4.1.17 Specification CPES-E-2004. Rev.15, " Electrical Installation."

l: 4.1.18 Construction / Quality ProcedurexCQP-EL-222, Rev. 1,

" Installation and Fabrication of Conduit Raceway Systems."

4.1.19- Construction / Quality Procedure CQP-EL 225, Rev. 2, " Cable

. Tray and Supports."

4.1.20 Prerequisite Test Procedure XCP-EE-01, Rev.11, ."Megger/HI l Pot Testing."

i 4.1.21- IEEE Standard 634 (78)" Standard Cable Penetration Fire Stop Qualificadon Test."

4.1.22 - NRC Letter to TU Electric dated October 29,1992.

5.0 RESPONSIBILITIES 5.1 Texas Utilities Electric (TU Electric) and Associated Contractor Organizations -

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5 5.1.1 Establish the criteria, guidelines, drawings (draft quality),

l recommendations, etc., to govern the installation of the test items, Supply the test item pieces, including all hardware, electrical cables, conduit, tray systems, etc.

s 5.1.2 Establish the criteria, guidelines, drawings'(draft quality),

i recommendations, etc., to govern the installation of the fire

penetration seal systems as indicated on applicable drawirgt

(Ref. 4.1.8 through 4.1.16).-

! 5.1.3 Establish the critena, gmdelines, drawings (final, report-quality if needed), recommendations, etc., to govern the

installation of the Thermo-Lag Fire Barrier System Materials to the test articles (Ref. 4.1.5 through 4.1.7).

5.1.4 Provide the specific . Thermo Lag and penetration seal installation procedures and work package documentation (Ref.

4.1.7 and 4.1.15). '

4 5.1.5 Provide materials representative of existing or fut.ure site :

installations.

, 5.1.6 Provide the Thermo-Lag Fire Barrier System and penetration-seal materials and installation tools and equipment.

l 5.1.7 Provide scheduling.of personnel, equipment and material

necessary to perform the installation and QC documentation of .

j the fire barrier system materials utilizing the appropriate : i

installation procedures.

[ 5.1.8 Coardinate all phases of the fire test preparation with the L testing organization including approval of variations from the

+

standard American Nuclear Insurers Test Method.

L 5.1.9- Apply the fire barrier system and penetration seals to the test

[ articles.

5.1.10. Supply QC and construction personnel to witness - and document assembly. and test artic}e raceway configurations

. (Ref. 4.1.8 and 4.1.19).

. '5.1.11 Perform as a liaison with the testing organization and provide -

the testing organization with all applicable TU Electric Documents as identified in Section 4.1.

5.1.12 Provide all applicable quality control documentation for the g fire barrier system materials, cables, and installation of the V'

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fire barrier system and penetration seal materials to each test article.

5.1.13 Provide equipment for performance of insulation resistance testing in accordance with TU Electric specifications and procedures (Ref. 4.1.17 and 4.1.20) as described in Section 7.11.

5.2 Omega Point Laboratories, Inc. (Laboratory) 5.2.1 Prepare the test furnacc, dock and slab assemblies and provide all required test instrumentation in accordance with Appendix B Quality Assurance and Quality Control Programs and other applicable procedures.

5.2.2 Provide thermocouple calibration and instrumentation, storage temperature recorder, surface temperature probe and relative humidityinstrumentation.

5.2.3 Assemble, install and document the installation of all trays, conduits, cables, etc. to be supplied by TU Electric. Provide computer-generated drawings of tray and conduit systems which clearly indicate dimensions, thermocouple locations, circuit integrity cable locations, etc.

O V 5.2.4 Observe and document the installation of the Thermo-Lag Fire Barrier System Materials and penetration seals to the test articles, and attendant instrumentation on each test article.

5.2.5 Conduct the fire endurance and water hose stream tests, and also provide electrical cable circuitry integrity and continuity monitoring throughout the specified test time period.

5.2.6 Inspect and document the physical condition of all cables and Thermo-Lag fire barrier system for each test article following completion of water hose stream tests (where applicable).

5.2.7 Document the test parameters and provide a formal detailed written report of the test program and test results.

5.2.8 Provide VHS video and 35mm photographic coverage of the test project.

5.2.9 Provide insulation resistance testing of all circuits prior to and following fire endurance test as described in Section 7.11.

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5.3 Laboratory Quality Assurance / Quality Control 5.3.1 Verify and document the quality control documentation of the fire banier system materials used in the test program.

5.3.2 Perform and document inspections of the fire barrier system materials at various points during the installation process.

5.3.3 Verify and document that TU Electric's installation procedures are utilized in the installation of the fire barrier system and penetration seal materials.

5.3.4 Inspect and document the construction and instrumentation of the test articles.

5.3.5 Provide written calibration documentation of all thermocouples, rmasurement devices and data acquisition systems used in this teat program.

6.0 SPECIAL PPECi UTIONS 6.1 Precautions For Installation Of The Fire Barrier System Materials 6.1.1 Observe specific precautions recommended by Thermal Science, Inc. and other's matenal safety data sheets.

6.2. Precautions For Conducting The Fire Endurance Test 6.2.1 Proper safety precautions shall be exercised to preclude personnel from diract exposure to the flame environment, hot objects, hazardous gases, and all other related hazards.

7.0 PREREQUISITES 7.1 General Test Configuration Requirements The cable tray, conduit, cables and cable loading used in this test program shall be representative of those configurations used, and shall be specified and designed by TU Electric.

7.2 Traceability Requirements To insure that the materials used in this test are representative of those in actual use at Comanche Peak Steam Electric Station (CPSES),

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8 all aspects of traceability as required by the Laboratory QA Program shall be applied.

The cables used in this test program shall be traceable to the respective cable manufacturer and shall be supplied by TU Electric with documentation of traceability.

All thermocouples used in this tost program shall be traceable to the respeative thermocouple manufacturer, with calibration certification.

7.3 Dimensioned Drawings All test articles shall conform to the rough draft dimensioned drawings provided by TU Electric during asseably of the test articles. Final, dimensioned drawings will be prepared by the Laboratory.

7.4 Test Configuration 7.4.1 General The test articles shall be sufficiently secured to the test deck by Laboratory personnel and sealed by TU. Electric personnel, in accordance with instructions and drawings.

7.4.2 Cable Tray Test Articles Ten (10) configurations (i.e. " Schemes") of steel ladder back cable trays supplied by TU Electric will be tested.

a. A 36" wide x 4" deep "U" shape configuration with horizontal tee assembly and protruding member (Scheme 1),

b. A 12" wide x 4" deep "U" shape (Scheme 3).

c. A 36" wide x 4" deep straight vertical configuration (Scheme 4),

d. A' 30" wide x 4" deep "U" shape configuration with-horizontal tee assembly and protruding member (Scheme 5),

e. A. 24" wide x 4" deep "U" shape configuration with horizontal tee assembly (Scheme 6).

f. A 30" wide x 4" deep "U" shape (Scheme 8).

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g. A 30" wide x 4" deep "U" shape (Scheme 12-1).

h. A 24" wide x 4" deep "U" shape configuration with horizontal tee assembly (Scheme 12-2).

i. A 12" wide x 4" deep "U" shape (Scheme 13-1).

j. A 30" wide x 4" deep "U" shape configuration with horizontal tee assembly (Scheme 14-1) r 7.4.3 Conduit Test Articles Seven (7) configurations (i.e. " Schemes") of rigid steel conduits supplied by TU Electric will be tested.

- a. A "U" shape conduit configuration consisting of three (3) individual rigid steel conduits; 3/4" diameter,1" diameter '

and 5" diameter, mounted to a. central 24" x 18" x 8" junction box. This configuration will also contain three (3) protruding members (Scheme 2).

b. A "U" shape conduit configuration consisting of five-(5) individual conduits; two 3/4" diameter, one 1-1/2" O diameter, one 2" diameter _ and one 3" diameter. -Each conduit will have two (2) lateral bends (Scheme 7),

c. A "U" shape conduit configuration consisting of three (3) individual rigid steel conduits;: 3/4" diameter, 3" diameter :

and 5" diameter. Each conduit will have one (1) lateral bend and one (1) radial bend (Scheme 9-1).-

d. - A "U" shape conduit configuration consisting of three (3) individual rigid steel conduits; 3/4" diameter,3" diameter and 5"_ diameter. Each conduit will have one (1) lateral bend and one (1) radial bend (Scheme 9 2).

e. A "U" shape conduit configuration consisting of three (3) individual rigid steel conduits; 3/4" diameter,1-1/2" diameter and 2" diameter. Each conduit will have two (2) lateral bends. (Scheme 9-3). -

f. A "U" shape conduit configuration consisting of two (2) individual rigid' steel conduits, both 3" diameter, mounted to one (1) horizontal 18" x 12" x 6" junction box and one (1) vertical.18" x 12" x 6" junction box. Each conduit will -

- have two (2) lateral bends (Scheme 10-1).

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(, g. A "U" shape conduit configuration consisting-of two (2)-

_ individual rigid steel conduits, both 3" diameter, mounted =

to one (1) horizontal 18" x 12" x 6" junction box and one (1) '

4 vertical 18" x 12" x 6" junction box. Each conduit will have two (2) lateral bends (Scheme 10 2).

l 7.4.4 Air Drop Test Articles i

One (1) configuration (i.e.

Scheme") of steel ladder back cable:

- tray which transitions into four (4) rigid steel conduita supplied'

- by TU Electric will be tested.

i

a. A "U" shape configuration consisting of a 24" wide x 4" deep cable ~ tray,-- with - 90' sweeping- bend, which -

i transitions into three (3) individual rigid steel conduits;

! 1" diameter, 2" _ diameter and 3" diameter, through -

! individual " air drops" and one " air drop" of cabling which

' exits the top of the 24". wide x _4". deep cable tray _ and i

enters a. vertical 5" diameter rigid steel conduit, which

! extends through the test deck (Scheme 11-1).

7.5 Cable Loading Requirements .

Cable loading requirements

shall be as specified by TU Electric, and

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will approximately consist of.the following percentage mix:

- CABLE TRAYS AND 1-1/2"- 5" DIAMETER CONDUIT i - 331/3% 600 volt Power Cables s 331/3% 600 volt Instrumentation Cables *

331/3% 600 volt Control Cables i

l 3/4"- 1" DIAMETER CONDUIT--

Either 100% Control or Instrumentation Cable .

T. . . .. _. .. .

Actual tray and conduit full densities and cable diameters will_be documented 'and included in the final test report.

7.6 Cable Installation.--

An itemized listing of cable _. types and quantities including density fill to_be installed in the test articles will be prepared by the Laboratory-

- and included in the final report. Cable location within the test articles shall be documented and_ included with _ data to be evaluated by the

, testing laboratory.

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O 2.2 Therm-pie 1 s.ne-i All thermocouples used in this test program shall be provided and installed by the Laboratory, with QC surveillance by Laboratory l personnel. - The thermocouple wires shall be calibrated (by Lot No.)-

' prior to installation and/or use,- and applicable;. quality control j

documentation for record purposes generated. 'All thermocouples will-i consist of 24 GA, type K, Chromel Alumel (Special Limits of-Error:

l ill*C) electrically welded thermojunctions. Calibration will consist of

manufacturer supplied (and audited) certifications of calibrations at j five temperatures of thermocouples taken from both ends of.each n purchased lot number.

i All thermocouples shall be located on and within each test article in accordance with the following TU Electric requirements:

NOTE: Thermocouple locations which differ from the following.

criteria shall be documented in the final test report.

f 1) All cable trays shall be instrumented with thermocouples located on l

the outside, longitudinal centerline of each cable tray rail at 12 inch :

intervals along the portions of the cable tray that are below the' deck :

! and protected by the fire protective envelope. Each thermocouple shall:

be attached to the tray rail by the use of a small metal screw. For each-tray rail, the maximum and average temperatures will be documented.

2) All conduits shall be instrumented with thermocouples located on the

! outside, top surface of the conduit.at 12. inch intervals along the portions of the conduit that are below the deck and protected by the -

e fire protective envelope. Each thermocouple shall be attached to the i conduit by a double wrap of glass fiber reinforced electrical tape or by_

$ electrical welding to the conduit steel.: For each conduit, the maximum-and average temperatures will be documented.

p 3) Electrical' junction box (Scheme 1) shall be instrumented with a minimum of one thermocouple per-5' square feet of exterior surface, located on the inside surface of the item and attachedLusing a small:

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= sheet ' metal . screw- or- welded "directly; to the steel surface. A.

i thermocouple shall be placed within one'(1) inch of the penetration seal

. on the inside surface of the junction box.

f

4) Electricall junction baxos _(Schemes 10-11and 10 2)_ shallf be- -

instrumented with a minimum of one (1) thermocouple centered on the inside surface of each box face and one (1) thermocouple within 1" of- .

where each conduit enters'the junction box- Thermocouples shall be. -

p attached using a small sheet metal screw or welded directly to the steel -

surface. These thermocouples will be grouped with attached conduit jag.

-[.: 3, 1 -

4~ _

- oggy 4

, , , , , , ,. _ , , _ _L , __ _ _

12 thermocouples and maximum and average temperatures will be documented.

5) Electrical cables (Schemes 1 through 8) shall be randomly selected in each assembly (one of each cable type: Power, Instrumentation and Control) and instrumented with thermocouples located at each 12 inch interval along each cable's length inside the exposed area of the test item. If insufficient cables are contained within a test item to instrument to that degree, a minimum of one cable, of the smallest size in that system, will be instrumented. Systems which contain more than a single layer of cables will have.the instrumented cables positioned at the top surface of the cable bundle.

Each thermocouple shall be attached to its appropriate cable by placing the thermojunction in direct contact with the outer insulation of the cable for a minimum of 3-1/2" and covering with a double wrap of glass-fiber reinforced electrical tape, unless otherwise documented in the final test report.

6) Electrical cables (Schemes 9-1 through 14-1) shall be randomly selected in each assembly (one of each cable type: Power, Instnunentation and Control) and instrumented with thermocouples located at each 6 inch interval along each cable's length inside the

] exposed area of the test item. If insufficient cables are contained within a test item to instrument to that degree, a minimum of one cable, of the smallest size in that system, will be instrumented.

Each thermocouple shall be attached to its appropriate cable by placing the thermojunction in direct contact with the outer insulation of the 4 cable for a minimum of 3-1/2" and covering with a double wrap of glass-fiber reinforced electrical tape, unless otherwise documented in the final test report.

7) Instrumented cables in cable tray Schemes 1, 3, 4 and 5 shall be positioned such that one passes down the longitudinal centerline and the other two shall be positioned between the center cable and the tray rails on each side, as documented in the final test report.

l 8) Instrumented cables in cable tray in Schenes 6,8,11-1,12-1,12-2,13-1 and 14-1 shall be positioned such that one passes down the longitudinal centerline and the other two shall be positioned immediately next to the tray rails on each side, as documented in the final test report. Each line of thermocouples on a cable will be grouped and maximum and average temperatures will be documented.

O O

g** fog e\ <n OkATO

13 L 9) Cables in conduits will have one instrumented cable in the centr.r of r the bundle, one cable half way to the outside of the bundle and one

instrumented cable on the outside of thebundle.

/

10) For air drop tests, cable bundles will be instmmented as described in

j. paragraph 9 above, unless.otherwise' documented in ~the final test i report, and those cables will have thermocouples every six inches

through the remainder of the test assembly. Where these cables are located in the cable trays, one of the instrumented cables.will be positioned (as described in paragraph 8 above) immediately next to -

each tray rail and one along the longitudinal centerline of the tray. - All

" remaining thermocoupled cables will be distributed as evenly as 4

possible. Each line of thermocouples on a cable will be grouped and I maximum and average temperatures will be documented.

\

7.8 Installation of the Fim Barrier system to the Test Articles ,

4 i Thermo-Lag Fire Barrier System materials shall-be installed'by TU-r Electric in accordance with applicable specifications, design drawings-and procedures (Ref. 4.1.5,4.1.6 and 4.1.7) such that the test articles are representative of CPSES plant installations except those. test articles intended to- qualify: upgraded THERMO LAG _ installation conSgurations. Details of the Thermo-Lag configurations including n fasteners, orientation of structural ribs, etc., shall be documented in

~

2- the final test report.

7.9 Fire SealInstallation Upon completion of the fabrication and installation of the fire barrier:

systems to the test articles (or prior to, depending upon the situation),

! all openings in the test articles shall be _ sealed by TU Electric in accordance with applicable specifications, design < drawings iand

. procedures (Ref. 4.1.8 through 4.1.16). All openings in the test' deck .

and slab assemblies not sealed by TU Electric shall be sealed by the i laboratory.

b Failure of the fire seal shall not necessarily constitute a failure of the protective envelope; The type of fire seal used shall be at the discretion of TU Electric.

i- -7.101 Circuit Integrity. Monitoring?

All cables shall be' energized to monitor circuit integrity (as required to check

for a circuit-failure) in accordance with Reference 4.1.2; Circuit failure is

defined as circuit to-circuit-(conductor to' conductor short); open circuit -

, T (conductor broken); and, circuit to ground (short circuits, conductors _ to

, a; , p (V [

- cL- .i = '

~ Og

. . _ . _. , .._ _ _ _m._._ . _ _ ..m-_ . . . .

[ '

14 ;

ground). The cables shall be instrumented for each of the three parameters in accord with the following:

All cables of a single type shall be connected into a single series circuit, which will allow any circuit failure to be detected. Cable failures will be

identifiable as having been Power, Control or Instrumentation cable.

Cable circuit integrity will be done by energizing each circuit with low -

. voltage (5 - 12 VDC). . The data acquisition system will monitor the voltage -

{

across the system and will register any drop in voltage.

i NOTE: Circuit integrity with low voltage is based on personal safety

! concerns and is consistent with standard test practice.

4 l The purpose of the circuit integrity measurement is to enable the detection of i the occurrence of a short between any two conductors or ground (the tray or conduit steel) or an open circuit. Since the failure of any conductor within the -

system would result in a failure of the protective envelope, it is not important L to be able to determine exactly which conductor failed, but merely that it did fail. Consequently, all conductors of each type will be connected together in a-eingle series circuit, with a-1000 resistor between each end. Finally, a 10000 resistor will be installed between this circuit and a 12 volt DC power supply (wet cell battery) to act as a load resistor for the data acquisition system, and -

a 1000 resistor will be connected between the end of the circuit and system .

ground.

i The resultant circuit allows the measurement of a steady etate voltage drop

! across the entire circuit, which will drop accordingly as any combination of the - 1000 resistors are removed from the _ circuit- by : shorting - of any' conductors. With the total resistance of the circuit being 20000, and the data acquisition system measuring acrossL10000 of the 20000, the minimum i voltage drop due to a loss of one of the 1000 resistors would be approximately -

i 0.316 volts, a level easily detected. An open anywhere in the circuit would cause the voltage to drop to zero. -A typical circuit-integrity monitoring L

, design (one which would be used with;a limited number of cables, which L would be all connected into a single circuit)is shown below:

l i.

i f

u 4

. h, ~ .

s- - -[

- 4 r

l 15 O. + -

12 VDC Pwr Sup g

ha'"'

To Data i

1000 0

Acquisition System

^

4 i

physically on top of the test deck 183 color = black l , -

l i i 1000 i color = red 1000 color = white : -

color = blue = T O

V 1000 color = green 1000 ch i.

s=nd t.-..._.-.-.. -... ...-.-.-- -.- ----- _.-.-.;

/ "DURING FIRE TEST'

- # CIRCUITINTEGRITY

$ CONFIGURATION ,

(Schemes 9 through 14) e " Extension

Cable from top of deck to concrete floor for convenience and speed (unused in this configuration)

I The monitored cables shall be scanned at least once each minute. Monitored cables shall be energized until the bose stream test is completed.-

NOTE: All conduit and cable trays shall be separately grounded by coimection of a 1/0 copper ground to the Laboratory's electrical chassis ground. Preceding and O OA #

4h-d%q l %

oil f' ;i 4

l i i ra% l

'*o'bfah

4 16 following the fire and hose stream tests, the cables will be tested for Insulation Resistance, with the circuita configured as follows:

1

+ -

12 VDC Pwr Sup g *

h*"' To Data amund Acquisition f 1000O System 3

-p-...hysically =o..-.- n top ---.-

of the. te. s.t d.eck

._ = _ _ - - - . - . - - - -

- - -.-.- 3 i'

o I

color = black j

(

color = red l i

i color = white !

color = blue i

=

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- u color = green i

- ~

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+

ch - i.

- smund

,L-.-.-.-.-.-._.-._...- -

.- " PRE- AND POST-FIRE TES'I"

' INSUIATION RESISTANCE

$ CONFIGURATION

- (Schemu 9 throuch 14) e " Extension" Cable from top of deck to concrete floor for convenience and speed (for use by insulation j resistance testing connections)

The Insulation Resistance Test will be performed prior to the fire exposure test in accordance with 7.11.1 and the circuit configuration.will then be OA#

O: 3 '

^

et <

4O RAT

i i

17 4

changed to that necessary for following Circuit Integrity during the~ fire and hose stream tests. Following the hose stream test the circuit configuration 2 will be returned to that required for the-Insulation Resistance-Test in-accordance with 7.11.1. The insulation resistance test will begin within 30 a minutes of completion of the hose stream test.

J-7.11 Preburn Inspection 7.11.1 The Laboratory shall perform insulation resistance testing of.

all circuits.with a 500 y megohmmeter for instrumentation and 7

1500 y megohmmeter for power and control cables to establish -

reasonable assurance that wiring insulation was not damaged;

l. prior to or during installation.~ This.will determine; the insulation ' resistance - from all conductor -to. conductor i

combinations, and each conductor to ground. Details of this testing will be discussed in each test report and documented on

" Insulation Resistance Testing Data Sheets." The acceptance -

i criteria for each "meggered". cable is based on the following formula: ~

IR Acceptance Value (MO) 2:

(1MOkV- + 1)

1000 (ft) j Mgth (ft) ,

i I 7.11.2 - Prior to the commencement of the fire endurance test, a thorough checknof ~ each test- assembly and associated i

( equipment (including data * , Arding equipment) shall be l performed and documented by the testing laboratory. -

7.11.3 TU Electric shallinspect the Thermo-Lag Fire Barrier' System -

j for surface defects, etc. prior to test.-

7.11.4 Written approval of the construction, assembly, installation

~and instrumentation will be supplied by TU Electric and the Laboratory prior to performance of each fire exposure test (a

, sign-off sheet for this purpose will be faupplied by the Laboratory).

i 7.11.5_ Fire endurance testing of assemblies will not commence until Thermo-Lag Fire Barrier. Materials attain a moisture _ meter

- reading that does not' exceed 20% moisture content when'using

i. . a' meter, with a. scale of 0-100-(with 100 being;20% actual

. moisture.. content) 'such ' as = a Delmhorst i Model DP or-

- equivalent.

- 8.0 PROCEDURE I

1 a

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_ _ _ - . . _ . _ _ _. _ . . _ . . . _ _ . _ _ ~ . -..___. -

4-18 O 8.1 Fire Endurance Test -

8.1.1. The protected test article shall be exposed to the standard time / temperature curve found in ASTM E119 (88) for one hour.

8.1.2 The testing organization shall adapt their testing procedures to -

assuri the fire test complies with the requirements established in all referenced portions of referenced standards. Any changes, revisions, or deviations required to comply with this requirement shall be documented and properly justified and included as a part of the final test report. 1 8.2 Insulation Resistance Test 8.2.1 The insulation resistance test shall be conducted in accordance with Section 7.11.1 prior to the fire test and following the hose

" stream test.

8.3 Water Hose Stream Test 8.3.1 For Schemes 1 through 5, immediately following the_ fire O endurance test, accessible surfaces of the protected test article-shall be subjected to the American Nuclear Insurer's preferred-water hose stream test, as specified. The water hose stream shall be applied for a minimum of two and one half (2-1/2)-

minutes. Proper safety precautions shall be exercised. . Only those personnelvequired to perform the hose stream test shall-be allowed in the immediate: area, -and only then with appropriate breathing apparati.

8.3.2 For Schume 7, no hose stream test will be conducted to facilitate '

post-fire test inspection of the test: articles. Instead, a - '

nondestructive quench of the articles will be utilized with a i garden hose and a gentle spray.

8.3.3 For all remaining schemes, the hose stream test will be applied using a 30* angle spray nozzle with a minimum pressure at the nozzle of 75 psi at a distance of 5 feet, for a 5 minute duration.

The ' minimum- flow from- the, nozzle shall- be gpm :(in accordance with Ref. 4.1.21.)

8.4 Protective Envelope Inspection-O OAA ru

.((, ,-e,y gs y ,,

O{[o

5(

19 (3 8.4.1 Following the Water Hose Stream Test a visual inspection will V be conducted of the outer surface of the protective envelope including all material and seams. The condition of the envelope will be documented, including any locations where there is evidence of burn through or opening of the barrier, on a " Barrier Inspection Data Sheet."

8.5 Cable Inspection 8.5.1 Following the Protective Envelope Inspection and Post Fire Insulation Resistance Test, visual inspection of all cables for each test article shall be performed. The physical condition of all cables shall be detailed on " Cable Inspection Data Sheets" in the final test report and suitably photographed. The criteria utilized for visual inspection of cables shall include but is not necessarily limited to the following:

a) jacket swelling / blistering, splitting / cracking, discoloration or melting b) shield exposed

. c) conductor insulation exposed, degraded or discolored

, d) bare copper conductor exposed D e) jacket hardening (O

9.0 DATA SYSTEMS 9.1 During the fire exposure period, the thermocouples will be scanned at one minute intervals or less. Data storage for reporting purposes will be at one minute intervals, although the furnace thermocouples will be scanned every 15 seconds, to allow close control of the furnace. A printer output and scanning of all other thermocouple data will also be done at intervals of one minute or less, but will not be included in the test report (however, this record will be filed in the QC document file at the Laboratory).

9.2 Monitored cables shall be energized during the water hose stream test or nondestructive quench as applicable.

10.0 FIRE TEST REPORT 10.1 The Laboratory will submit a report on the results of the test and thermocouple data.

10.2 The Laboratory will assemble the final test report, containing the g collected data and required quality control documentation.

V of r

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-5)

. 20 0 10.3 The test report shall be prepared in sufficient detail to summarize the total testing activity. The report shallinclude as a minimum:

a) Date of the test b) Location of the test ,

c) Description of the test furnace and test articles -

d) Calibration documentation of all thermocouples .

e) QualiScation and certification for test personnel f) Test procedures used g) Acceptance criteria h) Provide quality control records for:

Test article construction Qualification and -certification for installation and inspection personnel

Identification and installation of fire barrier material

Thermocouple locations

Cables, size, type, and location _

Actual tray and conduit fill densities .

i) Computer printout and graphic results of the fire endurance test j) All raw data including circuit integrity monitoring k) 35mm and VHS video photographic coverage of the test project F 1) ~ Provide a chronological log (Event Log) of all activities from receipt of materials through final test report m) Insulation resistance test methodology and documentation n) Post test protective envelope and cable inspection records and ,

results O .mn, of1 L f h.g.A y_.

y ,u. pq-Okagh

l i e r: 3, av Report No;12340-943G7j - December 28,-1992 1 i .

Texas Utilities Electric-- . APPENDICES -i f ,e 2-s t-6 k

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Y L Appendix C

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b THERMOCOUPLE PLACEMENT LOG PROJECT NO. 94367 E:
This Log is to be used to document the ise location of the thermocouples located on each test horn The assigned project number for each of the test assemblies
heme 891: 94367A Scheme #12 2: 9436711 Project #: 94367J otheme 89 2: 94367B Scheme #121: 94367J Scheme #101:94367C Scheme #9 3: 94367J Scheme #: 93 Scheme 810-2: 94367D Scheme 810 3: 94367K i Scheme #11 1: 94367E Scheme 8131: 94367L ltern: 1 1/2" Conduit Power Cable Scheme 8112: 94367F Scheme #141: 94367M Scheme #113: 94367G 3C/#8 W-023 TC 1Jumber Description of exact physical location P1 Center of caole P2 6" right of center P3 12" right of center P4 18" right of center P5 24" right of center P6 30" right of center P7 36" right of center P8 42" right of center P9 48" right of center P10 54" right of center Pil 60" right of center P12 66" right of center _
P13 72" right of center P14 78" right of center P15 6" left of center P16 12"left of center P17 18" left of center P18 24" left of center P19 30"left of center P20 36"left of center P21 42"left of center P22 48" left of center P23 54"left of center P24 60" left of center P25 66" left of center P26 72" left of center P27 78" left of center i
/OTE: TCs shall be numbered sequentially from 1 upwards for each deck assembly. Prefixes shall be added as follows: P l ipower cable), C (control cable), I (instmmentation cable) and E (engineering TC), for instance P1, E35, C46, etc. 1 PLEASE USE THE BACK OF THIS SHEET POR DRAWINGS, IF NECESSARY n m .--
l THERMOCOUPLE PLACEMENT LOG - PROJECT NO. 943S7 i NOIL This i ? 81 to be used to document the ocise location of the thermocouples located on each test he,rt The assigned project nurrt t : for each of the test assemblies
heme #91: 94367A Scheme #12 2: 9436711 Project #:.24367J ocheme #9 2: 94367B Scheme #121: 943671 Scheme #10-1: 94367C Scheme #9 3: 94367J Scheme #: 93 Scheme #10-2: 94367D Scheme #10 3: 94367K Scheme #111: 94367E Scheme #131: 94367L ltem: 1 1/2" Conduit Control Cable Scheme #112: 94367F Scheme #141: 94367M Scheme #113: 943670 50/#12 W 048 TC Number Description of exact physical location C28 Center of cable C29 6" right of center C30 12" right of center C31 18" right of center C32 24' right of center C33 30" right of center C34 36" right of center C35 42" right of center C36 48" right of center C37 54" right of center C38 60" right of center C39 66" right of center C40 72" right of center C41 78" right of center C42 6" left of center
~
C43 12" left of center C44 18" left of center C45 24"left of center C46 30" left of center C47 36" left of center C48 42"lefl of center C49 48" left of center C50 54"left of center C51 60" left of center C52 66" lefl of center C53 72" left of center C54 78" left of center
,OTE: 7Cs shall be numbered sequentially from 1 upwards for each deck assembly. Prefixes shall be added as follows: P (power cable), C (control cable), I (instrumentation cable) and E (engineering TC), for instance P1, E35, C46, etc.
PLEASE USE THE BACK OF THIS SHEET FOR DRAWINGS, IF NECESSARY i
l THERMOCOUPLE PLACEMENT LOG - PROJECT NO. 94367 NOR:
Th3 Log is to be used to document the precise location of the thermocouples located on each test hent The assigned project nurrber for each of the test assernblies are;
heme #91: 94367A Scheme 812 2:9436711 Project #: 94367J ocheme #9 2: 94367B Scheme #121: 943671 Scheme #101: 943G7C Scheme #9 3: 94367J Scheme #: 9,sl ~
Scheme #10 2: 94307D Scheme #10-3: 94367K ;
Scheme #111: 94307E Scheme #131: 94367L ltem: 1 1/2" Conduit Instr. Cable l Scheme #112: 94307F Scheme #141: 94307M Scheme #113: 94367G 50/#16 W 071 TC Number llescription of exact physical location 155 Center of cable 156 6" right of center 157 12" right of center 158 18" right of center 159 24" right of center 160 30" right of center 161 36" right of center 162 42" right of center 163 48" right of center ifA 54" right of center 165 60" right of center 166 66" right of center 167 72" right of center 168 78" right of center 169 6" left of center 170 12" left of center 171 18" leR of center 172 24" left of center 173 30" left of center 174 36" left of center 175 42" left of center 176 48"left of center 177 54" left of center 178 60" left of center 179 6G" left of center 180 72"left of center 181 78"left of center
OTE

1Cs shall be numbered sequenttally from 1 upwards for each deck assembly. Prefixes shall be added as follows: P (power cable), C (control cable),1(instrumentation cable) and E (engineering TC), for instance P1, E35, C46, etc.
PLEASE USE THE BACK OF THIS SHEET,FOR DRAWINGS, IF NECESSARY
l THERMOCOUPLE PLACEMENT LOG - PROJECT NO. 94367 NOTE:
Ths Log is to be used to document the precise location of the thermocouples located on each test itern. The assigned project number for en::h of the test assemblies are; cheme 891: 94367A Scheme #12-2: 9436711 Project #: 94367J Jcheme #9-2: 94367B Scheme #121: 943671 Scheme #10-1: 94367C Scheme #9 3: 94367J Scheme #: 9-3 Scheme #10-2: 94367D Scheme #10 3: 94367K Scheme #11 1: 94367E Scheme #131: 94367L ltem: 2" Conduit Power Cable Scheme #112: 94367F Scheme #141: 94367M Scheme #113: 94367G "C/#8 W-023 TC Number Description of exact physical location P82 Center of cable P83 6" right of center _
P84 12" right of center P85 18" right of center P86 24" right of center P87 30" right of center P88 36" right of center P89 42" right of center P90 49" right of center P91 54" right of center P92 60" right of center P93 66" right of center l ) P94 72" right of center P95 78" right of center P96 6" left of center P97 12"left of center P98 18" left of center
~
P99 24" left of center P100 30" left of center P101 36" left of center P102 42"left of center P103 48" left of center P104 54"left of center P105 60" left of center P106 66" left of center P107 72" left of center P108 78"left of center NOTE: TCs shall be numbered sequenually from 1 upwards for each deck assembly. Prefixes shall be added as follows: P (power cable), C (control cable), I(instrumentation cable) and E (engineering 'IC), for instance P1, E35, C46, etc.
PLEASE USE THE BACK OF THIS SHEET FOR DRAWINGS. IF NECESSARY
PROJECT NO. 94367 b l THERMOCOUPLE PLACEMENT LOG NOT E.:
Th3 Log is to be used to document the precise location of the thermocouples located on sach test iterrt The assigned project number for sa0h of the test asserrbl4es are:
1eme #91: 94367A Scheme #12 2: 943671I Project #: 94367J '
. scheme #9 2: 94367B Scheme #121: 943671 Scheme #101: 94367C Scheme 89 3: 94367J Scheme #: 93 Scheme #10 2: 94367D Scheme #10-3: 94367K Scheme #11 1: 94367E Scheme #131: 94367L ltem: 2" Conduit Control Cable Scheme #112: 94367F Scheme #141: 94367M l Scheme #113: 943670 5C/#12 W-048 1
TC Number Description of exact physical location C109 Center of cable C110 6" dght of center C111 12" right of center C112 18" right of center C113 24" right of center C114 30" right of center ,
C115 36" right of cer *sr C116 42" right of center C117 48" right of center C118 54" right of center '
C119 60" right of center ,
C120 66" right of center C121 72" right of center C122 78' right of center
~
C123 6" left of center C124 12" left of center ,
C125 18"left of center
~
C126 24" left of center C127 30" left of center C128 36" left of center C129 42" left of center ~
C130 48" left of center C131 54" Ieft of center C132 60" left of center C133 66" left of center _ , _
C134 72"left of center C135 78" left of center l
OTE: TCs shall be numbered sequentially from 1 upwards for each deck assembly. Prefixes shall be added as follows: P power cable), C (control cable), I(instrumentation cable) and E (engineering TC), for instance P1, E35, C40, etc.
PLEASE USE THE BACK OF THIS SHEET FOR DRAWINGS, IF NECESSARY
l THERMOCOUPLE PLACEMENT LOG - PROJECT NO. 94367 Non.:
This Log is to be used to document the precise location of the thermocouples located on each test hem. The assigned project number for em::h of the test assembl4es are:
. heme #91: 94367A Scheme #12 2: 9436711 Project #:.94367J echeme #9 2: 94367B Scheme #121: 943671 Scheme #101: 94367C Scheme #9 3: 94367J Scheme #: 9-3 Scheme #10 2: 94367D haeme #10 3: 94367K Scheme #111: 94367E Scheme #131: 94367L I 2" Conduit Instr. Cable l Scheme #112: 94367F Scheme #141: 94367M Scheme #113: 94367G W-063 4 shielded twisted pair #16 TC Number Description of exact physical location 1136 Center of cable ,
1137 6" right of center 1138 12" right of center 1139 18" right of center 1140 24" right of center 1141 30" right of center 1142 36" right of center _
1143 42" right of center 1144 48" right of center 1145 54" right of center 1146 60" right of center 1147 66" right of center
{ ) 1148 72" right of center 1149 78" right of center 1150 6"left of center 1151 12" left of center 1152 18"left of center 1153 24"left of center 1154 30" leR of center 1155 36"left of center .
1156 42"left of center 1157 48" left of center 1158 54" left of center I159 60" leR of center 1160 66" left of center 1161 72" left of center I162 78" left of center r
w _
iOTE: TCs shall be numbered sequennally from 1 upwards for each deck assembly. Prefixes shall be added as follows: P 7 (power cable), C (control cable), I (instrum entation cable) and E (engineering TC), for instance P1, E35, CA6, etc.
l PLEASE USE THE BACK OF THIS SHEET FOR DRAWINGS, IF NECESSARY
l THERMOCOUPLE PLACEMENT LOG - PROJECT NO,94367 NOTE: l This Log is to be used to document the precise locatsn of the thermocouples located on each test horn The assigned pro}ect number for each of the test assemblies are:
. heme #91: 94367A Scheme #12 2: 9436711 Project #: 943G7J scheme #9 2: 94367B Scheme #12-1: 943671 Scheme #10-1: 94367C Scheme #9 3: 94367J Scheme #: 93 Scheme #10 2: 94367D Scheme #10-3: 94367K Scheme #11 1: 94367E Scheme #131: 94367L ltem: 3/4" Conduit Instr. Cable Scheme #112: 94367F Scheme #141: 94367M Scheme #113: 94367G 50/#16 W-071 TC Number Description of exact physical location 1163 Center of cable _
1164 6" right of center 1165 12* right of center 1166 18" right of center 1167 24" right of center 1168 30" right of center 1169 36" right of center 1170 42" right of center 1171 50" right of center 1172 54" right of center 1173 60" right of center 1174 66" right of center 1175 72" right of center 1176 78" right of center 1177 84" right of center _
1178 6" left of center 1179 12"left of center 1180 18"left of center 1181 24"left of center 1182 30" left of center 1183 36" left of center 1184 42" left of center 1185 42" left of center 1186 54" left of center l 1187 60"left of center l 1188 66"left of center 1189 72"left of center 1190 78"left of center __
1191 84" left of center l
.OTE 'ICs shall be numbered sequentially from 1 upwards for each deck assembly. Prefixes shall be added as follows: P (power cable), C (control cable), I (instrumentation cable) and E (engineering TC), for instance P1, E35, C46, ete-PLEASE USE THE BACK OF THIS SHEET FOR DRAWINGS, IF NECESSARY
G j
l THERMOCOUPLE PLACEMENT LOG - PROJECT NO. 94367 NOT E:
hb Log is to be used to document the precise location of the thermocouples located on each test horn The assigned project mber for en:h of the test assembbes are:
ocheme 691: 94367A Scheme #12 2: 9436711 Project #: 943G7J Scheme #9 2: 94367B Scheme #121: 943671 Scheme #101: 94367C Scheme #9 3: 94367J Scheme #: 9-3 Scheme $10 2: 94367D Scheme #10 3: 94367K Scheme #11 1: 94367E Scheme #131: 94367L Item: 2" Conduit -
Scheme #112: 94367F Scheme #141: 94367M Scheme #113: 94367G Conduit Steel TC Number Description of exact physical location E192 On conduit surface, under hanger strap on hanger E193 On top of conduit,12" right of previous TC ~
E194 On top of conduit,12" right of previous TC E195 On top of conduit,12" right of previous TC E196 Centered on outside of condulet cover E197 On outside of conduit,12" above horizontal conduit E198 On outside of conduit,12" above previous TC E199 On outside of conduit,8" above previous TC E200 On top of conduit,12" left of hanger E201 On top of conduit,12" left of previous TC ,
{ } E202 On top of conduit,12" left of previous TC E203 Centered on outside of condulet cover E204 On inside of conduit,12" above horizontal conduit E205 On inside of conduit,12" above previous TC E206 On inside of conduit,8" above previous TC NOTO 'ICs shall be numbered sequentially from 1 upwards for each deck assembly. Pre 3xes shall be added as follows: P
{ power cable), C (control cable), I(instrumentation cable) and E (engmeering TC), for instance P1, E35, C46, etc. >
, PLEASE USE THE BACK OF THIS SHEET FOR DRAWINGS, IF NECESSARY l
C lNOTE; THERMOCOUPLE PLACEMENT LOG - PROJECT NO. 94367 h Log is tc be used to dxument the precise location of the thermocouples located on each test hem. The assigned project mber for each of the test asserrblies are:
6cheme 891: 94367A Scheme #12 2: 94367H Project #: 943G7J Scheme #9 2: 94367B Scheme #121: 943671 Scheme #10-1: 94367C Scheme #9-3: 94367J Scheme #: 9-3 Scheme #10-2: 94367D Scheme #10-3: 94367K Scheme #11 1: 94367E Scheme #131: 94367L ltem: 3/4" Conduit Scheme #112: 94367F Scheme #141: 94367M Scheme #113: 94367G Conduit Steel l
TC Number Desenption of exact physical location E207 On conduit surface, under hanger strap on hanger E208 On top of conduit,12" right of previous TC E209 On top of conduit,12" right of previous TC :
E210 On top of conduit,12" right of previous TC E211 Centered on outside of condulet cover E212 On outside er conduit,12" above condulet E213 On outside of conduit,12" above previous TC E214 On outside of conduit,12" above previous TC E215 On top of conduit,12" left of hanger E216 On top of conduit,12" left of previous TC
{ E217 On top of conduit,12"left of previous TC
~
E218 Centered on outside of condulet cover E219 On inside of conduit,12" above previous TC E220 On inside of conduit,12" above previous TC E221 On inside of conduit,12" above previous TC NOTE:1Cs shall be numbered sequentially from 1 upwards for each deck assembly, Prefixes shall be added as follows: P j hower cable), C (control cable), I (instrumentation cable) and E (engineering TC), for instance P1, E35, C46, etc.
. PLEASE USE THE BACK OF THIS SHEET FOR DRAWINGS, IF NECESSARY l
I
(
THERMOCOUPLE PLACEMENT LOG - PROJECT NO. 94367 NOIL:
Thh Log is to be used to document the precise location of the thermocouples located on each test Itern The assigned project
( ^;rrber for ea:h of the test asserrblies are:
O Scheme #12 2: 9436711 Project #: 94367J ocheme #91: 94367A Scheme #9 2: 94367B Scheme #121: 943671 Scheme #10-1: 943670 Scheme #9-3: 94367J Scheme #: 93 Scheme #10-2: 94367D Scheme #10-3: 94367K Scheme #11 1: 94367E Scheme #131: 94367L ltem: 1-1/2" Conduit Scheme #112: 94367F Scheme #141: 94367M Scheme #113: 94367G Conduit Steel TC Number Description of exact physical location E222 On conduit surface, under hanger strap on hanger E223 On top of conduit,12" right of previous TC E224 On top of conduit,12" right of previous TC E225 On top of conduit,12" right of previous TC E226 Centered on outside of condulet cover E227 On outside of conduit,12" above horizontal conduit E228 On outside of conduit,12" above previous TC E229 On outside of conduit,8" above previous TC E230 On top of conduit,12" left of hanger _ _ _ ,
E231 On top of conduit,12" left of previous TC
{ } E232 On top of conduit,12"left of previous TC E233 Centered on outside of condulet cover E234 On inside of conduit,12" above horizontal conduit E235 On inside of conduit,12" above previous TC E236 On inside of conduit,8" above previous TC f
NOT E:'ICs shall be numbered sequential' f rom 1 upwards for each deck assembly. Prefixes shall be added as follows: P
( hpower cable), C (control cable), I(instrumentation cable) and E (engineering 'IC), for instance P1, E35, C46, etc.
, PLEASE USE THE BACK OF THIS SHEET FOR DRAWINGS, IF NECESSARY l -
f.
Report No.12340 943G7) December 28,1992 Texas Utilities Electric APPENDICES O
O Appendix D CIRCUlT INTEGRITY DETAILS l
l t
i l
i O
~~v. p;~o o~~
A Assg a ,
f k' ,j nT
, +-
MAT
. . _ _ . . . _ ~ ~ _ . _ , . . , _ _ _ - . . _ . . _ . , - _ , ,
1 C l 1 TEXAS UTILITIES ELECTRIC I PROJECT NO, l CIRCUlT INTEGRITY CONNECTIONS I
+ -
12 VDC Pwr Sup 1 g ,,,i, gound Acquisition f1000Q System o
Circuit Integrity vi= J A M 1000 V.1000 = M - l50 color =
~~i. vt= /d A M~~~
100 0 Color = 2 ,
1000 /
O -
c 'er = 3 1000 chassis ground Oua.a l - l - W
~~#~ ' 3~~
. Date' Instrumented: i Techician: , SCHEME #i 3
ASSEMBLY #:
ITEM: 2" ad*'* #
CABLE FUNCTION: POWER CABLE TYPE: W-023 O c^8'8 size: ac'*8 ^wo
C:
TEXAS UTILITIES ELECTRIC PROJECT NO.
CIRCUIT INTEGRITY CONNECTIONS
+
12VDC Pwr Sup 1 cha. is To Data 1000 O smund Acquisition System 3
Circuit Integrity v, = 4.17 4
- color = Red V. loon = b N 1000 Vr = 4 I^)E color = Black _
T, color = Orange 100 0 color = White _
1000 color = Green 1000 2a5:
ground (4e ., e / 2 "8 "
Dato Instrumented: /* * ' 2 I
~~'*'I SCHEME #-~~
Technician: ASSEMBLY #5 J ITEM: #. #"##
CABLE FUNCTION: CONTROL CABLE TYPE: W-048 CABLE SIZE: 5C/#12 AWG l:
TEXAS UTILITIES ELECTRIC PROJECT NO.
CIRCUIT INTEGRITY CONNECTIONS O +
12 VDC g "
chassis To Data grnand Acquisition f10000 System 3
color = Red 1000 color = White 1000 } color = Black 100 0 Circuit Integdty color = White _ y 3 gg color = Orange Y 1000 , 5. M ,
]
Y*f
~~color = White 1 i~~
~~1000 color = Green 1000~~
~~_ color = White '~~
i 1000 h
color = Bare _
100 0 chassis ground [44,, </ / "d
SCHEME #:
r nianl s ASSEMBLY #: [
ITEM: 2* u..'t CABLE FUNCTION: INSTRUMENT CABLE TYPE: WG3 cA8'8 size: 4 Saieided O- Twisted Pairs
~~16 AWG (8 Cond)~~
- ~ _ . - . . , . . - . -- . . - . - , . .
. - - . __ - - -- -. ___ , _. . _ _ - _ . - . . _ _ ~ , , . . . . _ . - _ _ _ . . - = _ _ . -
f TEXAS UTILITIES ELECTRIC PROJECT NO.
CIRCUIT INTEGRITY CONNECTIONS
+ -
12 VDC
' "E g '
chassis To Data gnund Acquisition f 10000 System o l l
Cirruit Integrity o Vi = __ M d .930' 100 0 color = Red .
1000 = bN
~ '
V"4' f 5 00 0 color = Black _
~
A h
color = Orange _
100 0 color = White _
1000 color = Green ;
1000
_ color = Bare _
100 0 chassis ground ,
Date Instrumented: //~/H E 1 Technician: d+f SCHEME #: ,
ASSEMBLY #:
ITEM: -- #ld " 4-41 CABLE FUNCTION: INSTRUMENT CABLE TYPE: W-071 O c^8's size: sce*18 ^wo
I l
TEXAS UTILITIES ELECTRIC PROJECT NO.
CIRCUIT INTEGRITY CONNECTIONS
+ -
12 VDC Pwr Sup g i ch...i' To Data 8"""d Acquisition 4 1000 0 System ,
o Circuit Integrity vi= a.4 M v.1oon A. t45' 1000f c,},, ,
b vf=
~~100 0 C0 lor = 2 ,~~
1000 color = 3 100 0 1 mm chassis ground t
( $
~~n.,el f * ' f "~~
"'/ 9 'N Date Instrumented: 9 Technician: M SCHEME #: .,
ASSEMELY #: 1 ITEM: 1 % 4"d 'I CABLE FUNCTION: POWER CABLE TYPE: W.8EB o u -
CABLE SIZE: 3C/#6 AWG O.
! TEXAS UTILITIES ELECTRIC PROJECT NO.
CIRCUIT INTEGRITY CONNECTIONS
-+
12 VDC 7 Pwr Sup Q*
Er ""d To De 1000 0 Acquisition System o
Circuit Integrity o V = A DM g
1000
-I color = Red V. loon = 4 E vr = 4 6T3 1000 color = Black _
1000 9- color = Orange
-1000 color = White _
1000 color = Green 1000 color = Bare _
100 0 chassis '
ground = -
,, '[ * -
- Date Instrumented: //~/j,'"
I SCHEME #:
Technician. ASSEMBLY. #:
ITEM: I f* ' /" #"', #
- CABLE FUNCTION: INSTRUMENT CABLE TYPE: W-071 I O.
c^8'8 stzs: sc'*18 ^wo
_ _ - . - . .___-.. .- , - - .._. ._--_-. -_ _ _ .. ~ . - . . . . . . . . . _ _ . ~ _ . _ . - ,
TEXAS UTILITIES ELECTRIC PROJECT NO, CIRCUIT INTEGRITY CONNECTIONS
+ -
12 VDC rM 1 chassia To Data gn>und 1000 O Acquisition ,
System '
o Cheult Integrity v, = 4.1 teS color = Red _ V 1000= 5.S T 1000 V"' f '
color = Black 1000 color = Orange 1000 color = White _
1000 color = Green _
1000 chassis ground
(%,, ,/ 7 "/,"
- Date Instrumented: #~ #
i Technician: SCHEME #:
l ASSEMBLY #: #
ITEM: l N ~ I'"#*I CABLE FUNCTION: COh"I'ROL CABLE TYPE: W-048 CABLE SIZE: SC/#12 AWG
11eport No.12340 94307) December 28,1992 Texas Utilities Electric API'ENDICES O
O aggeeaix e INSULATION RESISTANCE DETAILS i
G' c.
[
o}f,,. %
(
7 Q L6NGTH CF MEG 66R CALCS 9-3 LENGTH OF M.Q ACCEFT.
C A 6 L P.- 6ATB N 610W CASL5 -f0TAL. MG458R LJ-02 5 A la'-E" +(lc24'-&)= 36.GG 43./;4 a"pconcurr W-o+6 & E48-3" +( l e24'- #): 48.75 32.52 EU$ GONDUl*T W-O(05 6 I 4 '- 6" +( l e 24'-G") 39,cc 4l.C5 a"4 coNCUl f y-07l C7 13'-G" +( l e 24'- 9)= SS.00 42.1i 3/4"& GONDutT N-023 E 20'- (p" +( l e .24' -F) = 45.0 0 35.56 i '/d' & coNou tf W - 01l f: 17'-10" t( l e24'-v): 41.33 37.60 l'/k" p dCNDUlT O x,-o43 4 ,3,- , " 4( i 24>- d= 3,.ss 4z.e3 l'/P" y 40NDulT 0
me PAGE ABB REV BY DATE CHECMic DATE es Mu~Evo.
7 TEX AS UTILITIES ELECTRIC This individual cable has C A f3L E been labeled with the letter CODE INSULATION RESISTANCE MEASUREMENT shown in the box to the right.
pATA SHEET to simpiiry rapia identi0 cation.
PROJECT NO:
~~M7 CABLE LENGTH TT): * # d'/ d A TEST NO: 4 IR ACCEPTANCE VALUE:~~
Negit' / /t ANYfsrs CIRCUIT PRE TEST POST TEST ACCEPTANCE TESTED IRX3 IR X 3 No 1 to No. 2 OK 3 30 y l
No.1 tojo. 3 > SP K l'3D v No. I to Ground clo k A8D y No. 2 to No. 3 > 6DR 4CC y y
i No. 2 to Ground ARK 4 to 4KD 'v No. 3 to Ground pol < i i
,4 v.;
i i
l I
i l
I i
i I
s i Date Pre Test IRT: //- / 9 -9 d-- 9 Technician: EN Rd SCHEME #:
7 Date Post Test IRT: .D-; A A ASSEMBLY #:
fPm ITEM: 3%#*
Technician: s"o "
CABLE FUNCTION: POWER @'il
(; CABLE TYPE: -4v-ote- W- O~d 3 I
's CABLE SIZE: 3/C #6 AWG
~~IRT = Insulation Resistance Test ENERGIZE TO: 1500 VDC d IIN dAg eal Tae T>Jt 9op1 t7dAm.Mphm m ,, . . . . s.~~
Pcgo 1 of 1 TEXAS UTILITIES ELECTRIC ThJs individual cable has CABLE 7' INSULATION RESISTANCE MEASUREMENT been labeled with the letter CODE i DATA SHEET shown in the box to the right, to signplify rapid identification. [ I PROJECT NO: M7 CABLE LENGTH (PT): '((q
't TEST NO: IR ACCEPTANCE VALUE:
Re d in Olar6/t m s CIRCUIT PRE TEST -
IOST. TEST I TESTED 1RY 3 IRX3 ' ACCEPTANCE .
I
%ck en mk > C08 MO v l Black to Orince > Sb X 490 9 Black to White > SDM J70 Y Black to Green > SO R 25 D Y Black to Ground 40k PCO v Pink to Grance > fox BE v Pinito White > f0 R A90 f Pink to Green 3 fd M 'A I O 9 Pink to Ground 3OK ACO O Orange to White ) fof Mo 9 Orance to Green '> foY h 4 Orande to Ground idk- 256 6 White to Green > 5D E 4co 0 White to Ground @K Mo v 0 Green to Ground wok ~250 Y 5
1 ,
e i 8
1 l
Date Pre-Test IRT: // ' 19 '43 f Technician: M N B. SCHEME #:
I Date Post-Test IRT: M-h ASSEMBLY #: ,/" d ', /
Technician: o "
oP. ITEM:
CABLE FUNCTION: CONTROL CABLE TYPE: ~W 048 CABLE SIZE: 5/C #12 AWG O
~~IRT = Insulation Resistance Test ENERGIZE TO: 1500 VDC 3C llVI t E h.hkok u W W ca w e vJt ooyn hW" Wu_-t.~~
m<
TEXAS UTILITIES ELECTRIC Pago 1 of 2
CABLE INSULATION RESISTANCE MEASUREMENT a aleh CODE
[ e, DATA' SHEET shown in the box to the right, to simplify rapid O
identification.
PROJECT NO: N#7 CABLE LENGTH (PT): A#
TEST NO: 4 IR ACCEPTANCE VALUE: '#' # 7 44
' Read ln th<a obss CIRC L'IT i PRE-TEST POST TEST !
TESTED i IR X l IR X / I ACCEPTANCE t
R4a tn White trods > So R !
EaO v Red to Black N '
/N v Red to %hite black > '
00 i 7So Y Red to Green ec 1 6&o 9 Red to White Irreen) oo 7M Y Red to Orance CO /.# K v Red to White 'orangei oo '
750 v Red to Shield (6Aov4M oo #od v
=w s4 c.-..-4 yV /
%htte red, to Black oo /, 5R Y
%%ite redi to Whate iblack) cx)
~
/K v
%htte f red) to Green 00 900 f White ' redi to White fereen) 00 i /N Y
_ NWhite < redi to Orance co -
/, F A' v (hNhite red) to White (orance) OO ! 9SO 'v White ' red) to Shield (6tevW6) > SO K 1 WO V Black to %%ite (black) -
oc i 47f 2 'v Black to Green I cso - /, 9 # 0 Jinck tn White (nean s c>o i 42 N b
_. Black to Orange ~ ! oo I 3K G
__ Black to %%ite (orance) i 00 i di M 6 Black to Shield GheovNb) ! >50k I /. G S- K : G White (black) to Green i oo /. 4 Y (r White (black) to White (rreen) I oo /, S N i V White (bl teki tn Ornna. I CO 3Y i 4 White (black) to Whiteloranceil oO '
o? X '
V White (black) to Shield (GR004 00 i /N ! V Green to White (rreen) 1 JO t i.9 K v
- Green to Orange i cc i 3K i 0
(.NIORE ON NEXT SHEET) /
Date Pre-Test IRT: llN T/f S 1-Technician: G# DU SCHEME #:
ASSEMBLY #: J Date Post Test IRT: /s/9#a -
Technician: d# ' ITEM:I[J* " I'#d CABLE FUNCTION: INSTRIDIEST
! CABLE TYPE: W 063 t
~~IRT = Insulation Resistance Test CABLE SIZE: 4 pr #16 AWG~~
'""" '*T: 5" "
syNo,Ic-1No -
caj,~ btte : cl3M A 7
TEXAS UTILITIES ELECTRIC Pago 2 ef 2 CABLE INSULATION RESISTANCE MEASUREMENT This individual ecble has Cons been labeled with the letter ATA SHEET shown in the box to the right, to simplify rapid i A
identification. ! 'J PROJECT NO: #'l 18 7 CABLE LENGTH (FT): H'#
TEST NO: 1 1R ACCEPTANCE VALUE: 4'#34 7 7 8 d d . / h N / 6 / d /t m CIRCUIT PRE TEST POST. TEST
' TESTED iR V l IR Y l ACCEPTANCE i
I Graen in White Inrnneel CO '
c2 N I V
.._ Green to Shield (6AUN03 CC '
'70 0 Y White 'ereen) to Orance co i 6#A : y White (rreen) to White (orange l CC 4, F N i Y
~~White (rreen) to Shield (GAcus) > Sb K ;~~
/. 9 R '
Y _ _ ~
Orance to White (orance) oo '
% CA v Orange to Shield (Gloved > SC M ' a,FK i 9
White (orance) to Shield (fi AM1) CO /, c2 5 K O l i
, . i I I i 4
, I
. I i i i i l l 1 ! I i i i i !
I i i l I I I
! I I_ !
' i i i 1, _ l i I Date Pre-Test IRT: ///Af/@
SCHEME #: 9 Techniciau: CM CL 3 Date Post Test IRT: /s2/3/92 Technician: /' # ASSEMBLYITEM:
CABLE FUNCTION: INSTRUMENT
~~)#cN" /d~~
~~CABLE TYPE: WM O~~
~~IRT = Insulation Resistance Test CABLE SIZE:~~
ENERGIZE TO:
4 pr #16 AWG 500 VDC Tm A Ie-n 4 o
. c,\ h 93o90
O TEXAS UTILITIES ELECTRIC This individual cable has CABLE INSULATION RESISTANCE MEASUREMENT been labeled with the letter CODE i shown in the box to the right, l
@ATA SHEET to simpiiry rapid 1 identification.
PROJECT NO: #41/7 CABLE LENGTH (FT):- # #
TEST NO: i IR ACCEPTANCE VALUE: 4^//
1 hAd Ih IM24 Olth S l l
l CIRCUIT PRE TEST !
POST TEST
! TESTED l' 1R X / IR X / l ACCEPTANCE l
Black tn Pink I oO R ~/ C D v Black to Orance CO 3 P40 6 i Black to Whitei i Co COD ' 0 Black to Green CO 4SDO ' ir Black to Shield (6/!00Nol > 50 k.- MOD '
'V
' -B!rck tc Cr:-and r
? 5 C l' ._,
Pink to Orance '
oo 3'7CC v Pink to White 00 3 3.c0 Y Pink to Green oo 4 I00 Y i Pink to Shield (6 Econ 0) i oo M OD Y PinhicCrcund -9 Orance to White i co S(ce13 v C! Orance to Green I Orance to Shield (6ROO40)
' oo oD 4000
.'A S C O Y p
l ^rann te-G- :and i J SO /r l White to Green i > 50 K 4 s co y White to Shield (GROUNO3 i C 3 3.o00 '
Y "Et : Cround ! %@* '
_ Green in Shield (6R00ND) ~
I
> #O R '
3800 .
v C = n :: C ;2.d > Sc M - '
Chic!d :o Ocm u.d .
C '! k 1 1
! ! I l i 1 l l l
i i l i l i i L j l i Date Pre-Test IRT: /M/Of R 4 Technician: W ' o R. - SCHEME #:
I Date Post Test IRT: 12-b% _ ASSEMBLY #:
Technician: y E4- ITEM: 0" 4 41*
CABLE FUNCTION: INSTRUMENT CABLE TYPE: W-071 CABLE SIZE: 5/C #16 AWG FALL
~~IRT = Insulation Resistance Test ENERGIZE TO: 500 VDC~~
))v f d - //I/ g Podtrud.
bl Due %0@7 W #'l orqd.uq %o4Q
._. . _ - - - - - - - - . . - _ _ _ _ - - - _ . . ~ _ _ _ _ _ _ _ _ _ _ . - . -
b{
TEXAS UTILITIES ELECTRIC This individual cable has CABLE INSULATION RESISTANCE MEASUREMENT been labeled with the letter ._ C O D E shown in the box to the right. !
to simpiiry rapid : a
]ATA SHEET identification. l 6 PROJECT NO: Nl 7 CABLE LENGTH (PT): N#
TEST NO: 9 IR ACCEPTANCE VALUE: "N '1 /L VGad kkca #
D.hnt
! CIRCUIT PRE TEST POST. TEST TESTED IR IR X3 ACCEPTANCE Nn 1 tn No 2 >5~oN MO Y No 1 to No. 3 ) fox A4O v No 1 to Ground /5K liO O' No. 2 to No. 3 t/0 R AST v Niii2 to Ground '/of 1 A >- y No 3 to Ground 7K I%O y O
i i
i I i I '
Date Pre-Test IRT: b M' W t Technician: / art- Rg SCHEME #: ,
L Date Post Test IRT: 1 A'-3 -9 x ASSEMBLY #: g, ,f
' Technician,' & # 2_. ITEM:
u ~
CARLE FUNCTION: POWER O
~~IRT = Insulation Resistance Test c^8's Tves:~~
CABLE SIZE:
w.023 3/C #8 AWG ENERGIZE TO: 1500 VDC l T C ' II U @W Whb l
N N o4k no4A1 mw. -
l TEXAS UTILITIES ELECTRIC This individual cable has CABLE INSULATION RESISTANCE MEASUREMENT been labeled with the letter CODE ]
shown in the box to the nght, i 09ATA SHEET to etnpiity rapid identification. l PROJECT NO: 4M7 CABLE LENGTH (FT): b 'II TEST NO: 9 IR ACCEPTANCE VALUE: 17#"4 R ad ist Atleb 3 l
' CIRCUIT PRE TEST I POST TEST
' TESTED IR X / ' I R ,ig f ACCEPTANCE i !
3 Blnck in Pink i C /7I '
v
~~Black to Orance OC) '~~
/SO Y i Black to White I cc /SD 9 i Black to Green -
! c>o 4 05' a wL v i
Black to Shield (6Ro u.9 D) i CO !
/ 4 5 ~JP3'd i ' v B!:2 e Cr =d i
> c'" ff Pink to Orance ao //75' '
sr i
Pink to White oO /YB 2 I v
Pink to Green .
cc doo hva O Pink to Shield (GeouND) 4
> SO _K -/ /P/SD ' v Nkm C rac.d i 50 %
Orance to White <
co /00 ! v O' i Orance to Green Orance to Shield (GROUND ) '
' CO oo 4 GL'I' u r-u d4
/ J f "/'70 i v
I Or=:: 2 Cr;=d I Y TC V I I White to Green I oo .cSo a BKM v White to Shield (64ovNb3 '
i oo -
M "< So ' s,
"?.it 2 Cr;=d ! >_",^ M ! 4 N(w /
Green tn Rhield (GAouND) I > SO K + /7T~4SDi v C w ;m C. mm.d b re M ! t /
_Ehidd :s Croc.d St ! I i i i i !
I i i l i I I i l l I 1 !
I i t I i l I Date Pre-Test IRT: ////'7/92 SCHEME #:
T Technician: 6W 'o U 1
/4/3/92 ASSEMBLY #: -
Date Post-Test Technician: IRT: A4 hrM ITEM: I C /" A '*
~
c^8's runcTron:"ixSTRuMENT O CABLE TYPE:
CABLE SIZE:
W-071 5/C #16 AWG
~~IRT = Insulation Resistance Test L ENERGIZE TO: 500 VDC l~~
. I .//v:
f Jc - // 90 L ca/. Du e 93o %27-L
Pago 1 of 1 I TEXAS UTILITIES ELECTRIC CABLE INSULATION RESISTANCE MEASUREMENT This individual cable has CODE been labeled with the letter ,
DATA SHEET shown in the box to the right, iO to simplify rapid identification. l _D PROJECT NO: D7 CABLE LENGTH (Fr): N8 4 IR ACCEPTANCE VALUE: 4 2 '#8 "4-TEST NO:
h a d 'nt Akgddk5 CIRCUIT PRE-TEST '
POST TEST TESTED IR y.3 IR Y 3 ACCEPTANCE Rhek in Dink > fd X % o Black to Orsnce > s~0f to d- d Black to White ~ )Fok 55 4 Black to Green > fold l#- 9 Black to Ground '35K 35' Y Pink to Orange > fo K To Y Pinsto White ) fDk 6'A v Mnk to Greeq 3 Sok to 5' y Pink to Ground oto X 4'A v Orange to White >5o k ~
7Y 4 Oranze to Green A 5b ( 70 v Oranie to Grour.d .?o tC S4 9 White to Green )50 K % v Whi /FX 47 4 O oretet>to o<ee a Ground <o i< aa +
N m
-t ,
i i :-
t i ,
Data Pretest IRT: '// - /f- 01 A--
Technician: e# W B. SCHEME #:
ASSEMBLY #: 7 Date Post-Test IRT: 12. *>-41 M 78 d ' I Technician: "a #2.
~
ITEM:
CABLE FUNCTION: . CONTROL-CABLE TYPE: - W-048 c^BtE S1ZE: s,c #12 iwo O ,
t*T - t= t =ie= a i t c rest ENERGIZE TO: 1500 VDC 4 C - Il3 ') O AmiL~ W '
bl Due wft ; 93opa h %
t%LQ
S5 Report No.12340 94367,i December 28,1992 Texas Utilities Electric APPENDICES 1
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I, O Appendix F
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1 2000 i
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~~1750 -~~
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TC #15 TC #16 300 -
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TC #18' /'
3' 300 -
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Project No. 94367J TV Electric 1-1/2" Conduit Control Cable (5/C #12 W-048) 500 ControlCable Avg Control Cable Max 300 -
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400 -
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TC #33 ,'
300 - ,
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l' TU Electric
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Report No. 12340-9 2367j December 28,1992 Texas Utilities Electric APPENDICOs 1 O
l Appendix G TABULAR TEST DATA
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18.'
l Texas Utilities Electric Scheme #9 3 December 3,1992 i
Time E119 Std Furnace Avg Ckt Int #1 Ckt Int #2 Ckt Int #3 Ckt Int #4 (min) (*F) ('F) (volts) (volts) (volts) (volts) 0 68 65 2.933 4.175 5.927 4.689 1 254 120 2.934 4.175 5.927 4.690 2 440 371 2.934 4.175 5.927 4.690 3 627 800 2.934 4.176 5.927 4.690 4 813 948 2.933 4.176 5.927 4.689 3 1000 940 2,933 4.175 5.927 4.689 '
6 1060 904 2.933 4.175 5.927 4.689 7 1120 1056 2.933 4.176 5.927 4.689 8 1180 1349 ?.933 4.176 5.927 4.689 9 1240 1403 2.933 4.175 5.927 4.689 10 1300 1345 2.933 4.175 5.927 4.689 11 1327 1295 2.933 4.175 5.927 4.680 12 1346 1360 2.933 4.174 5.926 4.689 13 1364 1449 2.933 4.175 5.926 4.689 14 1380 1473 2.933 4.174 5.926 4.689 15 1395 1426 2.933 4.174 5.926 4.689 16 1410 1361 2.933 4.174 5.926 4.689 17 1423 1350 2.932 4.174 5.926 4.689 ,
18 1436 1398 2.932 4.174 S.926 4.688 19 1448 1477 2.931 4.173 5.925 4.688 20 1459 1536 2.930 4.172 5.925 4.687 21 1470 1551 2.931 4.173 5.925 4.687 22 1480 1556 2.930 4.172 5.925 4.687 23 1490 1518 2.930 4.172 5.925 4.687 24 1499 1463 2.929 4.172 5.925 4.687 25 1508 1415 2.929 4.172 5.924 4.687 26 1517 1370 2.929 4.172 5.924 4.686 27 1525 1338 2.932 4.173 5.926 4.688 28 1533 1371 2.932 4.174 5.926 4.688 29 1541 1523 2.934 4.174 5.926 4.688 30 1548 1648 2.934 4.176 5.928 4.691 31 1555 1613 2.934 4.176 5.928 4.691 32 1562 1555 2.935 4.176 5.928 4.691 33 1569 1537 2.935 4.176 5.928 4.691 34 1576 1563 2.935 4.17G 5.928 4.691 35 1582 1582 2.935 4.176 5.928 4.691 36 1588 1563 2.935 4.177 5.929 4.692 37 1594 1561 2.935 4.177 5.929 4.692 38 1600 1577 2.935 4.176 5.928 4.692 39 1606 1590 2.935 4.177 5.929 4.692 40 1612 1601 2.935 4.177 5.928 4.692 O
GA A sA 04ATO
4 Texas Utilities Electric Schema #9-3 December 3,1992 Time E119 Std Furnaca Avg Ckt Int #1 Ckt Int #2 Ckt Int #3 Ckt Int #4
, (min) (*F) ('F) (volts) (volts) (volts) (volts) 41 1617 1611 2.935 4.177 5.929 4.692 42 1622 1619 2.935 4.177 5.929 4.692 i
i 43 1627 1627 2.936 4.177 5.929 4.692 4 d. 1633 1634 2.936 4.177 5.929 4.692 45 1638 1637 2.936 4.177 5.929 4.692 46 1642 1637 2.936 4.177 5.929 4.692 47 1647 1640 2.936 4.177 5.929 4.692 48 1652 1642 2.936 4.177 5.929 4.692 49 1656 1646 2.936 4.177 5.929 4.692
~~50 1661 1651 2.935 4.177 5.929 4.692 51 1665 1657 2.936 4.177 5.929 4.692 ,~~
52 1669 1660 2.936 4.177 5.929 4.692 53 1674 1663 2.936 4.177 5.929 4.693 54 1678 1665 2.936 4.178 5.929 4.693 4
55 1682 1669 2.936 4.178 5.929 4.693 56 1686 1677 2.936 4.177 5.929 4.693
, 57 1690 168F 2.936 4.177 5.929 4.693
58 1693 1690 2.936 4.178 5.929 4.693 4 59 1697 1693 2.936 4.178 5.930 4.693 l 60 1701 1695 2.936 4.178 5.329 4 693 '
61 2.936 4.178 5.929 4,693 62 2.936 4.178 5.929 4.693 63 2.938 4.180 5.932 4.694 64 2.941 4.184 5.937 4.699 65 2.938 4.181 5.933 4.695 66 2.937 4.180 5.932 4.695 67 2.936 4.179 5.930 4.694
, 68 2.936 4.178 5.930 4.693 69 2.935 4.177 5.930 4.693
! 70 2.935 4.177 5.929 4.692 71 2.936 4.178 5.930 4.693 4
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Texas Uti!: ties F.lectric Schemo #9 3 December 3,1992 lb-3/4" Conduit 3/4" Conduit j Time Ckt Int #5 Ckt Int #6 Ckt Int #7 Instr. Cable Avg Instr. Cable Max (min) (volts) (volts) (volts) (*F) ('F) 0 2.929 4.579 4.169 65 66 1 2.930 4.579 4.170 65 66 2 2.930 4.580 1.170 65 66 3 2.930 4.580 4.170 65 66 4 2.929 4.580 4.170 65 66 5 2.929 4.579 4.170 65 66 6 2.929 4.579 4.170 66 67 7 2.930 4.580 4.170 66 67 8 2.930 4.580 4.170 67 69 9 2.929 4.580 4.170 68 72 10 2.929 4.579 4.170 70 76 11 2.929 4.580 4.170 73 81 12 2.929 4.579 4.170 76 86 13 2.929 4.579 4.170 79 93 14 2.929 4.579 4.169 84 100 15 2.929 4.579 4.170 89 107 16 2.928 4.579 4.169 94 114 17 2.928 4.579 4.169 100 122 18 2.928 4.579 4.169 106 129 19 2.927 4.577 4.167 113 140 20 2.926 4.577 4.167 120 151 21 2.926 4.577 4.167 127 160 22 2.926 4.577 4.167 136 168 23 2.926 4.577 4.167 144 180 24 2.928 4.577 4.167 152 194 25 2.925 4.577 4.167 161 201 26 2.925 4.576 4.166 168 204 27 2.927 4.578 4.168 175 206 28 2.928 4.579 4.169 29 2.927 4,579 4.169 30 2.930 4.580 4.171 31 2.930 4.580 4.171 207 227 32 2.931 4.581 4.172 213 236 33 2.930 4.580 4.172 222 309 34 2.930 4.581 4.172 236 380 35 2.931 4.581 4.172 239 416 36 2.931 4.581 4.173 243 422 37 2.931 4.581 4.173 239 371 38 2.931 4.582 4.173 244 395 39 2.931 4.581 4.173 240 400
-- 40 2.931 4.581 4.173 238 424 OA
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Texar Utilities Electric Schemo #9 3 December 3,1992 18 *.
3/4" Condult 3/4" Condult
( Time Ckt Int #5 Ckt Int #6 Ckt Int #7 Instr. Cable Avg instr. Cable Max (min) (volts) (volts) (volts) (*F) ('F) 41 2.931 4.581 4.173 243 459 42 2.931 4.581 4.173 244 451 43 2.931 4.581 4.173 249 522 44 2.9' . 4.582 4.173 249 514 45 2.931 4.582 4.173 250 516 46 2.931 4.582 4.173 251 520 47 2.932 4.582 4.173 251 499 48 2.931 4.582 4.173 252 497 49 2.931 4.583 4.173 253 486 50 2.931 4.582 4.173 254 479 51 2.931 4.582 4.173 255 477 52 2.931 4.582 4.174 258 475 53 2.931 4.583 4.174 260 475 54 2.931 4.582 4.173 262 482 55 2.932 4.583 4.174 265 476 56 2.931 4.583 4.173 267 467 57 2.931 4.583 4.174 270 467 58 2.932 4.583 4.174 273 463 59 2.932 4.583 4.175 276 452 60 2.932 4.583 4.174 279 455 61 2.932 4.583 4.174 62 2.932 4.583 4.174 63 2.933 4.583 4.175 64 2.936 4.587 4.179 65 2.933 4.584 4.176 66 2.933 4.584 4.175 67 2.932 4.584 4.174 68 2.932 4.583 4.173 69 2.932 4.583 4.173 70 2.931 4.583 4.172 71 2.932 4.583 4.173 MAX 279 522
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Tcxas Utilities Electric Scheme #9 3 December 3,1992 3/4 " Conduit 3/4" Conduit 1-1/2" Conduit 1 1/2" Condult 0 (Time min)
Steel Avg
(*F)
Steel Max Power Cable Avg Power Cabic Max
(*F) (*F) (*F) 0 65 66 65 66 1 65 66 65 66 2 65 66 65 66 3 65 66 65 66 4 65 66 65 69 5 66 67 66 74 6 68 70 66 80 7 71 74 67 86 8 76 81 68 94 9 83 90 69 101 10 90 99 70 110 11 98 108 72 118 12 108 123 74 127 13 118 144 76 136 14 132 188 78 146 15 145 217 81 156 16 159 227 84 164 17 177 251 87 173 18 210 376 90 180 19 246 451 94 186 20 283 546 38 191 21 338 753 101 195 22 398 824 105 197 23 436 872 109 199 24 460 896 113 202 25 485 854 117 206 26 497 838 121 210 27 498 851 126 216 28 500 853 29 491 846 30 480 807 31 441 753 144 246 32 421 673 148 255 33 403 615 153 264 34 389 577 157 273 35 378 565 162 281 36 368 556 167 290 37 359 543 172 298 38 351 527 177 306 39 345 508 181 314 40 341 494 186 321
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i Texas ' Utilities Electric Scheme #9 3' December 3,1992 '
3/4" Condult 3/4" Conduit 1 1/2" Condult 1 1/2" Condult Time Steel Avg Steel Max Power Cable Avg Power Cable Max (min) ('F) ('F) ("F) (* F) 4 1 41 337 484 191 329 j 42 335 477 196 336 i 43 333 474 201 343
! 44 332 470 206 300 45 331 464 212 357
! 46 329 459 217 364
! 47 327 451 222 371 1 48 323 448 227 378 49 319 449 233 386 50 319 447 238 393 51 320 444 244 401 52 320 443. 249 409 53 321 440 255 417
, 54 323 440 260 425 55 325 439 266 434 56 326 436 272 442 57 327 437 278 451 58 330 436 284 459 59 333 438 290 469 60 337 438 296 478 61 ,
62 -
63 64 65 66 67 68 69 70 71 MAX 500 '896- 296 478 O y~ ,
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Tcyss Utilities Electric - Scheme #9 3 December 3,1992 1 b 'e 1 1/2" Conduit 1 -1/2 " Condult 11/2" Conduit 1 1/2" Conduit Time Control Cvble Avg Control Cablo Max instr Cable Avg Instr. Cable Max (min) (* F) ('F) ('F) (*F) 0 65 66 65 66 1 65 66 65 66 2 65 66 65 66 3 65 66 66 66 4 66 66 65 66 5 66 68 65 67 6 67 70 66 67 7 67 73 66 68 8 69 76 67 69 9 70 80 68 71 10 72 84 69 74 11 74 89 71 77 12 77 95 73 81 13 80 100 75 86 14 83 106 77 91 15 86 112 80 96 16 90 119 84 102 17 94 126 87 108 18 98 134 91 114
() 19 20 103 107 141 148 95 99 120 126 21 112 156 104 132 22 117 162 108 137 23 122 166 113 142 24 126 169 118 147 25 130 173 122 152 26 134 177 127 156 27 138 180 131 160 28 29 30 31 156 199 148 179 32 160 205 153 184 33 165 211 157 190 34 170 218 162 196 35 175 224 166 201 36 179 231 171 207 37 184 238 175 214 38 189 245 180 220 39 194 252 185 226 40 200 259 189 232 i
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Texas Utilities Electric Scheme #9 3 Decemb2r 3,1992 l 18@
1 1/2" Conduit 1-1/2" Conduit 1 1/2" Conduit 1 1/2" Conduit Time Control Cable Avg Control Cable Max Instr. Cable Avg Instr. Cable Max (min) ('F) (*F) (* F) ('F) 41 205 266 194 238 42 210 273 199 245 43 215 280 204 253 44 220 288 209 260 45 225 295 214 268 46 231 302 220 275 47 236 310 225 282 48 241 317 230 289 49 247 325 235 297 50 252 333 241 304 51 258 341 247 311 52 264 349 252 319 53 269 357 258 326 54 275 364 264 334 55 281 372 270 341 56 287 380 276 349 '
57 294 389 282 358 58 300 398 288 366 59 306 408 295 375 60 313 419 301 383 61 62 63 64 65 66 8 67 68 69 70 71 MAX 313 419 301 383 s
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. Texas Utuitiss Elsctric Schsmo '#9 3 Dscembsr 3,1992 1nr UC 4
1 1/2" Conduit - 1 1/2" Cor.dult 2" Conduit . 2" Conduit Time Steel - Avg Steel Max Fower Cable Avg Power Cable Max ,
(min) ('F) (* F) (*F) ('F)
O 65 66 65 66 1 65-- 66 65 66-2 65 66 65 66 3 66 -70 65 66-4 69 80 65 67 6 74 91 66 69 6 79 99 67 72 7 86' 113 68 77=
8 98 136 69 82 9 114 183 70- -
87- l l
10 140 231 72 93 298 -74 100 I 11 174 12 217 367 77 106 l 13 261 '439 79- 113 14 307 544 82- 120 15 359 681 85 126 16 396 -747- 88- 133-17 439- 822 92- ' 14 0 --
18 477 880~ 95 147 19 487 867 99 156-20 499 885 102 161 21 503 946 -106 164 22 504 1043 110'- 168 23 ~490' 1065 113. 172 '
24 467 1058 117 177' 25 443 957 121 183 26 417 850 125 189 27 384 761
129 -196 28 363 700 29 348 644 30 338 595 31 337 565 148 223 32 332- 547 ~.153 230 33 324- 525 157' 237 34 312 498- 162 24?
~~36. :303 480 16 7_._ 249-~~
-36 298 464 172L 256 37 296 451: L177 262 38 293 445 182: 267 L
39 291 443 187. 273:
40- 291 443- 192 279
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s 1 1/2" Condult 1 1/2" Conduit 2" Conduit 2" Conduit Time Steel Avg Steel Max Power Cable Avg Power Cable Max (min) ('F) ('F) ('F) ('F) 41 294 444 198 285 42 298 445 202 291 43 303 445 208 296 44 306 441 213 302 45 312 449 218 308 46 319 461 223 315 47 324 469 228 321 48 329 466 233 327 49 334 465 239 334 50 341 467 244 341 51 349 468 249 348 51 357 467 255 355 53 366 467 260 363 54 375 468 266 371 55 385 468 272 379 56 395 474 278 387 57 406 480 284 396 58 418 492 290 405 59 429 509 297 414
( 60 440 528 304 423 62 63 64 65 66 67 68 69 70 71 MAX 504 1065 304 423 OP, o
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Toxes Utilitlos Electric Schomo #9 3 Doe:mb:r 3,1992 1O 2" Condult 2" Condult 2" Condult 2" Condult 1
O Time Control Cable Avg (min) ('F)
Contros Cablo Max
('F) instr Cablo Avg
('F)
Instr. Cablo Max
(*F) 00 0 05 00 05 1 65 00 05 00 2 05 00 05 00
} 3 05 00 05 00 i 4 05 00 05 00 5 65 00 00 07 0 00 07 60 69
7 00 09 07 71 8 07 72 09 73 l 07 75 70 70
. 9 10 09 78 72 80 1 11 70 82 75 83
12 71 80 77 87 13 73 90 80 92 i l
~~14 75 95 83 97 !~~
15 78 99 80 102 j 10 80 104 90 107 17 83 109 94 112 18 85 113 97 118
() 19 20 88 92 118 123 101 100 123 129 21 95 127 110 135 22 98 131 114 140 t
23 102 135 118 145
, 24 105 139 122 149 25 109 144 120 153 20 112 148 131 158 27 110 153 135 103 i 28 29 30 i 31 132 174 155 180 32 130 180 100 192 33 141 180 105 198 34 145 191 170 204
, 35 150 197 175 211 36 154 203 180 217 37 159 209 185 223 38 103 215 100 229 39 108 220 194 230 40 173 220 199 242 3
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Texas Utilitlos Eloctric Schomo #9 3 Doccmber 3,1992 10 2" Condult 2" Condult 2" Conduit 2" Conduit 0 Time Control Cablo Avg Control Cablo Max instr. Cablo Avg Instr. Cablo Max (min) ('F) (*F) ('F) (*F) 41 177 232 204 248 42 182 237 209 255 43 187 243 214 201 44 191 248 219 207 46 190 254 224 273 46 201 260 228 279 47 205 2G5 233 285 48 210 271 238 291 49 215 277 243 298 50 219 283 248 305 51 224 290 253 311 52 229 296 259 318 53 234 303 264 325 54 239 310 270 332 55 245 318 270 339 56 250 326 282 347 57 250 334 288 354 58 262 342 295 362 59 268 351 302 371 60 274 360 309 381 61 62 63 64 65 66 67 68 69 70 71 MAX 274 360 309 381
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Texas Utilities Electric Schsme #9 3 Dacombar 3,1992 2" Conduit 2" Condult Time Steel Avg Steel Max TC #1 TC #2 TC #3 TC #4 TC #5 TC # 7 TC # 8 (min) ('F) ('F) (* F) ('F) ('F) ('F) (*F) ('F) (* F) 6 0 05 60 65 05 65 05 65 05 05-1 65 07 05 OS 65 65 05 65 05 2 00 70 05 05 65 05 05 65 05 3 07 74 05 65 65 65 05 65 05-4 71 81 65 05 OS OS 05 OS 05 6 70 90 05 65 OS 65 06 05 60 i 6 83 100 05 OS 05 OS 60 05 07 f 7 92 110 05 OS 05 60 07 00 08 8 105 153 05 00 05 67 09 67 70 9 122 181 00 00 00 08 70 68 73 j 10 142 219 07 07 07 09 72 09 75 i 11 101 261 07 68 08 71 75 71 78
, 12 188 150 09 69 09 73 78 73 81 j 13 209 438 70 71 70 75 81 75 84 14 233 538 72 73 72 78 84 78- 88 15 204 009- 74 75 -74 81 88 81 92 16 309 801 76 78 77 -85 92 85 90 17 292 801 79 81 79 89 97 89 100 18 254 559 82 84 83 93 102 03 105 19 273 001 85 88 80 97 107 97 109 20 280 025 89- 92 90 102 112 102 114 21 283 001 92 90 94 107 118 107 119 22 295 550 90 101 98 112 123 111 123 23 313 541 100 108 102- 116 127 115 127 24 332 551 105 114 107 121 131 120 131 25 337 502- 109 119 112 126 130 124 134 26 343 580 114 124 117 131 140 128 138 27 347 503 119- 129 121 135 145 132 142 28- 352 571-29 359 587 30 374 612 31 387 607 138 147 140 154 164 150 159 32 307- 590 142 151 145 158 169 154 164 33 387 575- 147 155 149 163 174 159 169 34 377 559 152 158 153 168 180 164 175 35 375 547 .156 -102 158 173 185 169 180' 36 374 530 161 165 162 178 191 174 186 37 372 522 106- 109 166 184 197 180 192 38 - 369 513 171 173 171 189 203 185 198 39- 360 499 176 176 175 195 210 191 204 4 0 .- 364 493 181 180 180 200 210 197- 211 lO f~.,.,
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Texas Utilities Eloctric Schomo #9 3 Doe:mber 3,1992 19 7- 2" Conduit 2" Conduit b Timo Steel Avg Steel Max TC #1 TC #2 TC #3 TC #4 TC #5 TC # 7 TC # 8 (min) (*F) ('F) (*F) (*F) (*F) ('F) (*F) ('F) ('F) 41 369 483 180 184 185 206 222 203 217 42 367 478 191 189 189 212 229 209 223 43 368 475 196 193 194 218 236 215 229 44 309 475 201 107 199 224 242 221 236 45 371 478 206 202 204 231 249 228 242 46 373 484 212 207 209 237 256 234 248 47 375 489 217 212 215 243 263 240 254 48 378 497 223 217 220 250 270 247 201 49 381 508 228 222 225 256 277 253 267 50 386 516 234 227 231 263 284 259 273 51 390 521 239 233 230 269 291 260 279 52 393 529 244 238 242 276 298 272 285 53 399 537 250 244 247 283 300 279 292 54 406 543 256 250 253 290 313 286 298 55 416 551 262 255 259 297 320 292 304 56 424 562 209 261 265 303 327 299 311 57 433 573 275 267 271 310 335 306 318 58 442 590 282 273 278 317 342 313 324 g 59 447 609 288 279 284 324 350 321 331 is ) 60 402 622 295 286 290 331 358 328 338 v
62 63 64 65 66 67 68 69 70 71 MAX 462 861 295 286 290 331 358 132 338 l
./
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i Texas Utilitiss Electric Schomo #9 3 December 3,1992 lb Time TC # 9 TC # 10 TC # 11 TC # 12 TC # 13 TC # 14 TC # 15 TC # 10 (min) ('F) ('F) ('F) ('F) ('F) ('F) ('F) (*F)
O G5 05 05 05 65 65 05 05 1 65 05 OS 65 05 00 05 65 2 05 05 65 05 05 00 05 OS 3 05 65 65 05 05 60 05 05 4 05 65 65 65 00 69 05 05 5 65 65 65 05 67 74 05 05 l
j 0 05 05 65 05 70 80 05 05 1 7 60 05 65 00 73 80 00 05 8 07 05 65 67 77 94 60 00 9 08 05 65 08 83 101 07 60 10 09 05 00 09 88 110 08 07 11 70 05 00 71 94 118 09 09 12 72 05 07 72 101 127 71 70 !
13 74 60 07 75 108 130 72 72 i 14 70 00 08 77 115 140 75 74 15 79 07 00 80 122 150 77 77 16 82 00 71 83 129 104 80 80 17 85 68 72 87 130 173 83 83 18 88 09 74 90 143 180 87 80 19 92 71 70 94 150 180 90 90 20 90 72 78 98 150 191 94 93 21 101 74 81 103 103 195 98 97 22 100 70 83 107 108 197 102 102 23 112 78 80 112 172 199 107 100 24 117 80 90 117 175 202 111 110 25 121 83 93 122 178 200 110 115 26 120 87 97 128 182 210 120 119 27 130 90 102 133 180 210 125 124 28 29 30 31 145 108 121 153 200 240 144 143 32 148 113 120 157 211 255- 149 148 33 152 117 131 101 217 204 154 153 34 155 122 135 105 223 273 159 158 35 159 120 139 109 229 281 104 104 30 102 131 143 172 235 290 109 109 37 100 130 147 170 242 298 175 175 38 170 140 151 179 248 300 180 180 39 174 144 154 182 254 314 180 180 40 179 148 157 180 261 321 192 192
& *0s
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Tcxes Utilities Electric Schemo #9 3 Decemb:r 3,1992 lb
[> ' me TC # 9 TC # 10 TC # 11 TC # 12 TC # 13 TC # 14 TC # 15 TC # 16 04 n! "F) (*F) (*F) (*F) (*F) ('F) (*F) (*F) 41 ' 'S 152 161 189 267 329 197 198 2 .d6 155 164 193 274 336 203 203 4e 192 159 167 197 280 343 209 210 44 197 162 170 201 286 350 215 216 45 201 165 173 205 293 357 221 222 4A 206 168 176 209 299 364 227 228
211 171 179 214 305 371 233 235 215 174 182 218 311 378 239 241 4, 220 177 185 222 317 386 245 247 50 225 180 189 226 323 393 252 253 51 229 183 192 231 330 401 258 260 52 234 186 195 235 336 409 265 267 53 239 189 198 239 342 417 272 274 54 244 192 201 243 349 425 278 281 55 249 195 205 247 356 434 285 288 56 254 199 208 252 363 442 292 295 57 259 203 211 256 370 451 299 301 58 264 206 215 260 378 459 306 308 59 269 210 218 265 385 469 313 315 3
y ,/ 60 274 213 222 269 393 478 320 322 61 62 63 64 65 66 67 68 60 70 71 MAX 274 213 222 269 393 478 320 322
^h (V g" *ogA O
~~D O4ATO~~
Texas Utilitios Electric Scheme #94 Dscomb:r 3,1992 198 Time TC # 17 TC # 18 TC # 19 TC # 20 TC # 21 TC # 22 TC # 23 TC # 24 (min) ('F) (* F) ('F) (* F) ('F) ('F) (* F) (*F) i 0 65 65 65 65 65 65 65 65 1 65 65 65 65 65 65 65 65 2 65 65 65 65 65 65 65 65 q~
3 65 65 65 65 65 65 65 65 4 65 65 65 65 65 65 65 65 6 65 65 65 65 65 65 65 65 l
6 05 65 66 65 65 65 65 65 7 66 65 66 65 65 65 65 65 8 66 66 67 65 65 65 65 66 9 67 66 68 66 65 65 66 66 10 68 67 70 67 65 65 66 67 l 11 69 68 71 67 65 65 67 68 l 12 71 70 73 69 65 66 68 69 J 13 72 72 75 70 66 66 69 71 j 14 75 74 78 71 66 67 72 71
. 15 77 76 81 73 67 67 72 75 16 80 79 84 75 68 68 74 77 17 83 82 87 77 69 69 77 80 18 86 86 91 80 70 71 79 83 19 90 89 94 83 71 72 82 86 20 93 93 98 85 72 74 85 90 21 97 97 102 88 74 76 90 94 22 101 101 10G 91 76 78 95 98 23 106 105 111 95 78 81 99 102 24 110 110 115 98 80 84 104 107 25 114 114 119 102 83 87 109 111 26 119 119 123 105 86 91 113 115
, 27 123 123 128 109 89 95 118 119 28 1 29 30 31 143 142 144 123 104 113 134 136 32 148 146 148 127 108 117 138 140 33 153 151 152 131 112 121 142 144 34 158 156 157 135 117 125 146 149 35 163 160 161 139 121 129 149 153
, 36 168 165 166 143 125 133 153 158 37 174 170 170- 148 130 137 157 162 38 179 175 175 152 134 141 161 167 39 185 180 180 157 138 144 165 172 g 40 191 186 185 161 142 148 169 177 O ""# 4
' % ,o /
Texas Utilities Electric Schomo #9 3 Dscomb:r 3,1992
, Time TC # 17 TC # 18 TC # 19 TC # 20 TC # 21 TC # 22 TC # 23 TC # 24 (min) ('F) ('F) ('F) ('F) (*F) ('F) ('F) ('F) 41 197 191 191 166 146 151 173 182 42 203 197 196 171 149 154 177 187 43 209 203 202 170 153 157 181 192 44 215 208 200 180 156 161 185 197 45 221 214 214 185 160 104 100 203 46 228 221 220 190 163 167 194 208 47 234 227 226 195 166 170 198 213 48 240 233 232 200 170 174 203 219 49 247 239 238 205 173 177 207 224 50 254 246 244 210 177 180 212 229 51 260 252 251 215 180 184 210 235 52 267 259 257 221 184 187 221 240 53 274 260 264 226 187 191 225 246 54 281 272 271 231 191 194 230 252 55 288 279 277 237 195 198 234 257 56 295 286 284 242 200 201 239 263 57 303 293 291 247 204 205 244 270 58 310 300 298 253 207 209 248 276 59 317 307 305 258 211 213 253 283 60 324 313 312 264 213 217 258 289 61 62 63 64 65 66 67 68 69 70 71 MAX 324 313 312 264 213 217 258 289 O ,
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!.' O I Texas Utilitiss El ctric Schemo #9 3 Decembsr 3,1992 Time TC # 25 TC#20 TC # 27 TC # 28 TC # 29 TC # 30 TC # 31 TC # 32 (min) ('F) ('F) ('F) (*F) ('F) ('F) (*F) ('F) 0 05 60 66 G5 G5 GS 65 65 1 65 00 00 G5 G5 G5 65 65 2 65 66 60 65 GS G5 G5 65 3 65 60 00 65 65 65 66 65 4 65 60 66 65 65 65 60 65 5 65 06 60 66 65 G6 G8 OG 6 65 00 66 66 65 66 70 G7 7 06 66 06 08 60 67 73 08 8 66 66 66 69 67 60 76 70 9 67 G7 60 71 08 70 80 72 10 67 G7 67 74 89 72 84 75 11 68 08 67 77 70 75 89 78 12 70 69 68 80 72 77 95 82 13 72 71 69 83 74 80 100 86 14 74 72 70 87 77 84 100 91 15 76 74 72 91 80 87 112 96 16 79 77 73 90 83 92 119 101 17 82 80 75 101 86 96 126 107
<m 18 80 83 77 100 90 101 133 112 19 90 86 79 111 95 106 140 118 20 94 90 81 117 99 111 148 125 21 98 94 84 123 105 117 156 131 22 102 97 87 128 111 123 162 136 23 106 101 89 134 119 128 100 141 24 110 105 92 139 127 132 169 140 25 114 108 95 144 133 136 173 150 26 118 112 98 148 138 140 177 154 27 122 115 101 152 142 144 180 158 28 29 30 31 139 129 112 169 157 101 199 170 32 143 133 115 174 160 165 204 181 33 147 137 117 179 163 169 210 186 34 152 141 120 184 167 174 216 192 35 157 145 123 189 170 178 223 198 36 161 149 125 194 173 183 229 203 37 166 153 128 200 176 188 236 209 38 172 158 131 205 180 193 243 216 39 177 162 134 211 184 199 250 222 40 182 167 137- 217 188 204 257 228 O o 5.0 " So ,
A 04ATO
201 Texas Utilitics Electric Schomo #9 3 Decemb:r 3,1992 Time TC # 25 TC # 26 TC # 27 TC # 28 TC # 29 TC # 30 TC # 31 TC # 32 (min) ('F) (*F) (*F) (*F) (*F) (*F) ('F) (*F) 41 187 171 141 222 192 209 264 234 42 193 176 144 228 190 215 271 241 43 198 181 147 233 200 220 278 247 44 204 180 150 239 205 226 284 254 45 209 190 154 245 209 231 291 261 46 215 195 157 250 214 236 299 267 47 221 200 160 256 219 242 306 274 48 227 205 164 262 224 248 313 280 49 233 210 168 267 229 254 320 288 50 239 216 171 273 234 259 327 295 51 245 221 175 279 240 205 334 303 52 251 220 178 285 246 271 341 311 53 257 231 182 291 251 276 348 319 54 263 230 186 298 257 282 355 326 55 270 242 190 305 262 289 361 334 56 277 247 193 312 268 296 368 342 57 284 253 198 319 274 302 3?6 349 58 291 259 202 326 281 309 382 357 59 299 265 206 333 288 316 390 365
() 60 306 271 211 340 295 323 398 373 62 63 64 65 66 67 68 69 70 71 MAX 306 271 211 340 295 323 398 373 g,OA# 0f 04g70 ,
y g-.+ - --.-,y--. -
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i 20 Texas Utilitios Elsetric Schamo #9 3 Decembcr 3,1992 Time TC # 33 TC # 34 TC # 35 TC # 36 TC # 37 TC # 38 TC # 39 TC # 40 (min) ('F) (*F) ('F) (*F) (*F) ('F) ('F) (* F) 0 65 65 65 65 65 65 65 65 1 65 65 65 65 65 65 65 65 2 65 65 65 65 65 65 65 65 3 65 65 65 65 65 65 65 65 l 4 66 65 65 65 65 65 65 65 ,
5 67 65 66 65 65 65 65 66 6 69 66 67 66 65 65 65 66 '
1 7 72 67 69 66 65 65 66 67 8 75 69 71 67 65 65 66 68 9 79 71 74 67 65 65 67 70 10 84 73 78 69 66 66 68. 72 h 11 89 76 81 70 66 66 70 74 12- 94 80 86 72 67 66 -72 77 13 100 84 90 74 67 67 74 80 14 106 89 95 76 68 67 76 84 15 112 94 100 78 69 68 78 88 16 119 99 105 81 70 69 81 92 17 126 105 110 85 72 71 85 96 18 134 110 116 88 74 72 88 101 19 141 116 122 92 76 74 92 106 20 148 122 127 96 78 76 96 111 21 155 129 133 101 80 78 100 116 22 160 134 138 107 83 80 105 121 23 164 139 143 112 86 83 110' 126 24 143 146 90 86 115 168 116 -131 25 171 147 150 120 95 89 120 135 26 175 151 154 124 101 93 125 140 27 179 155 157 128 106 97 131 145 28 29 30 31 199 171 174 143 129 115 150 163 32 205 175 179 -146 -135 120 155 168.
33 211: 180 184 150 .140 124 159 173 34 218 185 189 153 146 129 163 178 35 224 190 194 157 150- 133 166 183 36 -231- 196 200 161 154 137 170 188 37 238 '201 206- 165 158 141 :173 193 38 245 207 -212 169 161 145 176 198
39 252 213 218 173 164 149 180__ 203 40 259 219 224 177 167'- -152 183 209 O t~%
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Texas Utilities Electric Schomo #9 3 Decembcr 3,1992 4-I
\
Time TC # 33 TC # 34 TC # 35 TC # 36 TC # 37 TC # 38 TC # 39 TC # 40 (min) ('F) (*F) (*F) (*F) ('F) (*F) ('F) ('F) 41 266 225 230 181 170 156 186 214 42 273 231 236 185 172 159 190 219
43 280 237 243 190 174 162 193 225 44 288 244 249 194 177 165 197 230 45 295 250 255 198 179 163 201 236 46 302 257 261 202 181 172 204 242
47 310 263 268 207 184 175 208 247 48 317 269 274 211 186 178 212 252 49 325 275 280 215 189 181 216 158 50 333 282 286 219 191 184 220 264 51 341 289 293 224 194 187 224 271
! 52 349 296 300 228 196 190 228 277 1
53 357 303 307 233 199 193 232 284 i 54 364 310 314 238 202 196 236 290 55 372 317 321 242 205 199 240 297 56 380 324 328 247 208 202 244 304 57 389 331 335 252 211 205 248 310 58 398 338 342 256 214 208 252 317 59 408 346 349 261 217 212 256 323 i
60 419 353 356 266 220 215 260 330 3
61
, 62 63
~~64 65 66~~
, 67 68 69 70 71 MAX 419 353 356 266 220 215 260 330
. 0m po ,, o
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Texas Utilities Electric Schomo #9 3 Dscombu 3,1992 Time TC # 41 TC # 42 TC # 43 TC # 44 TC # 45 TC # 46 TC # 47 .; # 48 (min) (*F) ('F) ('F) (*F) ('F) (*F) ('F) (*F) 0 66 65 66 65 65 65 65 65 1 66 66 66 GS G5 65 G5 65 2 66 65 66 65 65 65 G5 65 3 60 66 GG GG 05 66 65 65 4 66 66 66 66 GG GG 65 65 5 67 G7 66 GG 66 66 65 65 6 68 68 67 07 66 67 6G G5 7 69 69 68 68 07 68 66 65 8 70 71 70 09 08 09 GG 65 9 73 74 72 71 69 70 67 66 10 75 77 74 73 71 71 68 GG 11 78 80 77 76 74 73 69 66 12 82 84 80 78 70 75 71 67 13 86 88 84 82 79 78 73 67 14 90 92 88 85 82 80 75 G8 15 95 97 92 09 86 83 77 69 16 100 102 96 93 90 87 79 70 17 105 107 101 97 94 90 82 72 18 111 112 106 101 98 94 85 73 19 116 117 111 106 103 97 88 75 20 122 123 116 111 107 101 92 77 21 128 129 121 116 112 105 95 80 22 133 135 127 121 117 110 99 82 23 138 141 132 126 120 114 102 85 24 142 146 137 131 128 118 106 89 25 147 150 141 135 133 122 110 92 26 151 155 146 140 137 126 114 96 27 156 159 150 145 141 130 117 100 28 29 30 31 176 178 169 164 158 146 132 120 32 182 183 174 169 163 150 136 125 33 188 189 180 174 167 154 140 129 34 194 195 185 180 172 159 145 134 25 200 201 191 185 177 103 119 138 36 206 206 197 191 182 168 154 142 37 212 213 203 197 187 173 158 145 38 218 219 209 203 193 178 163 149 39 225 225 215 210 198 184 167 152 g 40 231 231 221 216 204 189 172 155 V / ^ %,
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Texas Utilitics Electric Schemo #9 3 December 3,1992 Timo TC # 41 TC # 42 TC # 43 TC # 44 TC # 45 TC # 40 TC # 47 TC # 48 j (mir.) ('F) ('F) ('F) (*F) ('F) (*F) ('F) (*F) 41 238 237 228 222 210 195 177 158 42 244 243 234 228 215 201 181 102
~~43 251 249 240 234 221 207 186 165~~
44 258 255 240 241 227 213 191 168 45 204 202 253 247 233 218 196 171 46 271 208 259 254 240 224 201 174 47 278 274 265 260 240 231 205 177 48 285 280 271 267 252 237 210 180 49 293 286 277 273 258 243 215 184 50 301 293 284 279 264 250 220 187 51 309 300 231 286 270 256 225 190 52 317 307 299 293 277 262 230 194 l
53 325 314 300 301 284 268 235 197 54 333 321 313 309 291 275 241 201 55 341 328 320 316 299 283 245 204 56 349 335 328 324 306 290 250 208 57 357 342 335 332 313 298 256 212 58 360 350 342 340 320 305 261 216 59 375 357 349 347 327 313 268 220 60 385 304 350 355 334 321 274 224 61 62 63 64 65 66 67 68 69 70 71 MAX 385 364 356 355 334 321 274 224 4"#4 0
%/
_ _ _ _ - ._ . - - - -_- _ - _ _ . - _ _~ ____ _ .. . .-_-_ - --
'0 Texas Utilillos Electric Schomo #9 3 December 3,1992 Time TC # 49 TC # 50 TC # 51 TC # 52 TC # 53 TC # 54 TC # 55 TC # 56 l
, (min) (*F) ('F) ('F) ('F) ('F) ('F) (*F) ('F) t 0 05 05 00 00 00 00 65 05 1 05 05 00 00 00 00 05 05 j 2 05 65 60 00 00 00 00 05 3 65 05 00 00 00 00 66 60 4 05 05 00 00 00 00 00 00 5 65 05 06 60 00 00 06 00 6 05 60 07 07 60 67 00 00 7 05 GG 08 08 07 67 60 00 8 60 00 70 09 08 08 07 60 0 00 00 72 71 09 09 68 07 10 00 07 74 73 70 70 09 08 l 11 00 68 77 70 72 71 70 69 12 60 08 80 79 74 73 72 71 13 07 70 84 83 70 75 74 72 14 08 71 88 87 79 77 77 74
15 68 73 92 91 82 80 80 77 16 70 75 97 90 80 82 83 79 71 77 102 101 90 85 80 83 18 72 80 107 100 94 89 90 80 I
is 74 83 113 112 99 92 94 90 20 70 80 119 117 103 95 98 94 21 78 90 125 122 108 09 103 98 I 22 81 95 130 120 112 103 108 103 23 84 100 134 130 110 100 113 109 24 87 105 138 134 120 110 118 110 25 91 110 142 138 124 112 123 122 26 95 114 140 142 127 115 127 128 27 99 119 150 140 131 118 132 133 28 29 30 31 118 135 107 104 140 12P 150 150 l 32 122 139 171 -109 150 131 155 154 33 126 143 170 174 154 133 100 158 34 130 147 181 179 158 130 104 102 35 134 150 186 184 102 139 109 105 36 138 154 191 190 107 142 174 109 37 141 158 196 195 171 145 179 172 38 145 161 201 201 170 148 184 170 39 148 105 207 206 181 151 189 180 40 151 109 212 212 186 154 194 184
%)
i
20 Texas Utilitlos Electric Schomo #9 3 Decembsr 3,1992 Time TC #49 TC # 50 TC # 51 TC # 52 TC # 53 TC # 54 TC # 55 TC # 50 (min) ('F) (*F) (*F) (*F) ('F) (*F) ('F) ('F) 41 155 173 218 218 191 158 199 188 42 158 177 223 224 195 101 204 192 43 161 181 229 229 200 105 209 196 44 164 185 234 235 205 169 215 200 45 168 189 240 242 210 172 220 205 46 171 193 240 248 215 170 220 209 47 174 197 252 254 221 180 231 214 48 177 201 257 201 220 183 230 218 49 181 205 263 207 232 187 241 223 50 184 210 268 273 237 191 247 229 51 187 214 274 280 243 194 253 235 52 191 218 280 287 248 198 259 240 53 194 223 286 294 253 202 205 245 54 198 227 293 302 259 200 272 250 55 201 232 299 310 265 210 279 255 56 205 230 300 317 372 214 285 201 57 208 240 313 325 279 218 292 268 58 212 245 319 332 286 222 299 275 59 210 250 320 340 292 226 306 282 60 220 255 333 348 299 231 313 289 61 62 63 64 65 66 67 68 !
69 70 71 MAX 220 255 333 348 299 231 313 289
0
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Texas Utilitios Eloctric Schomo #9 3 Docombar 3,1992 Time TC # 57 TC # 50 TC # 59 TC # 00 TC # 61 TC # 02 TC # 03 TC # 04 (min) ('F) (*F) (*F) (*F) (*F) ('F) (*F) (*F) 0 05 05 00 00 05 05 65 OS 1 00 00 60 06 05 65 05 65 2 05 00 00 00 05 05 05 05 3 00 00 00 00 05 65 05 OS 4 60 00 60 GS G5 05 05 OS 5 00 00 00 00 05 05 05 65 0 00 00 00 00 05 65 05 65 7 67 07 00 00 05 00 05 65 8 07 08 07 07 00 00 30 65 9 09 09 67 07 07 08 07 05 10 70 70 08 08 09 09 08 65 11 72 72 70 70 71 71 70 00 12 74 74 72 72 73 73 72 00 13 70 77 74 74 70 70 74 07 14 79 80 70 77 79 70 70 07 15 83 84 79 80 83 82 79 68 16 80 88 83 84 88 80 82 70 17 90 92 80 88 92 90 80 71 18 95 90 91 92 97 95 90 73 19 99 101 95 97 102 99 94 75 20 104 100 99 101 108 104 09 77 21 109 112 104 107 113 109 104 79 22 115 117 109 112 119 114 109 82 23 121 122 114 117 125 119 115 85 24 126 127 119 122 130 124 120 89 25 131 132 124 127 135 129 125 94 26 136 130 128 132 139 133 130 99 27 140 140 133 130 144 137 134 105
, 28 29 30 31 150 157 150 154 100 154 150 196 32 160 101 155 158 104 158 153 131 33 104 166 159 103 109 102 157 130 34 109 171 104 168 173 107 160 140 35 173 176 109 173 178 171 104 145 36 177 181 174 178 183 176 108 149 37 182 186 179 183 188 181 171 153 38 186 191 104 188 194 180 175 150 39 191 197 190 194 199 192 179 160 40 190 203 195 199 205 197 184 163 p o^ *o, O A 04g30
i Texas Utdities Electric Schemo #9 3 Decemb:r 3,1992 E i. j i
i Time TC#57 TC # 58 TC # 59 TC # 60 TC # 61 TC # G2 TC # 63 TC # 64 j
(min) ('F) (*F) ('F) (*F) (*F) ('F) ('F) (*F) 41 201 209 201 205 211 203 188 166 42 206 214 206 211 217 208 192 169
~~43 211 220 212 217 223 214 197 172 44 210 226 218 223 230 221 201 174 1~~
)
45 222 232 224 230 230 226 200 177 j 46 227 238 231 230 241 232 210 179 47 232 245 237 242 248 237 215 182 48 238 251 243 248 255 244 220 185 49 243 257 248 254 202 250 225 187 I
50 249 262 255 262 209 257 229 190 51 254 208 202 270 276 204 234 193 1 52 259 275 270 278 283 271 239 195
) 53 265 283 278 285 290 277 244 198 54 270 290 286 293 297 284 249 202 55 277 298 294 301 304 291 255 205 56 283 305 302 309 312 298 260 208 57 290 313 319 317 319 304 266 210 58 297 320 310 325 320 311 271 212 59 304 327 326 333 333 318 277 215 60 311 335 333 341 341 325 282 218 61 62 63 64 65 06 67 l
68 69 70 ,
4 71 MAX 311 335 333 341 341 32F 282 218 i
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210 Texas Utilitios Eloctric Schemo #9 3 December 3,1992 5
Time TC # 65 TC # 66 TC # 07 TC # 08 TC # 69 TC # 70 TC # 71 TC # 72 (min) ('F) ('F) ('F) ('F) ('F) ('F) (*F) ('F) !
0 65 65 OS GS 65 OS 65 05 6 1 65 65 65 05 65 05 65 05 ;
2 05 05 05 65 05 65 65 65 ,
3 65 05 65 65 OS 65 05 65 4 05 65 65 05 65 OS 05 65 5 05 65 05 06 05 OS 65 65 j 6 05 OS 65 06 65 06 05 06 7 05 OS 06 07 06 07 66 60 8 65 65 07 69 07 08 67- 68 9 65 00 69 71 GB 70 68 09 10 6d 06 71 74 70 73- 70 72 11 60 07 73 77 72= 75 72 74 i 12 67 69 70 81 74 79 74 77' 13 67 70 80 80 77 82 77 80 14 68 72 84 91 80 86 80 84 15 70 74 89 -90 -83 90 84 88 1 16 71 77 93 102 87 94 87 92-17 73 79 98 108 91 99 91 90 18 75 83 104 114 95 104 05 101 19 77 80 109 120 99 109 100- 106 20 79 90 114 126 104 114 104 111 21 82- 94 120 132 109- 119 109 116 t 22 80 98 126 137 114 125 114 121 23 89 102 131 142 119 130 119 127 24 93 107 137 147 124 135 124 132 25 97 112 142 152 129 140 129 137 26 101 117 -147 156 134 145 134 142 27 106 123 151 100 139 149 138 140 28 29 30 31 129 143 169 179 158 109 157 163 32 134 148 174- 184 163 174 _162 107 ;
33 139 -153 178- 190 168 179 167 171 34 144 157. 183 196 174 '185 172 170.
35- 149 161 187 201 17G 190 177 181 36 153 165 192 207 184 196 133 I85 1 37 166 108 197 214 190 202 188 190 38 160 172- 202 220 196 208 194 195 39 103 175 207 226- 201- 214 200 200 40 166 179 212 232_ 207- 220 205 806 O f~g 5 ../
Texas Utilitios Electric Scheme #9 3 Docomber 3,1992 211 l
1 Time TC # 65 1C # 66 TC # 67 TC # 68 TC # 69 TC # 70 TC # 71 TC # 72
~~(min) ('F) (*F) ('F) (*F) ('F) (*F) (*F) (*F) i~~
! 41 168 182 218 238 213 226 211 211 ,
4 42 171 185 223 245 219 233 217 217 l
43 174 189 228 253 226 239 223 223 i 44 176 192 233 260 232 245 230 229 45 179 196 239 268 237 251 236 235 l 46 182 199 245 275 243 257 242 241 47 184 203 251 282 250 264 248 247 48 187 206 257 289 257 272 254 253 49 190 210 263 297 264 279 261 261
~~50 197 214 270 304 271 286 269 268 !~~
Gi 195 218 276 311 278 293 276 275 52 198 222 282 319 286 300 284 282 53 201 226 288 320 293 308 292 289 54 204 230 294 334 300 315 299 296 50 2C7 234 300 341 307 322 307 303 i
56 200 238 306 349 314 329 315 310 57 213 242 312 358 32! 336 322 317 58 216 246 318 366 328 343 330 324 59 219 251 324 375 335 350 337 331 q 60 223 255 331 383 343 357 345 338 61 62 SS 64 66 66 67 68 69 70 71 MAX 223 255 331 383 343 357 345 338
%)
n Texas Utilitloa Elsctric Schamo #9 3 Decembsr 3,1992 1' Time TC # 73 TC # 74 TC # 75 TC # 76 TC # 77 TC # 78 TC # 79 TC # 80 (min) ('F) ('F) (*F) ('F) ('F) (*F) (* F) (*F) 0 65 65 64 65 65 65 65 65 1 65 65 65 65 65 65 65 65 2 65 65 65 65 65 65 65 65 3 65 65 65 65 65 65 65 65 4 65 65 65 65 65 65 65 65 5 65 65 65 65 65 65 66 66 6 66 65 65 65 66 65 06 66 7 67 65 65 65 67 65 67 67 8 68 65 65 65 68 65 68 67-9 70 66 65 65 69 GG 70 68-10 72 67 65 65 71 66 72 70 11 74 68 65 66 73 67 74 71 12 76 70 66 66 76 68 76 74 13 79 72 66 67 78 09 79 76 14 82 73 67 68 81 70 83- 79 15 80 76 67 69 85 72 86 82 16 89 78 68 70 88 74 90 86 17 93 81 69 72 92 76 95 90 18 97 83 71 74 97 78 99 94 1J 102 86 72 76 102 81 104 98 20 106 90 74 79 107 85 109 102 21 110 93 76 62 110 90 112 107 22 115 97 78 85 114 -95 116 111 23 119 100 81 88 118 99 120 114 24 124 104 84 93 121 104 -124 118 25 128 108 87 97 125 108 127 122 26 132- 111- 00- 102 129 113 131- 125- --
27- 136 115 94- 108 -133 117 135 129 28 29 30 31 151 130 111- -.128 150 133 152- 143 32 155 134 116 132 154 137 157 147 33 159 136 121 136 159 140 162 151 34 163 142 125 140 164 144 167- 155 35 168 146 129 143 169 148 173 159 36 172 150 133 146- 174 151 178 164 37 177 155 137 149- 179 155. 184 168 38 182 159 141- 152 184 159 189 173 39 187 163- 144 155 190 163 195 177 40 103 168 148 -158 195 167 201 182 p,
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Texas Utilities Electric Schemo #9 3 Docomber 3,1992 Time TC # 73 TC # 74 TC # 75 TC # 76 TC # 77 TC # 78 TC # 79 TC # 80 (min) ('F) (*F) ('F) ('F) (*F) ('F) (*F) (*F) 41 198 173 151 101 201 171 207 187 42 203 177 154 104 200 175 213 192 43 209 182 158 107 212 179 219 197 44 215 186 161 170 218 183 225 202 45 221 191 164 173 223 187 231 200 40 227 197 107 177 228 191 237 211 47 232 202 171 180 234 100 243 210 48 238 206 174 183 239 200 249 221 49 245 210 177 180 245 204 250 220 50 252 215 181 190 251 208 263 232 51 259 220 184 193 257 213 209 237 52 205 225 187 197 203 217 275 243 53 272 230 191 200 209 221 281 248 54 279 235 195 204 275 226 200 253 SS 286 240 199 207 281 231 296 258 56 293 246 204 211 288 235 304 204 57 300 251 208 215 295 240 312 270 58 307 257 211 219 303 244 321 277 m 69 314 202 213 2?3 311 249 329 284 60 321 268 215 227 318 254 337 291 61 62 63 64 65 66 67 68 69 70 71 MAX 321 268 215 227 318 254 337 291 OA 8'o,
%,)
Texas Utilities Electric Scheme #9 3 Docomber 3,1992 21-1 j Time TC # 81 TC # 82 TC # 83 TC # 84 TC # 85 TC # 86 TC # 87 TC # 88 (min) ('F) (*F) (*F) ('F) ('F) ('F) ('F) (*F)
O GO 65 G5 65 65 65 OS 65 1 OG 05 G5 65 65 65 65 G5 2 60 05 65 05 65 G5 65 65 3 GG G5 65 05 65 05 65 65 4 60 05 65 65 65 65 65 66 5 G7 65 GG 00 GG 00 60 65 6 67 05 60 60 06 00 66 60 7 68 66 66 07 67 00 60 GC l 8 69 06 07 69 08 07 67 67 9 70 00 08 70 70 08 68 08 10 71 07 69 72 72 09 70 69 11 73 08 71 75 75 70 71 71 i 12 75 69 73 78 77 71 73 73 j 13 77 70 75 81 81 73 76 75 !
14 79 71 77 84 84 75 78 78
, 15 81 73 79 87 80 77 81 80 16 84 75 82 91 91 80 84 83 17 87 77 85 94 95 82 87 86 18 90 79 88 98 99 85 91 89
() 19 20 93 97 81 84 91 94 102 100 103 107 88 91 95 98 92 96
~
21 100 87 98 110 112 95 102 99 22 104 90 101 114 116 99 106 103 23 108 93 105 118 119 102 110 100 24 112 97 108 121 123 105 114 110 25 116 100 112 125 127 109 118 114 26 120 104 115 129 131 113 122 117 27 122 107 119 133 135 116 126 121 28 29 30 31 132 121 135 152 154 134 145 137 32 135 124 139 158 100 139 150 141 33 137 128 143 163 166 144 155 145 34 140 132 148 169 172 149 160 149 35 143 135 153 175 178 154 166 154 36 145 139 158 180 184 160 171 159 37 148 144 163 186 190 105 176 163 38 151 148 168 192 196 171 182 168 39 154 152 173 198 202 176 187 173 40 157 156 178 214 208 182 193 178 v t,0 * "of O A
+0gggoM
Texas Utilitios Electric Schemo #9 3 December 3,1992 21 Time TC # 81 TC # 82 TC # 83 TC # 84 TC # 85 TC # 86 TC # 87 TC # 88 (min) ('F) ('F) (*F) ('F) ('F) ('F) ('F) ('F) 41 160 161 183 210 214 188 199 183 42 164 165 188 215 220 193 204 188 43 167 170 194 221 226 199 210 193 44 171 174 199 227 232 205 216 198 45 175 179 204 233 238 210 221 204 46 178 184 209 239 244 216 227 209 47 182 188 214 244 250 222 233 214 48 186 193 219 250 255 228 239 219 49 190 198 224 256 261 233 244 224 50 194 203 229 262 267 239 250 229 51 198 208 234 268 272 245 256 234 52 231 213 239 275 278 251 262 239 53 205 218 244 281 284 257 269 244 54 209 223 249 287 290 263 275 249 55 213 229 255 294 296 270 281 254 56 216 234 200 301 302 276 288 259 57 220 239 265 308 308 282 294 264 58 223 245 270 315 314 289 301 269 59 225 251 276 322 320 295 308 274 60 228 256 282 329 327 302 314 279 61 62 63 64 65 66 67
~~68 t~~
69 70 71
( MAX 223 256 282 329 327 302 314 279 f
O t"' ' 's
~~oggg o~~
nen Texas Utilitlos Electric Schomo #9 3 Decemb:r 3,1992 ' 14 '
Time TC # 89 TC # 90 TC # 91 TC # 92 TC # 93 TC # 94 TC # 95 TC # 96 (min) (*F) (*F) ('F) (*F) ('F) ('F) ('F) ('F) 0 65 OS 65 OS 65 OG GG 65 1 65 65 65 G5 06 60 GG 65 2 05 65 65 65 66 GG 66 65 3 65 65 65 G5 GG 60 66 65 4 65 65 65 00 00 60 GG 65 5 G5 65 OS 60 GG 66 67 66 6 65 65 65 07 66 G7 67 66 7 GG 05 65 68 67 08 68 07 8 60 65 66 70 08 69 70 68 9 66 60 GG 72 09 70 71 69 10 07 60 66 74 70 72 73 70 11 68 06 67 77 72 74 76 72 12 69 GG 08 80 73 77 78 74 13 70 67 68 83 75 80 81 76 14 72 67 69 87 78 83 84 78 15 74 68 71 90 80 80 87 81 16 75 69 72 94 82 89 90 83 17 77 70 74 98 85 92 93 86 18 79 71 75 101 88 96 97 89 19 82 72 77 105 91 99 101 92 20 84 74 80 109 93 103 104 97 21 80 76 82 113 97 107 109 102 22 89 78 85 117 100 110 112 106 23 92 80 88 121 103 113 115 110 24 94 82 91 125 106 117 118 113 25 97 85 94 130 110 120 121 116 26 100 88 98 134 113 123 124 119 27 103 91 102 138 116 126 127 123 28 29 30 31 119 105 118 155 131 143 141 138 32 122 109 122 159 135 148 145 142 33 126 113 126 164 139 153 149 14G 34 129 117 130 168 143 158 154 150 35 132 121 134 172 148 103 158 155 36 136 125 138 176 152 168 162 159 37 139 129 142 181 157 173 167 164 38 143 133 145 185 161 178 171 169 39 146 137 148 189 166 183 175 173 40 150 140 152 193 171 188 180 178 a O pa g A 04ATO
.m Texas Utilities Electric Scheme #9 3 December 3,1992 Timo TC # 89 TC # 90 TC # 91 TC # 92 TC # 93 TC # 94 TC # 95 TC # 96 (min) ('F) (*F) (*F) (*F) (*F) (*F) ('F) ('F) 41 154 144 155 107 17G 194 184 183 42 158 147 158 20, 181 199 189 188 43 162 150 101 204 185 204 194 192 44 166 154 164 208 190 209 198 197 45 170 157 100 212 195 214 203 202 46 174 100 169 216 200 220 207 208 47 178 163 172 219 205 225 212 213 48 183 100 175 223 210 231 217 218 49 187 109 178 227 215 236 222 224 50 191 172 181 231 220 242 226 230 51 195 174 185 235 225 247 231 236 52 199 177 188 238 230 253 236 242 53 203 180 191 242 236 259 240 248 54 207 183 194 246 241 265 245 255 55 211 180 198 250 240 271 250 261 56 215 189 201 255 252 277 255 268 57 218 193 205 260 258 284 261 276 58 222 196 208 265 204 290 267 283 59 226 199 212 270 271 297 273 291 60 230 202 215 270 277 304 280 299 61 62 63 64 65 66 67 68 69 70 71 MAX 230 202 215 276 277 304 280 299
%,)
otn Texas Utilitias Electric Schemo #9 3 D*cambir 3,1992 Time TC # 97 TC # 98 TC # 99 TC # 100 TC # 101 TC # 102 TC # 103 (min) ('F) (*F) ('F) (*F) ('F) (*F) (*F) 0 65 65 65 05 G5 G5 65 1 65 05 05 65 65 65 05 2 65 65 05 OS 65 65 OS 3 66 65 65 65 65 65 05 4 67 60 00 60 06 65 OS 5 69 67 66 06 67 67 65 6 72 68 67 67 09 69 05 7 77 71 68 09 72 71 05 8 82 74 70 71 75 75 65 9 87 78 72 74 78 78 66 10 93 82 74 77; 82 8? 66 11 100 87 77- .80 86 87 67.
12 100 92- 79 84 91 91 68 13 113 97 83 87 96 95 09 ,
14 120 102 80 92 100 100 70 15 126 107 90 96 105 - 104 71 16 133 112 93 100 110 109 73 17 140 11/ 97 105 110' 114 75 18 147 123 101 109 121 118 77 19 156 128 105 114 126 123 80 20 tot 133 110 119 131 127 83 21 164 137 114 124 136 132 85 22 168 141 118 128 140 138 88 23 172 146 122 132 143 146 91 24 177 151 126 136 147 151 95 25 183 156 130 140 152 154 98 26- 189 162 135 145 -157 .157 103 27 196 168 140 150
162- 161 108 28 29 30 31 223 195 163 '173 180 180 127 32 230 201 .170 180 193- 185 131 33 237 208 176 186- 200 191 136 34 243 215 182 192 207 197 141 35 249 222 189 199 213 203 145 36 256 229 195 205 220 209 149 37 262 235 202 211. 227 216 -153 ~
38 267 -242 208 218 233 - 222 '156 39 273 248 214 224 240 .227- 160 40 279 255 221 230 246 233 163
%,/
_ - _ _ - . .- . _ . _ - . .. . -- __ .= . .- -
Texas Utilitlos Electric Schomo #9 3 Docamber 3,1992 2iO Time TC # 97 TC # 98 TC # 99 TC # 100 TC # 101 TC # 102 TC # 103 (min) ('F) (* F) (*F) ("F) ('F) ('F) (*F) 41 285 261 227 236 253 239 107 42 291 208 233 242 259 214 170 43 290 274 240 248 200 250 173 44 302 201 240 255 272 255 177 46 301 288 253 201 279 260 100 46 315 294 260 267 280 265 184 47 321 301 200 273 293 270 187 48 327 300 273 280 300 270 191 49 334 310 280 286 308 281 195 50 341 323 287 293 315 280 198 51 318 331 295 299 322 291 202 52 355 339 303 306 329 296 200 53 363 348 310 313 330 30t 210 54 371 357 318 320 343 300 215 55 379 366 326 328 351 311 219 56 387 370 335 335 360 317 223 57 396 186 343 343 3G9 322 227 58 405 397 352 351 378 328 231 59 414 408 362 300 387 333 235 60 423 420 372 369 397 339 239 61 62 63 64 65 66 67 68 69 70 71 MAX 423 420 372 369 397 339 239 O
f* * "O s,A 04470
. non i Texas Utilities Electric Scheme #9 3 D:cemb r 3,1992 4+U Time TC # 104 TC # 105 TC # 106 TC # 107 TC # 108 TC # 109 TC # 110 (min) (*F) (*F) (*F) (*F) (*F) (* F) (* F) 0 65 65 65 65 66 65 65 1 65 65 65 65 66 65 65 2 65 65 65 65 66 65 65 i 3 65 65 65 65 66 65 65 4 65 65 65 65 66 65 65 5 65 65 65 66 66 65 66 1
6 65 65 66 66 67 65 66 7 65 65 66 67 68 66 67 4
8 66 65 66 69 70 66 69 l 9 66 66 67 70 71 67 71 10 67 66 68 72 74 68 73 11 69 67 69 74 76 69 76 i 12 70 68 71 76 79 70 78 j 13 72 69 72 79 81 71 82 14 74 70 74 82 84 73 85 15 77 72 76 85 87 75 89
. 16 80 74 78 88 91 77 92 17 84 76 81 91 94 79 96 4 18 88 79 83 95 98 82 100 (s) 19 92 82 86 99 102 84 104 20 96 85 E9 102 106 87 109 21 101 89 92 106 110 91 113 22 105 92 95 109 113 94 118 23 109 96 99 112 116 98 122 l 24 114 100 103 116 120 102 125 25 119 105 106 120 123 106 129 26 123 110 110 124 127 109 133 27 129 115 114 128 131 113 136 28 29
30
~~31 153 130 131 148 150 128 154~~
. 32 159 133 135 154 155 131 159 33 163 137 140 159 160 135 164 3
34 166 140 144 165 166 139 169 35 168 144 149 171 171 143 174 36 171 147 154 177 176 147 179 L 37 173 151 159 183 182 151 184 38 176 154 165 189 187 155 190
. 39 178 158 170 196 193 159 195 !
40 180 175 202 q
I, )
161 199 163 200 l
sO A !'o,
%,/ .
1 4
i Texas Utilities Electric Schsme #9 3 Dscomber 3, _1992-wi
~'
i Time TC # 104 TC # -105 TC # 106 TC # 107 TC # 108 TC # 109 TC # 110 (min) ('F) ('F) (*F) (*F) ('F) - (* F) (*F)
. 41 183 165 180 209 204 168 205 I 4
42 186 169 186 215 210 172 219 l
43 189 173 191 222 216 177 215- l i 44 192 177 196 229 222 181 220 j 45 195 181 202 235 228 186 224 j 46 198 185 207 242 234 191 229 47 201 189 212 249 241 195 234 l
48 205 193 218 256 247 200 239
) 49 208 197 223 263 253 204 243
- 50 211 201 229 269 260 - 209 248
~~51 215 206 234 276 206 214 253~~
, 52 218 210 239 283 273 219 258 -
i 53 222 214 244 290 279 - 223 263 54 226 219 250 298 286 228 268 55 230 223 255 306 293 233 273
. 56 234 228 261 313 300 238 278 l 57 238 232 267 321 307 244 283.
58 242 237 273 330 315 249 289 59 246 242 280 338 323 254 295 6 250 247 -286- 347 331- 259 301 f 62 63
!. 64 ,
t 65 f 66
~~67 69 i 69~~
-70 g- 71 i
MAX 250 247 286: 347 331 259 301
[-
e t
lt
~~o mo~~
-_ - , , ., ,.~ ,-, ,_ .....--...,..,,._.s._
, - - . . . ~~....,1,,e....~
_ _ _ _ _ _ _ . . - _ . _ _ . . . _ _. _ _. . _ - _ _ - _ _ _ _ _ . _ _ . _ _ _ _ ~ _ _ . . . _ . _ . _ - - _ ~ . _ _ _ _ _
Texas Utilities Electric - Scheme #9 3 December 3,1992 j Time TC # 111 TC # '112 TC # 113 TC # 114 TC # 115 TC '# 116 TC # 117 (min) (*F) (*F) (*F) (*F) (*F) -(*F) (* F) 0 65 65 65 65 65 65 65 1 65 65 65 65 65 65 65
2 65 65 65 65 65 65 65 3 65 65 65 65 65 65 65 4 65 65 65 65 65 65 65 5 66 65 65 66 66 65 65 6- 67 66 66 66- 67 65 65 7 69 67- -66 67 68 65 65 8 72 68 67 68 69 66 65 9 75 70 .68 69 71 66 65 10 78 72 70 71 73 66 65 11 82 74 71 72 75 67 65 12- 86 77 73 75 78 67' 66 13 90 80 75 77 80 68 66 14 95 83 '78 -80 83- 69= 66 15 99 87 80 83 86 -7 0 - 66 16 104 91 83- 86 89- 71 67 17 109 95 86 89 92 72 67 18 113 99 90- 92 95- -73 68
( ) 19 118 103 93 96- 98 75 69 20 123 108 97 99 102 77 70 21 127 112- 101 103 105 79 71 22 131 116 104 107 108 80 72 23 135 120 108 110 112: 83 74 24 139 124 112 114 ~115 ~ 8,5 75 25 144 128 --116: 118 118 87 77 26 148 132 119 121 ~121. 90 79 27- 153 136 123 125 125 92- 81 28 29 30 31 L 174 156 -141 142 139' -
105 92 .
32 180 '161 146 147 142 108- '95 33- 186 166 151- 152 147 112 98=
34- 191 172- 156 156- =151 115 '101
-35 .197- 178 161 161 --156 118 105-36 -203 183' 166- 166 -160- 121 108 37 209 .189 171- 171 165: -125 .112 38 215 195- 176 176' .170 128 116-39 220- 200- 182 181- 175, =132 .119 40 226 206 187 187 179 135 123 l f * *0,+
O.
s 1 04ATO
-, -. .. - - -. - . - . - . . ~ . _ . - -- .-.- - .- - .. - . . .
nn Texas Utilitias Electric Schsmo #9 3. Decembsr 3,1992
l i
Time TC # 111 TC # 112 TC # 113 TC # 114 TC # 115 TC # 116 TC # 117 (min) (* F) -('F) ('F) (*F) (' F ) -- -('F)- (* F) 41 232 211 192 192 184 139 127
, 42 237 217 197 197 189 143 131 j 43 243 222 203 202 194 147 134-i 44' 248 227 208 208 198 150 138 ,
! 45 254 233 213 213 203 154 141 l 46 260 238 218 218 207 158 145 l 47 265 243 224 224' 212 162 148 l 48 271 248 229 229 217 165 151-i 49 277 254- 234 235 221 169 154 I 50 283 259 239 240 226 173 157 I 51 290 264 244 246 230 1'7 160
{ 52 296 270 250 252 234 -1 0 163 53 303 275 256 258 239 184 166-54 310 281 262 265 243 187 169 l
l 55 31 'J 286 268 271 248 191 172 l 56 326 293 273 277 253 195 175 1- 57 334 300 279 284- 258 - 198 178
! 58 342 307 285 290 263 202 181
59 351 314 293 296 '268 205 184 60 360 322 300 303 273 209 187 61
~~62 j 63~~
! 64 l 65 l- -66 i 67 l 68 i_ 69 f 70 71 1
MAX 360 322 300 303 273 209 187 I
r i
4 f.~.
4
%,4ATO /=
. . _ , _ . . - _ , . , . - . . , . . . . . - - , _ . . - ,..-.,_.._~.,.....,__a:
!- nn Texas Utilities Electric Scheme #9 3' Decembarl 3,' 1992 I Time TC # 118 TC # 119 TC # 120 TC # 121 TC # 122 TC # 123 TC #' 124 (min) _( 'F) ('F) ('F) ('F) ('F) ('F) (*F) 0 65 65 66 65 66 65 -65 i 1 65 65 66 65 66 65 65 2 65 65 66 65 66 65 65 3 65 65 66 65 66 65 65 l 4 65 65 66 65 66 65 65
~~5 65- 65 66 66 66 65 65~~
. 6 65 66 66 66 66 65 65 7 65 66 66 66 66 66 65 8 65 66 66 66 67 66 66 9 66 66 66 67 67 67 66' 10 66- 67. 67 67 68 68 67 11 66 67 68 68. 69 69 68 12 66 68 68 69 70 71 70 13 67 69 69 71 72 72 72 14 67 70 71 72 73 74 74 15 68 71 72 74 75 76 76 16 69 72 74 76 77 79 79 17 70 74 75 78 79 81 82 18 71 75 77 81 81' 84 85
() 19 20 73 74 77 79 80 82 83-86 84 86 87 92 88
-92 21 76 81 84 89 89 96 96 22 78 84 87 92 92 100 99 23 80 86 90 95 95 104 103 24 83 89 93 99 97 107 107 25 85 92 96 102 100 110 110 26 88 95 99 105 -103 114 114 27 91 98 102- -108 106 117 118 28 29 30 31 105 111- 115 122 118 132 135 32 109 -114 119 125 121- 136 140 33 :113 118 122 129 125 140 145 34 116 121 126 133 128- 144 150 35 120- 125-; 130 137 131 149. 155 36 124 129 134 141 135 153 160 4
37 127- 133 138- -145 138 157 166 38 131 136 142' 150 142 162 171 39 134- -140. 147 154- -146- 166 176 40 137 144 151 .159 149 171 181 o
p^S, o 0 4 Ogggo
Texas Utilities Electric Schemo #9-3 Decer.ibtr 3,1992 Time TC # 118 TC # 119 TC # 120 TC # 121 TC # 122 TC # 123 TC # 124 (min) (*F) (*F) (*F) (*F) (* F) ('F) (*F) 41 141 148 155 163 153 175 187 42 144 152 160 168 157 180 192 43 147 156 164 172 161 185 197 44 150 160 169 177 135 189 202 45 153 164 173 181 168 194 207 46 156 168 178 186 172 199 213 47 159 172 182 191 176 204 218 48 162 176 187 195 180 209 223 49 165 180 191 200 184 214 229 50 168 184 196 204 188 219 235 51 171 188 200 209 192 224 241 52 174 192 205 214 196 229 246 53 178 196 210 219 200 235 252 54 181 200 214 224 204 241 258 55 184 203 219 229 208 247 265 56 187 207 224 234 212 253 272 57 190 211 229 239 216 259 280 58 194 215 234 243 220 266 287 59 197 219 239 248 225 273 295 60 200 224 244 254 229 281 303 61 62 63 64 65 66 67 68 69 70 71 MAX 200 224 244 254 229 281 303 o
/
l
%/
a- .q j
~
l Texas ' Utilities ' Electric Scheme #9 3 Dacombar_3,1992 L
Time TC # 125 TC # 126 TC # _127 TC # 128 TC #_129 TC # 130 TC # 131 l (min) ('F) (*F) (* F) (*F) ('F) ('F) (*F)-
j 0 65 65 65 ~ 65 - 65 65 65 .
i 1 65 65 65 65 65 65 65
~~2 65 65 65 65 -65 65 65~~
- 3 65 65 65- 65 65 65 65 4 65 65 65 GS 65 .65 65 5 65 65 65 65 65 65 .65 l
! 6 65 65 65 65 65 65 .65 ,
! 7 66 66 65 65 65 65 65 i 8 67 66 66 66 66 65- 65 l' 9 68 67 66 66 67 65 65 l 10 70 69 67 67 68 66 65 i 11 71 70 68 68 69 66 66
! 12 74 72 69 70 71 67- 66-l 13 76 74 71 71 -_ l73 68- 67
[ 14 79 77 72 73 1 75 69 67 15 83 80 75 76. 78 71 68-l- 16 86 83 77 78 .
80 72 69 j 17 89 86 80 81 8 3 -- 74 70-1 18' 93 89 82 84 86 76 .72 f 19 97 93 86 87 90 78 74 l 20 100 96 89 91 - 93 80 76
21 104 100 92 94 96 82- 78 l 22 108 103 96 98 100 85 81 l- 23 112 107 99 102 103 88 84
! 24 115 '111 103 105 1107 91 87 l_ 25 119 115 107- 109- _111_ 94 90 >
~~26 124 '119 111 113 115 98 93~~
_ 27 128 1_23 114 116' _119- 103_ 97-i -28 l -' 29 j 30-i 31 147 141 131 132 135 119- 114 i 32 '152 146 136 .137 139 123- 118 33 157 -151- ~141 142 -144

127-- -123
~~34- 162 157- 146- 146 '148 -131 127~~
' 35 168 162! 151 151

153 135 -131-
! 36 173 167' _156 157 158 -140 135 I 37 179 172 161 .162 163 144 139-1 38- _. _18 4 178 167 167 '168- 148. 143 39 190 183 172 172 173 152 146-40 195- 189- -177 178 178 156 150-I t j g oA m 5.Ogggop
.a . . _ _ , .- _ ,.- _ ,_ _ , . . , _ _ . . _., . __,__...,,_.,a._,..._.,_,..ama.__,,...,_
_ _. _ _._ _ _ __ _ . . _ ~ _ . _ .-_._- . . . - - _.___ _ - - . _ _ _ ~ . . _ . . -
22 Texas Utilities Electric Scheme #9 3 Decembsr 3,1992-i Time TC # 125 TC # 126 TC # 127 TC # 128 TC # 129 TC # 130 TC # 131 (min) (*F) (*F) (*F) (* F) (*F) (*F) (*F)-
i-
! 41 201 194 183 183 183 160 153
! 42 206 199 188 188 188 -164 157 43 212 205 193 194 193 168 160 44 217 210 199 199 198 171 164
~~45 223 215 204 204 202 175 167~~
[ 46 228 221 209 209 207 179 171 47 234 227 215 214 212 183 174 48 240 233 221 220 218 186 1Tw 1 49 247 239 227 226 223. 190 181 50 253- 244 232 232 228 194 185 51 259 250 237 237 233 198 188 52 265 255 243 242 237 201 191 53 272 262 248 247 242 -205 -195 54 280 270 255 253 247 209 199 55 288 277 262 260 252 213 202 56 297 286 269 267 258 217 206 57 306 294 277 274 264 221 210 58 316 303 285 281- 270 225 213 59 326 312 293 288 -276 229 217 60 336 322 301 296 282 234 221 61 62 63 64 65 66 67 68 69 70 71 MAX 336' 322 301 296 282 234. 221 SO AP, o
5 ..,/
1 2,(
' ~
Texas Utilities Electric Schsmo-#9 3 Dscamb r 3,1992 Time TC # 132 TC # 133 TC # 134 TC # 135 TC # 136 TC # 137 TC # 1'38 j (min) (*F)- (*F)- (*F) ('F) (*F)_ ('F) ('F)- '
3
!. 0 65 65 65 65 65 65 65
, 1 65 65 65 65 -651 65 65 2 =65 65 65 65- 65- 65 65 ,
3 65 65 65 .65 ~ 65 65~ -65 j' 4 65 65 65 65 65 65 65 5 65 -65 65 66 65 66 05
6 65 66 '65 66 66 66 66 7 65 67 66 -66 67 67- ,
8 65 68 66 67 68 69 -69 ,
l 9 65 69 -67 68 69 71 71
! 10 66 71 69 69 71 73 73 i 11 66 74 -70 71 73 76 76 i 12 67- 76 72 73 '75 79 79-13 68 80 75 75 '77 '83. 82 l
14 69 83 77 78 86- -86
! 15 70 86 80 81 82- 90 90 16 72 90 83 84- 85 94 94 l 17 74 94 87 87 89 99 98 18 76 98 90. 91 92 103 102 19 79 102 -94 94 96- 108 107 20 81 107 98 98 100 112 111 21 84 111 102 102 105- 117 116 22 87 116 106' -106 110- :122' 120
_23 91 123 111 110 115 126 124-24 95 129 115 1114. 119 130 128 25 99 134 120 118 124 135 133 j 26 103 138 124. 122 128- -139 137 27 108 142 129 -126. -132- 143 142 l
28 l 29
!- 30' 31 125 160 148 '144 147 - 163 162 32 129 165-' -152 148- 151 168 168 33 133= 170 157 153 -155 173 =173.
! 34 136 174 163 -158 159' '178 179
-35 140' 179 2168 164 163

184- -185-
! 36 144 184 173-- 169' 167. 1891 190:
37 148 189 178 -174 172 ~195: 196 38 '151- 193 183 179 176 200 202: i
~~39 155 -198 169' 184- 181- 205 207 '~~
40- 158 202 194- 189 185 211 -213 Ogggo l
l
0 nn Texas Utilities Electric Scheme #9 3 December 3,1992 44 I
Time TC # 132 TC # 133 TC # 134 TC # 135 TC # 136 TC # 137 TC # 135 l -(min) ('F) ('F) (* F) (*F) (*F) ('F) ('F) 41 162 207 199 194 190 216 218 42 166 211 204 199 195 222 224
! 43 169 216 209 204 200 227 230 l 44 173 220 215 209 204 232 235 i 45 177 225 220 215 209 -237 241 46 180 230 226 221 214 242 246 l
47 184 234 231 226 219 246 251 l 48 188 239 236 231 224 251 257 i 49 192 244 241 236 229 256 '262
! 50 195 248 246 241 234- 260 268 l 51 199 253 252 247 239 265 274 l 52 203 257 259 253 243 270- 280 l 53 207 . 262 266 259 248 275 286
! 54 211 267 272 266. 253 280 l293 j 55 215 272 279 272 258 286- 300 56 219 277 286 279 264 291 308 l
1 57 224 283 292 286 269 297 316 j 58 228 289 299 293 274 304 323
59 233 296 306 299 280 310 331 j' 60 237 302 313 306 286 316 339 l 61 j 62
]
63 l 64 l- 65 j 66 i 67 68 69 70 )
71 '
MAX 237 '302 313 306 286 316 -339 1
. V g,0A *of o A ogggo
I Texas Utilities Electric Scheme #9 3 Decemb:r 3,1992 i
Time TC # 139 TC # 140 TC # 141 TC # 142 TC # 143 TC # 144 TC # 145 (min) ('F) ('F) (*F) (*F) (*F) (*F) (*F) !
O 65 65 65 65 65 65 65 1 65 65 65 65 65 65 65 2 65 65 65 65 65 65 65 3 65 65 65 65 65 65 65 4 65 65 65 65 65 65 65 5 66 66 66 66 65 65 65 6 66 66 67 66 65 65 65 7 67 67 69 67 66 65 65 8 69 68 72 69 67 65 65 9 71 70 75 71 68 65 65 10 74 73 79 73 69 65 66 11 77 75 83 75 70 66 66 1P 81 79 87 77 72 66 66 13 85 82 92 80 74 66 67 14 89 86 97 83 76 67 68 15 93 90 102 86 79 67 69 16 98 94 107 89 81 68 70 17 103 99 112 93 84 69 71
- 18 108 104 118 96 86 70 73
( 19 113 109 123 100 89 71 75 20 118 114 129 103 92 73 77 21 123 119 135 107 95 75 79 22 128 125 140 111 99 77 82 23 132 129 145 115 102 79 85 24 136 134 149 119 105 81 88 25 140 138 153 123 109 84 91 26 144 143 158 127 113 87 94 27 149 148 163 131 116 90 98 28 29 30 31 170 169 185 147 136 104 114 32 176 174 190 151 140 108 119 33 182 180 196 156 144 112 123 34 188 186 202 160 147 117 127 35 194 191 208 165 151 121 131 36 200 197 213 170 155 125 135 37 205 203 219 176 158 129 139 38 211 208 225 181 162 134 143 39 217 214 230 186 166 137 147 40 222 220 236 191 169 141 150 f *g oA
%)
nn4 a auI Texas Utilities Electric Schomo #9 3 Decembsr 3,1992 f Timt TC # 139 TC # 140 TC # 141 TC # 142 TC # 143. TC # 144 TC # 145 j.-
(min) (*F) ('F) ('F) (*F) (*F) ('F) ('F) 41 228 226 241 196 173 144 153 42 234 231 247 202 177 148 156 1 43 239 236- 252 207 '181 150 159 l- 44 245 242 _258 212 184 153 161
! 45 250 247 263 217 188 156 164 j- 46 255- 252 268 222 192 159 167 47 259 k57 274 227_ 196 161 169 j 48 264 263 280 232 200 -164 172 l 49 270 266 286 237 204 167 175 4' 50 275 274 292 242 207 170 -178 1 51 280 280 298 246 211 172 181 l 52 286 286 305 251 215 175 184 53 291 293 312 256 219 178 187 54 298 300 ~319 261 222 181 190
! 55 305 307 326 266 226 184 .193
~~56 312 314 333 271 230 186 196 57 319 321 340 277 233 189 199~~
) 58 326 328 347 282 237- 192 202 59 333 335 354 288 240 -195 206-60 340 343 360 294 244 198 209 62
! 63
~~64 l~~
65 4
66-l 67 68 69
} 70 71 MAX 340 343 -360 294 244 -198 209 L
4./ l
Texas Utilities Electric Scheme #9 3- _ December 3 -1992 1
4 Time TC # ' 146 TC # 147 TC # 148 TC # 149 TC # 150' TC # 151 TC # 152 (min) (*F) (*F) (*F) (* F) ('F) ('F) (*F)=
4 5 0 65 65 66 66- 65 65 65 1 65 65 66 66 65 65 65 f 65 65 66 66 65 65 65 p 2 3 US 65 66 66 65 65 65
!; 65 66 66 66 65 66 66 4
5 85 66 60- 67 66 66 66
4. 6 66 68 67 . 6 9' '6 6 " 67 67 l' 7 67 69 68 7.1 67 69 68-8 68 72 70 73 69 71 70 i 9 69 75 72 76 70 73 71 10 71 78 74 80 72 75 74-11 74 82 77 83 74 78 76 12 76 -86 80 87. 77 81 79-13 79 90 83 91 80 85 :82 14 82 95 87 95 82 88 85 15 85 100 90 '99 86 92 89 16 88 104 94 103 89 95 92 17 92 -109 98 108 92- 99 96 18 95 114 103 113 96 104 100 19 99 119 '107 117 100- 108 104 20 102 125 112- 123- 106 113 107-21 106 130 116 128 112 -
117 111 22 110 135 120 132 116 121. 115 23 114 140 124 136 120 125 119 24 118 145 128 140 124 129 123-25 123 150 131 143 127 133 127 26 128 155 136 146 131 138 132 27 132- 160 140 150 135 143 136-28 29 30 31 150 181 159 166 '153 164 157 32 154 186 164 170 157 170 .163 33 158 191 169 174 162 176 169 34 163 196 174 179 167 182 174
'35 167-- 202 179 183 171 187 180-36 171 207 184' 187 176 193 186 37 176- 212 189 192 181 199 192 38 180 217 194 196 186 205 197-
39. 184 222 199 201 191 210 203 40 188 227 204 205- 196 216 209 p o^ *o, _
O A 0 4ATO
l .
23 Texas Utilitiss Elsctric Schema #9 3 Decembsr 3,1992 4
i . Time TC # 146 TC # 147 TC # 148 TC # 149 TC # 150 ' TC # 151 TC # 152 (min) . (*F) (*F) (*F) (*F) (*F) ('F) (*F) 41 192 231 209 210- 201 222 .215 i 42 196 236 214 214 206 227- 221 l 43 200 241 219 219 -211 233 227 j 44 204 246 224 223 216 239 234-i 45 208 251 229 228 221 245 240
46 212 256 234 232' 227 251 247 47 216 260' 239 237 232 257 253-i 48 220 265 245 241 238 263 259 49 224 270 250 246 244 269 266 50 228 276 255 250 251 275 - 273 51 231 281 260 255- 258 281 280 j' 52 235 286 266 259 264' 287 288 53 -239 292 271 _264 270 294 296 l
54 243 298 277 269 277- 301 305'
! 55 247 304 284 273 284 309 315 j 56 251 311 290 279 291 317 325 57 256 318 297 284.- 298 325 336
~~58 261 326 305 290 306 334 347~~
! 59 266 335 312 296 314 343 358 60 -272 344 320 303 .322 352 371
+
61
! 62
)
~
63 64 i 65 66
! 67
! 68 i
69
{ 70.
! 71 4
MAX' 272 344 320 303 322 352 371 1
0e
, p* * #
04ATO
.~,
. ---. , . - _ . . ,, , ,m, ,-c., 4, , w. ym.,,,,,,,_,~m,rr-,yy.-.',rwr,.
w ,
l 23 l Texas Utilities Electric Scheme #9 3 December 3,1992 l
( Time TC # 153 TC # 154 TC # 155 TC # 156 TC # 157 TC # 158 TC # 159 (min) (*F) (*F) ('F) (* F) (* F) ('F) (*F) 0 65 65 65 65 65 65 65
. 1 65 65 65 65 65 65 65
. 2 65 65 65 65 65 65 65 3 65 65 65 65 65 65 65 4 65 65 65 65 65 65 65 5 66 66 66 66 65 65 65 6 66 67 66 66 65 65 65 7 67 68 67 68 65 65 65
8 68 70 69 69 '66 65 66 9 69 72 71 71 66 66 66 to 71 75 73 73 67 66 67 11 73 78 76 76 68 66 68 12 76 81 79 79 69 67 69 13 78 85 82 82 71 68 71 4 14 81 88 86 85 73 69 73 15 84 92 89 88 75 71 75 16 88 96 93 92 77- 73 78 17 91 100 97 95 80 75 81 18 95 104 101 99 82 77 85
() 19 20 98 102 109 113 106 110 103 107 85 88 80 83 88 92 21 105 117 114 110 92 87 96 22 109 121 118 115 96 90 100 23 113 125 122 119 100 94 105 24 117 129 125 123 105 98 110 25 121 133 129 127 111 102 116 26 125 138 134 131 117 107 121 27 130 143 138 135 122 112 127 28 29 30 31 150 164 158 153 142 133 145 32 155 169 163 158 146 138 149 33 160 175 168 163 151 143 152 34 165 180 174 168 155 147 156 35 171 186 179 173 159 151 159 36 176 191 185 178 163 155 163 37 182 197 191 183 166 159 166 38 187 202 196 189 170 162 169 39 193 208 202 194 173 165 173 40 199 213 207 199 176 168 176 4
~~0 gA O~~
O SATO
. . . - . . . . . - - . - - . . . - . . . = - . . . . . . ~ . . . . . , . . - - . _ . - . ~ . - - - - -
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A Texas Utilities Electric Scheme #9 3 December 3,1992 4 i> .
l Time TC # 153 TC # 154 TC # 155 TC # 156 TC # 157 TC # 158 TC # 159:
(min) (*F) (*F) (*F) (*F). (*F) ('F) (* F) --
2 41 204 219 213 204 180 171 180 42 210 224 210 210 183 174 183 43 215 230 224 215 186 177 187 44 221 236 230 220 189 180 191 45 227 241 235 225 192 183- 194 46 233 247 241 230 -196 186 198 i 47 239 253 247 235 199 190- .202 48 245 259 252 240 202 193 206 49 250 265 258 245 206 196 210 50 256 271 263 250 209 200 214-51 263 277 269 254- 213 203 218 52 269 283 274 259 217 206 -222 53 276 290 280 264 220 210 226 54 283 297 286 269 224 214- 230 55 291 305 293 274 228 217 235 56 300 313 300 280 232 221 239 57 310 322 308 285 235 225 243 58 319 332 316 292 239 229 248 59 330 342 325 298 243. 233 253
^
60 341 352 334 305 -247 237 -258 61 62 63-64 65 66 67 68 69 70 71 MAX 341 352 334 305 247 237 258-O f~s.,
%/
. Al l nr.
~~Texas Utilities Electric Schems #9 3 Dsesmbar 3,1992 1~~
1 j Time TC # 160 TC # 161 TC # 162 TC # 163 TC #' 164 TC # 165 TC # 166 1- (min) (*F) ('F) ('F) ('F). ('F) - ('F) ('F).
e i'
O 65 65 65 65 65 65 .65 j- 1 65 65 65 65 '65 65 -65 i 2 65 65 65 65 65 65 65 I 3 65 65 65 65 65 65- 65 l 4 65 65 66 65 65 65 65
! 5- 65 -66 67 65 65- 65 65 i- 6 66 66 68 65 65 65 65 l 7 67 67- 70 05 66 65 65 8 67 69 72 66 67 66 66 9 69 71 75- 66 68- 67 68
. 10 71 73 78 68 70 69 70 l 11 73 75 82 69' 73 72 73
!. 12 75 78 86 71. 76 -75 77 '
l 13 78 81' 90 74 80- 80 81
{ 14 81 84 95 78 85 85 86 I 15 84 88 100 '82 90 90 ~ 92 l 16 87 92 104-- 88 96- 96 97-
{ 17 91 96 110 94 102 102 104 i
18 95 100 115 100 109 109 110--
l 19 99 104 121 107 116 115-- -117-l 20 103 109 126 115 123 122 124 i 21 .107 114 132 193 131 129 131
! 22 112 118 136 130 140 136 137-l 23 117 123 141 138 147 142 144 j 24 123 127 145 145 '155 149 .150 F 25 128 132 150 153 162- 156 156 26 132 137 156 160 168 162 162 i 27 137 142 161 166 174 168' 168 I 28 I 29 30 l 31 156 -164 186 206 209 206 209-I 32 161 170 192 212; 213 -211- 212 l- 33- 166 176- -198 221 220~ 215 213
, 34 171 182 204 227 227 216. 217 l 35 176 '187 211 231 225- =216 222 36 -181 193 -217 237 221-- 227: .-222 5' -37' 186. 200 223 234 223 222: 224
$ '38 191 205 229 -236. 227- 231 242
~~39 196' 212 236 235= :228' .228 224 40- 201 -218- 242 239. 237- 229 227-I c~~
%)
_ .- _ . . _ ._ ._.____.._._.___._.-_..m . . . _ .
n6- 1 Texas Utilitiss Elsetric Schemo' #9 3 ' Dsegmbar.3,1992 4U' s
Time TC # 160 TC # 161 TC # 162 TC # 163 TC # 164 TC # 165 TC # 166 l (min) .(*F) ('F) (*F) (*F) (* F) ('F) ('F)-
41 2_06 224 248 249 244 230 233 42 211 230- 255 247 247- 231 235 j 43 216 237 261 248 249 234 244 ;
i 44- 221 243 267 246 244 239 250 45 225 248 273 2_44 245 243 254-l
46 230 254 279 251 255 247 262 200 285 265 258. 253 268-47 234 4 46 239 266 291 255- 259 258 272
! 49 244 273 298 256 260 -264 278 50 249 279- 305 261 264 270 284
. 51 253 286 311 264 268 278 291 l 52 258 '293 318 267 275 285 298-
. 53 263 301 325 273 281 292 304 l 54 269 309 332 277 287 299 310 '
i 55 275 318 339 286 293 306 317
, 56 281 326 347 294 300 312 323
[ 57 58 287 293 335-343 354 362' 301 309 306 313 318 324 329 335-59 300 352 371 318 320 330 342 60 307 361 381 325 327 336 347
! 61 i 62
63
} 64 l
65 66 67 j' 68-I 69 i -- 70
, 71 L
j MAX 307 361 381 325 327 336 347-r a
l LO g.3.
%)
~
I
$ nor Texas Utilities Elsctric Scheme #9 3_ Daccmbar 3,1992 '*'
_l
(
Time TC # 167 TC # 168 TC # 169 TC # 170 TC # 171 TC # 172 TC h 173
l. ('F) ('F) j- (min) (* F) (*F) ('F) ('F) . (* F) l i
i 0 65 65 65 65 65 65 65-
! 1 65 65 65 65 65 65 65
! 2 65 65 65 65- 65 65 '65
~
3 65 65 65 -65 65 65 65 l 4 65 65 65 65 65 65 65 l 1 5 65 65 65 =65 65 65 65 -
lI 6 65 65 66 65 65 65 66 l 7 66 66 67 '66 65 65 66 j 8 66 66 69 67 65 65 67 9 68 68 72 68 65- - 6 5' -68 :
l j 10 70 69 -76 70 66 66 69 11 73 72 81 73 66 66 71 l
l 12 76- 75 86 76 67 67 74 13 81 79- 93 80 68 68- 77 l-l 14 86 83 100 84 69 69- 81 i 15 91 89 107 89 71 71 85 i 16 97 95 114 95- 73 73 90-l 17 103 101 -122 101 76 76- 95 l 18 110 =108 129 107. 79 -79 -101-j' 19 117 115 :136 113 82 84 107 20 123 122 14? 119 87- 89 -113 21 130 129 1b'J 125 91- 95 120 t 22 137 136 157 132 97 101 126
[ 23 24 144 150 143 150 163 169
-138
~145 103-110
-109 116 133 140 l
25 156 -156- 175 150 117 124 148-26 162 162 180 156 124 131 154 27 168 168- 184 161- 132 -138-- 1160 l 28
! 29 f 30 l 31 -207 207 208 196 188 204 200 l
32 211 211 210 203 203 -209 207 33 216- 215; 212 208 207- 212 209
~~34 218 221 -217 213 210 214 .210 4~~
35' 223 217 221 -217L 213 =214 210 3 36 229 215 :225 218 215: 213- 213 I 37 225- 220 232 219 215- 214 '212 i 38 221 229 .242 1226 216- '218 213-
- 3 9- 222 222 236 220 216 214 -214 40 222 224- 241 220 216 212; 214-L i
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, . - - , _ - _ - .-.-,-...a...,.-..,:.-.-
4 on- .. 1 l- 40 -1
~~Texas Utilities Electric Scheme #9 3 ' Decembsr 3,1992.~~
t l Time TC # 167 TC #- 168 TC # 169 TC # 170 TC # 171 TC # 172 TC # 173 i (min) (*F) - ('F) (*F) ('F) (*F)- (*F) - ('F) i
41 226 230 248 221 218. 215 215 42 232 238 251 222 219 215- 214 l
43 238 250 258 222- 221 216 214 i
l 44 244 254 263 220 221_ 217. 215 45 249 256 268 219 220 217 -216 46 255 . 259 274 218 220 217 215 5
47 261 264 278 217 221 218 215 i 48 266 269 284 215 221 220 215 I 49 273 278 288 215 221 218 215 l 50 280 288 293 214 - 221 217 214 j 51 288 295 298 214 221 - 215 214
j. 52 295 301 304 213 . 220 215 214
! 53 301 307 307 213 219 214 214 l 55 $$ $" $4 $$ $la $$ $lI l 56 320 323- 318 213 217 214 214 i 57 326 329 321 213 217 213 213 I 58 332 335- 326 214 217 213 213
! 59 337 339 - 331= 214- 217 213 213 6 343 344 335 217 216- 213 213 l_ 62
~~63 64 65 j -66~~
! 67
! 68 lr 69
70-I 71 MAX 343 344 335 226 221 220 216

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0 4ATO W "-g w ya -r ey-p y-v1--y- y y vy y 4 g rw- q aw-
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2 Texas Utiliti:s Electric scheme #9 3 D cembu 3,1992 Time TC # 171 TC # 175 TC # 176 TC # 177 TC # 178 TC # 179 TC # 180 (min) (*F) (*F) (* F) (*F) ('F) (*F) (*F) 0 65 66 66 66 65 65 65 1 65 66 66 66 65 65 65 2 65 66 66 66 65 65 65 3 65 66 66 66 65 65 65 {
4 65 66 66 66 65 65 65 5 66 66 66 66 65 65 65 6 66 66 66 67 65 65 66 7 67 67 67 67 66 66 66 8 68 68 68 68 66 66 67 9 70 69 70 70 67 67 68 10 73 72 73 72 68 69 70 11 76 75 76 75 70 71 72 12 81 79 80 78 73 73 75 13 85 84 85 82 76 77 78 14 91 89 91 87 80 81 82 15 97 95 97 93 97 86 87 q 16 103 102 103 98 103 91 92 17 110 108 110 105 109 97 98 18 117 115 117 111 121 103 104 1F 124 123 124 118 140 109 111 20 131 130 131 125 151 116 117 21 138 137 138 132 160 123 124 22 144 143 144 139 168 129 130 23 151 150 151 146 176 136 136 24 157 156 157 152 184 142 143 25 163 163 163 158 192 149 149 26 169 169 169 163 200 155 154 27 174 174 174 168 204 160 160 28 29 30 31 197 199 199 197 218 208 211 32 207 207 205 205 236 212 214 33 213 200 208 207 309 215 216 34 215 210 210 209 338 221 245 35 218 212 210 209 331 229 240 36 219 212 211 210 422 234 226 37 215 213 212 210 371 236 226 38 224 213 214 211 379 240 239 39 216 212 214 211 406 236 239
-3 40 218 212 213 211 424 233 232
.] 4 s * * *0s 0 a f" et 04ATO
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . l
241 Texas Utilitiss Electric Schsme #9 3 Dscsmb:r 3,1992 Time TC # 174 TC # 175 TC # 176 TC # 177 TC # 178 TC # 179 TC # 180 -
(min) ('F) (*F) (*F) ('F) ('F) (* F) ('F) 41 227 213 214 212 459 233- 235 42 216 213 214 211 451 234 235 43 216 213 217 212 522 236 239 .
44 217 213 215 212 514 240 249 l 45 217 213 216 213- 516 245 248 46 216 213 215 213 520 250 251 47 216 213 215 214 499 254 253 48 215 213 216 216 497.. 258 257 49 216 213 216 215 486 262. 261 50 216 213 215~ 214 479 267 266 51 215 213 214 214 477 273 270 52 215 213 214 214 475 280 276 53 214 212 213 213 475- 287- 283 54 214 212 213- 213 482 294 291 55 215 212 213 213 476 301 298 56 214 212 213 213 467 308 304 57 215 212 213 213 467 314 311 58 215 212 213 213- 463 ~321 318 59 214 212 213 213 452 327 325' 60 215 212 213 213 455 333- 332 61 ,
62 63 64 65 66 67 68 69 70 71 MAX -227- 213 217 216 522- 333 332 ga V o
,,A Of P- .
! 24 3
Texas Utilities Electric. Scheme _ #9 3 Decembsr 3,1992 i
]
Time TC # 181 TC # 182 TC # 183 TC # 184 TC # 185 TC # 186 TC # 187.
l (min) ('F) -('F) (*F) ('F) ('F)- (*F) ('F) 1 0 65 65 65 65- 65 65 65 ,
. 1 65 65 65 65 65- 6E 65:
2 65 65 65 65 65 65 65 4 3 65 65 65 65 65 65 65 4 65 65 65 65 65 65 65 1 5 65 65 65 65 65 65 65 l 6 66 66 66 65 65 -65 66 7 67 66 67 66 65 65 66 8 68 67 68 66 65 66 67 4 9- 70 68 70 68 66 66- 69=
10 73 69 72 69 66 -67 71 11 77 72 76 '72 67 68 74-
-1 2 81 75 80 75 68 70 78 l 13 86 79- 84 78 69 73 83 14 92 83 89 83 71- 76 88 15 98 88 94 87 73: 80 93 16 105 94 100- 92 77 85 99-17 111 100 105 98 82 91 105-18 118 106 112 104 89 98 111 118- 98- 106 118 19 125 113 110=
20 132 120 124 116 108 115 124 21 139 126 131 122 123 128 131 22 146 133 137 128 154 149 140 23 152 140 144 135 180 170 '153 24 159 146 150 141 194- 189 167 25 165 153 156- 148 201 200 184-26 170 159 161- 155 204 204- 196 27 175 - 164 166 -161 205- -206 203 28 29 30
-.31 212 211 -217 213 216~ 216 163 32- 223 219 220 221 219 220 163-33 229 230 226 236 226 229 '227
-34 237 248 233 240 2451 255 380 35 250 253 231 239 247 263- -416 36 250 266 237 247 245 259 402
-37 248 258' 250 245- 249 257 328- '
38 256- 260 254 - 244 245 249 395-
-39 257 252 249 233 237 243 __
357 40 250- 250 248 229 243 234 266 o
toA m s
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-- , - - ._ , _ , , - . . - . .._.._.m.._.. .. , - _,., .. ...._.,- - . .. ,...
! '243 Texas Utilitiss Electric Scheme #9 3 Dscambar :l,1992 -
i Time TC # .* 81 TC # 182 TC # 183 TC # 184 TC # 185 TC # 186 TC # 187 (min). (* F) (*F) (*F) (*F) (* F) (*F) (*F)-
41 254 248 247 226 252 F34 293 4
42 257 246 251 229 256 207 '295 43 266 255 256 228 259 233 277 i 44 271 254 258 230 257 233 262 45 277 259 257 231 252 234 254 l
46 283 262 262 232 247 231- 248 47 288 267 266 229 241 230. 244 48 290 272 270 230- 239 232 240 l 49 296 277 274 229- 239 226 235 50 300 281 279 229 236 221 233 l 230 51 306 288 284 227 233 -220-i 52 312 296 290 228 231 219 228 53 318 303 296 229 230 218 226 i '54 326 309 303 229 229 217 225 2 55 332 315 309 233 228 217 229 l 56 339 322 316 241 227 217 227 j 57 346 327 322 253 225 215 247 1 58 354- 335 329 269 224 216 228
! 59 364 342 335 280- 224 218 248 60 373 347 342 289 224 221 255 f
, 61 62 63 64 j 65 66 67
. 68 69 l -70 l 71 MAX -373 347' 342 289 259 263 416 i
l 1
.O. O
/ g%
~ .,
0 4ATO
-.-- -..-.~ - .-.-. . . . - - . - - . . - - . - . - - - . - . - . . . . . - . . - -
24 l Texas Utilities Electric Scheme #9 3 December 3,1992 I
Time TC # 188 TC # 189 TC # 190 TC # 191 TC # 192 TC # 195 TC # 197
, (min) (*F) ('F) ('F) (*F) (*F) (*F). (*F)-
1 0 65 66 66 66 -66 66 65 1 65 66 66' 66 66 66 65 -
2 65- 66 66 66 66 66 .65 3 65 66 66 66 66 67 65 4 65 66 66 66 68 72 65 5 65 66 66 66 '70 79 66 6 66 66 66 67 73 90 68
7 66 67 67 67 80 102 70 8 67 68 68 67 96 121 74 9 68 70 70 68 137 -155- 78 10 70 73 72 69 192 200 .84 11 73 76 75 71 257 261 92 12 77 80 79 72 321 350 100 13 81 85 83 74 358- 438- 105-4 14 86 89 87 .76 = 41'O 538 109 15 91 95 92- 79- -483 669 115~
16 97 100 97 82 595 861 124 17 103 105 102 85 801 .129 18 109 111 108 89 133
() 19 20 115 122 117 123 114 120 93 97 138 142 21 129 129 126 102 145 22 136 :136 134 109 153 23 146 143 140 117 160 24 163 154 146 127 166 25 186 188 155 138 171 26 201 202- 177 142 176 27 205 206 199 184 181 28 186 29 192 30 :198 31 216 217 217 227 204 284 32 223- 222 224 235 209- 291 33 225 224 226 248 '212 298 34 231 226 237 268 215 .305 35 228 228 235 271 219~ 311 36 231. 231 242 268 223 317:
37- 231 2301 251 258 227 -322 38 228 234 240 252 230 327 39 227 235 237 243 233 331 40 225- 233' 237 255 236 336 0 4? ## 0s -
e e OgATO
._ -. ~ . . - ,_..,.._..___m_..__ . _ _ _ _ __ _
1
! E$ j Texas Utilities Electric Scheme #9 3 December 3,1992 i I l
Time TC # 188 TC # 189 TC # 190 TC # 191 TC # 192 TC # 195 TC # 197 :
~~- (min) (' F) (*F) ('F) (*F) (*F) (*F) (* F)~~
! l 41 230 234 234 262 239 340 i
! 42 234 238 236 264 242 344 !
! 43 240 241 242 -271 245 349-44 243 240 243 269 248 353 !
l 251 357 i 45 241 239 239 264
! 46 235 236 232 253 256 362
~~47 233 232 229 248 259 368~~
! 48 230 228 227 240 262 373
, 49 228 226 225 237 265 379
~~50 226 224 223 232 268 385~~
! 51 224 221 221 231 271 391
! 52 222 220 220 228 274 398-l 53 220 218 220 227 278 405 j 54 219 217 219 224 281 412 i 55 219 216 218 224 286 419 I
56 218 215 217 222 292 427 57 216 214 215 221 297 436 i 58 217 214 215 219 303 444 I
59 216 213 214 218 308 454 60 216 213 214 217- 314 464
~~- 61 i 62 l~~
63 64 65
, 66
~~67 f~~
68 j 69 70 71-MAX 243 241 251 271 801 861 464 l
1 4
1 e
~~o ,. . . A 0; -~~
i- Ogggo
,e e Texas Utilities Electric Scheme #9 3 Decembsr 3,1992 Time TC # 198 TC # 199 TC # 200 TC # 201 TC # 202 TC # 203 TC # 204 (min) ('F) (* F) (*F) (*F) (*F) ('F) ('F) 0 65 66 65 65 65 65 65 1 65 66 65 65 65 65 65 2 65 66 65 65 65 65 65 3 67 68 68 67 67 65 65 4 70 72 73 71 72 66 66 5 75 77 81 78 78 69 67 6 83 83 91 87 87 72 71 7 91 91 103 97 97 75 77 8 101 98 115 108 106 79 96 9 111 106 127 118 115 83 128 10 121 114 137 128 124 87 156 11 131 122 148 139 135 91 166 12 141 129 158 150 145 95 190 13 150 136 166 163 153 100 213 14 160 144 177 178 158 107 239 15 170 151 191 197 173 108 261 16 179 159 205 219 192 109 290 17 187 166 224 243 227 116 308 18 194 174 249 280 258 123 316 19 200 182 266 330 305 132 300 20 206 194 274 343 319 137 337 21 211 206 289 321 296 145 335 22 215 210 335 344 269 151 425 23 221 212 379 392 276 157 481 24 227 213 400 458 297 162 518 25 234 214 416 433 291 168 562 26 240 214 424 417 305 177 586 27 248 215 437 420 316 183 563 28 258 218 440 421 334 191 551 29 267 229 456 432 335 199 536 30 276 242 474 455 351 209 550 31 250 477 476 364 224 551 607 32 257 469 492 374 233 550 590 33 264 467 500 376 233 538 575 34 270 462 509 320 231 522 559 35 276 454 516 328 231 504 547 36 282 448 517 342 230 493 530 37 288 436 517 349 227 480 522 38 294 431 507 356 225 460 513 l 39 300 427 499 364 228 437 498 I 40 305 422 493 372 232 419 487
,#^# 0, e A
O O RATD
h6 Texas Utilities Electric Schemo #9 3 Decembsr 3,1992 Timo TC # 198 TC # 199 TC # 200 TC # 201 TC # 202 TC # 203 TC # 204 (min) (*F) (*F) (*F) (*F) (*F) (*F) (*F) 41 311 419 483 446 240 395 473
. 42 318 420 478 439 246 382 464 43 323 421 475 435 252 372 4G3 44 329 425 475 434 257 363 463 45 334 430 478 433 260 354 463 46 340 437 484 435 262 349 460 47 346 443 489 435 264 346 458 48 349 450 497 437 265 345 453 i 49 348 460 508 440 268 341 455 50 350 470 516 443 271 341 462 51 352 481 521 445 275 344 466 52 355 493 529 410 278 348 475 53 359 507 537 419 281 352 482 54 364 521 543 427 285 357 489 55 369 535 551 437 288 363 498 56 376 549 562 447 292 368 508 57 390 564 573 458 296 375 517 58 406 578 590 469 301 384 527 59 418 593 609 480 305 393 536
( 60 431 608 622 491 311 394 546 4
61 62 63 64 65 4
66 67 68 69 70 71 MAX 431 608 622 491 351 551 607 4
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4O Texcs taJliti:s Electric Schtmo #9 3 D:ccmb:r 3; 1902
]
Time TC # 205 TC # 206 TC # 207 TC # 208 TC # 209 TC # 210 TC # 211 ,
(min) (*f-) ('F) (*F) ('F) (*F) (*F) (*F) i 0 65 65 65 65 65 65 65 L j 1 65 67 65 05 05 05 65 l 2 65 70 64 05 65 65 65 >
3 08 74 04 65 65 65 C5 !
4 73 81 64 66 65 05 65 i
{ 5 81 90 05 60 66 06 65
) 6 91 100 07 08_ 68 68 05 ,
~~7 110 109 70 72 72 72 00~~
~~8 153 111 73 77 - 77 78 60 !~~
i 9 181 _79 84 83 86_ '67 i 10 219 80 93 91 95 69 .
I 11 235 93 102 100- 106 71
! 12 284 103 113 112 - 115 73-13 320 116 122 124 124 77 i 14 338 128 132 135 135 81
[ 15 390 149 142 148- 144 80 i 16 461 158 - 152 150 153 91 1 17 521 175 159 166 160 98 I
18 559 197 - 167 -182 167 105- -
! 19 601 233 187 201 181 113 1 20 625 264 212 222 195 123 l 21 601 302 240 247 209 134 i 22 550 308 278 288 226 144 '
i 23 541 400 328 332 267 161
, 24 551 435 - 372 357- 298 171 l 25 541 435 398 359: 317 407
- 26 - 549 - 482 426-- - 383- - 341 467 4 l 27 556 401 441 383 353 '458
! 28 571 473 456- = 389- - 358 439
! 29 587 465 469 394- -~300 315 30 612 440.. 464 38T 352 383
! 31 435 450 387 : 346 265 226 -;
32 407 428 .367 335 370 224 33 401 -400 - 359 - 331 - 349 228
34 377' 400 356 325 342 228 35 364 387 - 349 320 33G- 227 .
36 357 377 344 316 343 .226
, 37 353 375- - 338 313- 347- 225-
, 38 348 371 335 310- 356- 222 ,
[ 39 343 370 335 309 362 219 40 341 374 342 308 365 220 lo tr...%, '
~~a et -.~~
{ 4AT srmy-- m------,, y-9,--..gy,y ,,,p.9 7y7-c. i.,.-qr- gpwh.i&w 9 _q % ygyy 9 my- +. g g-ni-- up-a .c'TM -9~k T7D9 ""+"'>shMyev' g FWT-T w9" W W -7
I n !
i
i j Texas Utilitlos Elsettic Schomo #9 3 Dscemb2r 3,1992 ,
i !
Time TC # 205 TC # 206 TC # 207 TC # 208 TC # 209 TC # 210 TC # 211 l (min) (*F) (*F) ('F) ('F) ('F) (*F) ('F) l 1
i 41 341 381 349 308 364 221 '
l 42 342 386 356- 309 367 224 l
. 43 343 391 361 311 366 227 i 44 345 396 365 314 367 224 i 46 345 401 370 319 365 227 46 347 405 374 323 362 - 230- ;
47 346 407 378 324 353 232 l l 48 347 410 382 325 303- 239 [
i 49 350 412 -387 327 224 246 :
! 50 356 414 390 331 218 251
. l l 51 358 416 392- 335 216 258 l 52 364 418 394 -340 215 264 l l 62 367 419 398 346_ 215 270
~~54 377 420 402 352 215 276 '~~
I 66 411 422 404 359 216 281 56 416 -423 405 364 217 286 7 57 422 423 410 370 219 292 ;
~~58 413 423 414 375' 220 296-59 376 423 421 380 222 299~~
'~ 60 498 424 428 386 225 303 61 ,
62 ,
63 -
!' 64 ,
65
! 66- ,
i l 67 66 i
69' '
70 71 i MAX 625 438 ~482 469 394- 370 467-i
~~i O .,m 7u, -~~
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Texas utilitios Electric Schomo #9 3 December 3,1992 Time TC # 212 TC # 213 TC # 214 TC # 215 TC # 21G TC # 217 TC # 218 (min) (*F) ('F) ('F) ('F) (*F) (*F) (*F) 0 05 65 06 65 OS 65 65 1 65 65 60 05 05 05 65
. 2 05 65 60 65 65 65 65
3 65 65 06 05 05 65 OS 4 05 06 06 G5 65 GG 65 l 5 00 07 67 00 GG 67 00 6 68 09 09 08 08 70 00 7 71 73 73 71 71 74 GB 8 70 78 77 75 70 80 09 l
9 82 86 83 81 84 88 74
, 10 89 94 90 88 91 90 77 11 97 103 99 97 98 100 78 12 100 113 107 108 112 117 83 13 115 123 116 121 124 127 92 1 14 125 134 125 133 144 141 121 i 15 134 143 134 143 102 156 135 4 16 143 151 142 156 179 172 151 17 152 161 151 175 193 191 183 18 160 170 159 199 214 220 231
() 19 20 170 179 181 192 168 177 227 272 240 278 258 327 327 407 21 192 201 184 360 381 425 503 j 22 200 200 189 452 481 535 000 j 23 208 217 190 500 521 624 670 24 218 225 203 540 519 690 675 25 221 229 200 545 527 731 677 1
26 224 235 209 557 525 753 644 27 230 235 212 505 516 752 610 28 234 230 214 509 504 750 609 29 231 237 214 509 498 733 604 30 225 236 214 539 480 692 581 31 239 214 500 462 647 552 057 32 239 213 456 448 001 511 593 33 243 213 430 431 559 474 579 34 249 213 411 419 532 439 577 35 255 213 394 410 516 406 565 36 256 213 383 398 498 384 556 1 37 259 213 370 393 478 363 543 38 263 214 308 385 400 342 527 39 264 215 307 376 441 327 508 40 267 215 368 370 429 315 494
- mg o ;- a i
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Eu~
Texas Utilitios Electric Schomo #9 3 December 3,1992 Time TC # 212 TC # 213 TC # 214 TC # 215 TC # 210 TL # 217 TC # 218 (min) ('F) (*F) (* F) ('F) (*F) ('F) ('F) j 41 208 216 372 365 421 303 484 42 272 217 374 363 421 292 477 j 43 265 217 377 303 423 283 474 I 44 209 219 381 365 425 277 470 f I
45 273 221 382 365 425 269 464 46 270 222 385 300 420 203 459 ;
47 274 223 387 305 420 255 451 i 48 272 224 390 365 420 259 448 49 275 225 392 370 421 200 449 50 277 226 394 372 419 204 447 51 282 227 397 372 418 263 444 52 280 228 397 375 415 264 443 53 290 228 396 370 413 267 440 54 295 229 397 384 413 270 440 55 301 229 399 380 414 276 439 56 304 230 401 389 417 280 436 57 308 232 403 394 420 284 437 58 316 232 400 404 423 280 436 59 314 234 410 418 427 289 438 60 310 234 415 430 430 291 438 61 62 63 64 65 66 67 68 69 70 71 MAX 316 237 500 569 647 753 677 g?d[,0e of p ofat
k Texas Utilitios Electric Schomo #9 3 December 3,1992 ,
l 1
Time TC # 219 TC # 220 TC # 221 TC # 222 TC # 223 TC # 224 TC # 225 (min) ('F) (*F) (*F) ('F) ('F) (* F) (*F) 0 05 05 05 05 65 65 05 1 65 05 05 65 65 05 65 2 05 65 00 05 05 05 OS 3 65 05 00 05 00 00 00 4 60 00 00 00 69 09 70 5 07 67 67 67 73 75 70 0 09 09 70 08 78 82 84 7 73 74 73 71 85 90 93 0 79 81 77 74 93 99 102 9 90 88 87 77 104 130 114 10 99 90 94 82 119 182 129 11 108 107 102 88 145 205 149 12 119 123 111 90 175 249 172 13 124 144 122 104 215 288 200 14 131 188 134 112 252 345 232 15 148 217 141 122 298 389 255 10 173 227 174 129 338 428 281 17 222 251 214 138 381 400 315 18 308 290 370 148 409 553 347 O 19 20 400 409 344 388 451 540 157 108 421 428 578 590 305 300 21 503 381 753 180 420 545 359 22 017 554 824 207 400 510 343 23 040 013 872 210 353 470 325 24 074 022 890 218 323 418 308 25 078 037 854 219 311 375 289 20 710 005 838 220 313 340 279 27 725 080 851 223 314 297 271 28 720 090 853 225 315 277 208 29 709 715 840 222 315 273 272 30 690 700 807 221 320 271 275 31 087 753 221 322 209 277 32 044 073 218 323 274 281 33 015 000 219 323 272 285 34 577 557 218 325 271 283 35 543 521 222 329 270 287 30 515 487 224 333 279 295 37 485 457 225 338 281 304 38 458 433 229 343 285 311 39 432 417 234 340 289 318 40 414 394 237 350 290 324 OA A O A
~~s. + ).~~
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Texas Utilities Electric Schomo #9 3 Decemb:t 3,1992 l
Timo TC # 219 TC # 220 TC # 221 TC # 222 TC # 223 TC # 224 TC # 225 (min) (*F) (*F) (*F) (* F) ('F) (* F) (*F) 41 385 373 240 355 304 328
42 369 350 245 301 309 334 l 43 349 333 249 307 310 339 44 330 317 255 372 322 344
! 45 320 299 201 379 330 349 46 302 280 207 385 340 350 47 291 204 274 390 347 303 48 279 254 280 390 350 370 49 268 245 287 402 368 378 50 258 234 295 409 381 380 51 249 224 303 415 393 393
52 245 212 310 422 405 400 53 241 204 317 430 418 408 54 233 199 323 438 431 416 55 231 192 326 445 445 424 56 225 182 320 453 457 432 57 218 170 326 401 469 439 58 211 168 340 472 481 448 59 211 161 353 480 494 456 60 210 156 307 490 504 465 61 62 63 64 65 66 67 68 69 70 71 MAX 725 753 890 490 504 590 360
/m
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o( ," yQ
, \, '; 'f 0 [o
23 Texcs Utilitiss Electric Schorno #9 3 Decemb;r 3,1992 Time TC # 226 TC # 227 TO # 228 TC # 229 TC # 230 TC # 231 TC # 232 (min) ('F) (*F) ('F) (*F) ('F) ('F) ('F) 0 05 65 US 00 05 05 65 1 05 05 65 00 05 OS 65 2 05 05 (. 5 60 05 OS 60 3 05 05 (0 07 00 08 70 4 06 05 70 71 09 72 80 5 09 00 70 75 74 78 91 4 0 72 08 84 81 81 85 99 7 75 71 92 88 88 93 113 8 85 77 101 95 90 107 130 9 97 70 110 103 104 120 170 10 100 91 122 110 115 149 197 11 110 101 137 119 133 197 250 12 131 114 153 129 150 294 311 13 142 120 171 138 191 377 354 14 158 132 180 140 218 403 402 15 173 142 201 153 201 538 498 16 184 159 214 101 291 583 576 17 195 170 225 109 324 038 008 18 195 177 237 178 378 079 094 19 190 183 244 187 433 058 050 20 191 185 253 190 478 037 019 21 196 178 245 203 473 022 037 22 210 189 238 207 433 509 009 23 211 198 234 208 432 573 020 24 204 207 232 209 415 531 573 25 206 215 230 209 392 517 534 l
26 207 218 230 210 300 522 487
27 207 218 233 210 334 489 439 28 210 211 221 241 319 472 398 29 215 223 250 211 302 459 308 30 221 220 257 212 293 450 350 31 224 227 264 214 287 443 333 32 226 227 272 218 287 446 321 33 228 226 280 224 284 431 307 34 221 225 280 237 278 406 290 35 216 225 293 249 271 392 274 36 214 220 299 258 272 378 200 37 214 227 307 206 271 376 201 38 215 229 314 272 203 368 258 39 213 231 321 279 259 303 254-40 212 233 329 285 201 360 254 45o.m9 i s.g
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Texas Utilities Electric Schomo #9 3 Decemb:r 3,1992
] Time TC # 226 TC # 227 TC # 228 TC # 229 TC # 230 TC # 231 TC # 232 j (min) (*F) (*F) (*F) (*F) (*F) ('F) (*F) 41 213 230 335 292 209 304 255 42 210 239 342 296 275 377 257 43 220 243 349 304 283 380 202 44 223 247 350 311 287 393 201 45 220 252 304 317 294 401 203 46 228 257 371 324 300 400 208 47 231 202 379 331 304 410 278 48 232 207 387 339 307 412 289 49 234 272 390 347 302 413 298
50 230 270 405 350 304 414 311 51 237 281 414 307 308 417 329 52 238 285 424 378 317 423 340 53 240 290 434 389 324 432 302 54 241 294 445 390 327 442 380 55 243 298 450 412 330 451 397 56 245 302 408 420 349 403 419 57 249 300 480 438 304 477 442 58 254 310 492 453 380 492 405 59 259 313 504 404 390 509 485 60 205 318 515 473 413 528 502 61 62 63 64 65 66 67 68 69 70 71 MAX 205 318 515 473 478 079 094 I
OAA pA 14 r er s, Ohggo 1
EU!
Texas Utilities Electric Schsmo #9 3 Dscambst 3,1992 Time TC # 233 TC # 234 TC # 235 TC # 236 Amblent Furnace # 1 l (min) ('F) ('F) ('F) ('F) (*F) ('F) 0 65 65 65 06 65 65
-1 65 05 05 00 05 111 ,
2 65 65 06 60 00 217 3 66 65 06 67 65 501-4 69 66 09 70 05 773 l 5 72 67 74- 74 65 820 6 76 69 80 80 65 816 7 84 71 88 86 65 936 8 136 74 96 99 65 1244 9 183 80 111 119 05 1313 10 231 136 142 :189 65 1275 11 298 181 260 224 05 1230-12 367 257 322 327- 65 1293 13- 439 334- 411- 433 66 1374 14 544 421 478 513 o66 1412- ]
15 681 560 559- 553 '06 1379 i 16 747 606- 635 6051 66 1319 17 822 685 710 687 65 1308 l 18 880 748 -780 746 o65 1355
() 19 20 867-885 772 823 839 883 752 773 05 65 1430 1491 21 863 856 940 813 66 1511 i 22 817 908 1043 804 06 1517-23 816 903 1065 725~ 66 1486 24 787 848 1058 075 o66 1433 25- 788 794 957 612 66 1384 ,
26 722 '743 850 550- 66 '1338 27 642 647 761 479- 66 1304 l 28 585 569 700 .431 66 1331 -
29 537 521 644- 406- 66 1453 30; 506 ~4 84 - 595 388 67 1574 31 472 -453 -565 374 -66 1569 32 444 427 547 354 67- -1521 33 o411- 401 .525 338 67 1504 34' 378 357 498 318-- 67 1529 -
35 339 322 480 295- 67 1548 36 - 309- -299 464 279 66 1530.
37 297 -280- D4511 -266- 67 1528 38 287 260 445 253_ 67 1544 39 270 243 443- 243 67 1559 40 264 237 443 230- 67 1569 h?'
w
Texas Utilities Electric Schomo #9 3 Doccmbor 3,1992 Time TC # 233 TC # 234 TC # 235 TC # 236 Ambient Furnace # 1
(min) (*F) (*F) (*F) (*F) (*F) (*F) 41 205 235 444 221 68 1578 42 207 230 445 214 68 1587 43 268 243 445 220 08 1594 44 267 241 444 219 68 1603 45 208 248 449 228 68 1600
, 46 270 253 401 243 08 1004 47 271 255 469 242 68 1607 48 273 201 406 250 07 1011 49 275 209 405 250 07 1014 50 270 280 407 273 68 1019 51 278 293 408 288 67 1625 52 279 310 467 304 67 1629 53 282 327 407 319 G8 1631 54 288 345 408 338 67 1634 55 292 302 468 355 07 1839 56 299 377 474 372 07 1G47 57 308 388 479 388 68 1653 58 317 398 488 405 67 1658 59 327 405 495 419 07 1663 O 60 61 339 413 500 433 07 1GGG 62 63 64 65 66 67 68 69 70 71 MAX 885 908 1065 813 (t
%)/
E~U Texas Utilitias Electric Schomo #9 3 Docombor 3,1992
' Time Furnace # 2 Furnace # 3 Furnaco # 4 Furnace # 5 Furnaco # 6 (min) (*F) ('F) (*F) (*F) ('F) 0 65 65 65 65 65 1 116 153 119 98 110 i 2 277 601 431 299 390 3 661 1067 949 706 920 4 876 1082 1051 000 1090 5 896 1005 1010 925 1056 6 869 955 957 895 990 7 984 1236 1107 1016 1138 1447 1429 1303 1427 8 1300 9 1395 1424 1463 1389 1495 10 1333 1341 1396 1349 1430 11 1279 1302 1336 1300 1374 12 1328 1429 1388 1356 1428 13 1412 1513 1484 1464 1525 14 1450 1479 1500 1516 1564 15 1415 1408 1441 1465 1531 16 1356 1335 1373 1398 1462 17 1340 1343 1358 1383 1438 18 1377 1416 1404 1428 1484 19 1451 1506 1487 1510 1557 20 1511 1549 1550 1871 1621 21 1535 1549 1562 1588 1629 22 1544 1549 1566 1592 1629 23 1509 1487 1520 1577 1602 24 1458 1428 1459 1511 1560 25 1416 1379 1410 1460 1512 26 1372 1329 1365 1423 1465 27 1338 1307 1333 1393 1431 28 1355 1396 1371 1409 1448 29 1473 1639 1554 1523 1581 30 1599 1731 1692 1645 1712 31 1590 1612 1636 1645 1688 32 1542 1527 1563 1603 1630 33 1528 1523 1542 1577 1601 34 1549 1571 1571 1592 1620 35 1569 1581 1500 1610 1642 36 1555 1552 1568 1598 1622 37 1552 1557 1564 1593 1617 38 1567 1582 1582 1604 1628 39 1579 1599 1598 1616 1640 7- g 40 1589 1609 1610 1624 1651 V g0d( .
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j EU O j J
Texas Utilitlos Electric Schsmo #9 3 Dscimb:r 3,1992 I
l Time Furnace # 2 Furnace # 3 Furnaco # 4 Furnace # 5 Furnace # 6 j (min) (*F) ('F) ('F) (*F) ('F) i
] 41 1598 1618 1621- 1633 1663 1 42 1007 1626 1629 1041 1074 ,
j 43 1611 1032 1635 1047 1680 44 1620 1038 1840 1650 1697 ,
45 1623 1639 1043 1660 1696 I 46 1022 1839 1644 1601 1896
! 47 1624 1641 1046 1663 1701 j '
j 48 1630 1641 1047 1062 1703 49 1633 1643 1650 1604 1710 60 1635 1649 1050 1669 1710
) 51 1G39 1660 1003 1076 1719
l. 62 1643 1664 1666 1678 1719-53 1047 1608 1009 1680 1719 54- 1651 1670 1672 1082 1721-
) 65 1650 1672 1670 1084 1728 i 66 1660 1681 1684 1692 1736 67 1667 1090 1692 1698 . 1744 l 58 1671 1700 1896 1703 . 1740
+
59 1675 1701 1099 .1707 1748
{
60 1679 1701 1702 ' 1708 1753 j 61 i 62 63 64
, 65 ,
4 66 67-68 69 70
- 71 MAX t
%[fs:W TrP=- P "r e MTw m>T'W+P mr"'e1 4: m
T- Pm9 $ + me '*e-- wi-m.'+e -gmaW epwf '-mr e r$'1_9 PW-T-'4-WS9 N-+ +y1r--T-
.__. . . . - - _ _ . . _ _ . . _ . . _ _ _ __ .= _. _ - _ _. . . _ . _ _ . _
i non 40o-i Tex:s Utilitiss El:ctric Schtm3 #9 3 D:csmber 3,1992 Time Furnace # 7 Furnace # 8 Furnace # 9 Furnace # 10 (min) ('F) (* F) (* F) ('F) 0 65 65 65 65 i 1 103 92 118 176 j 2 260 243 512 485 3 547 620 1043 931 I
4 720 819 1152 1023 2
5 765 858 1093 969 l- 6 766 842 1019 929 7 883 953 1182 1125 8 1160 1251 1462 1455
] 9 1249 1341 1520 1439 10 1202 1292 1479 1353
11 1159 1252 1425 1293 i 12 1234 1308 1470 1362 13 1325 1385 1546 -1458 14 1355 1424 1569 '1459 l 15 1315 1386 1518 1401 16 1254 1329- 1458. 1326
. 17 1255 1318 1434 1318 2
g 18 1310 1362- 1476 1373 l Q 19 20 1376 1439
-1442 1502 1547 1604 1466 1522 il 21 1467 1528 1618 1525 l 22 1479' 1537- 1616 1525 23 1440 1497 1584 1477
{ 24 1385 1441 1530 1427.
25 1331 1401 1481- 1378-1 26 1279 1356 1440 1328 i 27 1251 1322 1407 1293 l 28 1292 1342 1437- 1333 29 1416 1465 1605 1524 e 30 1540. 1588 1726- 1673 l 31 1521 1575 1691 1603 32 1477 1527 1628 1528 33 1469 1516 1598 1512 F 34 1498 1541 1617- 1541 35- 1517 1562 1636 1561 36 1501 1547 1618 1539 37 1502 1545 1616 -1537 38 1519 1559 1627 1553'
.39 1532 1572- 1639~ 1569~
40 1544 1583 -1650 15801 fd* -
c.(#v 8 .,
O o
Texas Utilitias El:ctric Schsmo #9 3 Dscemb:r 3,1992 i
l Time Furnace # 7 Furnace # 8 Furnace # 9 Furnace # 10 t (min) (*F)- (*F) (*F) (*F)
( i j- 41 1554 1592 1601 1592
42 1563 1000 1607 1600 43 1571 1007 1070 1610 4 44 1578 1012 1681 1814 45 1582 1010 1080 1614
) 46 1582 1617 1687 1621 47 1585 1010 1089 1623 48 1591 1023 1091 1621
' 1098 1625 49 1594 1626 50 1599 1031 1706 1631
- 5_1 1004 1635 1700 . 1639 l 52 1609 1040 1710 1641 ,
~~53 1612 1843 1712- 1646 '~~
t' 54 1014 1645 1713 1648
} 55 1620 1050, 1717- 1850-
! 56 1627 1637 1720 1603 1 57 1634 - 1663 1732 ' 1076 ,
i 58 1639- 1608' 1734 1680
~~i. 59 1044 1071 1738- 1682~~
) 60 1646 1674 1741 1084-
, 61 l: 62 l 63 i '64 l 65 i 66 67;
{_
66-69 l- 70
71
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Report No. 12340 94307). Docender 28, 2002
{ APPEND 1CES
.,! Texas Utilities Electric i 1 t 1
4 j
1 i
I u
v i
2 4
i Appendix H QUALITY ASSURANCE i
I 1
i 1
L fi e
0gg90
. _ . _ _ __ . , . , . , . , _ . . _ , _ _ . . . . _ _ _ . . . , . - ._ _ . _ _ _ , . _ _ . . . . . , . _ _ _ . . _ . . . . _ . . . . , . ~ . , _ _ . . _ _ , . . . . , _
oe 4L Itcport No. 12340 94307j Deceinbr 28,1992 Texas Utihties Electric APPENDICES O
Quality Assurance Statement Omega Point Laboratories, Inc. is an independent, wholly owned company incorporated in the state of Texas, devoted to engineering, inspection, quality assurance and testing of building materials, products and assemblics. The company has developed and implemented a Quality Assurance Program designed to provide its clients with a planned piocedure of order and document processing for inspection and testing services it provides to assure conformity to requirements, codes, standards and specincations. The Program is designed to meet the intent of ANSI 45.2 Quality Assurance Program Requirements for Nuclear Power Plants, and complies with the requirements of the ASME Code, SPPE, Military Standards and other less stringent programs. It is the Laboratory's intention to adhere strictly to this Program, to assure that the services offered to its clients remains of the highest quality and accuracy possible.
The overall responsibility of the supervision, operation and coordination of this Quality Assurance Program is that of the Quality Assurance Manager, a person not involved with the performance of the inspection or testing services, and who is under the full time employ of the Laboratory. This individual is responsible for implementing and enforcing all procedures presented in the Quality Assurance Manual and the Procedures Manual. All personnel involved with activities which fall under the scope of this Program are required to cooperate with the letter and intent of this Program.
All QA Surveillance documents remain on file at the Laboratory, and are available for inspection by authorized personnel in the performance of an on site QA Audit. All materials, services and supplies used herein were obtained with appropriate QA Certincations of Compliance, which may be found in the follovdng pages.
A V fo A e.
O. %
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Heport No. 12340 94307J Decemlier 28,1992 Texas Utilities Electric API'ENDICES 1
i i
1
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1 1
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Acceptability Documentation i
n 1
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ACCEPTABILITY DOCUMENTATION SCIIEME # 9 3: PROJECTNO.943G7 J The following signatures attest to the review and acceptance of each attribute listed regarding the above noted test article:
I. CABLE TRAY / CONDUIT ASSEMBLY m
^
Ome a oint Laboratories, Inc.
V $V VA' Dale c_Q.h @ , 9-28-N TITElectrictCPSES) Date V
II. ELECTRICAL CABLE INSTALLATION
,: ==A /0l/Vf92 Ome ' t Laboratories, Inc. Date '
aS . > lD-I A- R'2.
TITEIdctric (C ) Date III. TIIEILMOCOUPLE INSTALIATION ,
Ome s
, , = ^ -
'nt Laboratories, Inc.
/0ll9l1X Date '
Of 3 o 10-19-9 2.
(
T}Ftric(C 'ES) Date p' %
,4,
2C Acc:ptability Documentathn I%)ect 94367 J Scheme #9 3 Page 2 of 2 O
IV. FIRE PROTECTION BARRIER
/0/2 tb7L Ome ' int Laboratories, Inc. Dat4 o8 C>.*dd Io-22.C)2.
hEl&ctric (CeSES) Date D
V. FINAL PRE. BURN INSPECTION
,= =
t Laboratories, Inc.
/2/3/92 O Dati dmega
P'~*
O TUBled.ric (CPSRSJ Date g
_._ . . _ - . . - _ - . . . -.. _. . _ _._ . ..__ _ .. . -.. . _ ~. - . . . .
e l Repor No.12340 94307j Deccinte 08,1992 Texas Utiiit: = Electric Al'PENDICES i
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l l Event Log i
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l EVENT LCG PROJECT NO. 943G7 TU ELECTRIC O
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0
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EVENT LOG 3 PROJECT NO. 94367 TU ELECTRIC NOTE:
This Log is to be used to document the date and item for each step during the completion of
, the above referenced test project. The assigned project numbers for each of the eleven test assemblies are:
Scheme #91: 94367 A Scheme #113: 94367 G j Scheme #9 2: 94367B Scheme #12 2: 94367 H I Scheme #101: 94367 C Scheme #121: 943S7I Scheme #10-2: 94367 D Scheme #9 3: 94367 J Scheme #:11 1: 94367 E --Scheme + 04; ^490 M - 6 8 Scheme #:112: 94367 F -
All events of any importance should be noted in this Log. Page No. l ITEM DATE INITIALS I
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( EVENT LOG D PROJECT NO. 94367
$ TU ELECTRIC NOTE:
This Log is to be used to document the date and item for each step during the completion of the above referenced test project. The assigned project numbers for each of the eleven test assemblies are:
Scheme #91: 94367 A Scheme #113: 94367 G Scheme #9 2: 94367 B Scheme #12 2: 94367 H Scheme #101: 94367 C Scheme #121: 94367I Scheme #10 2: 94367 D Scheme #9 3: 94367 J Scheme #:11 1: 94367 E --Scheme-MO 3. 5496Nt c d Scheme #:112: 94367 F All events of any importance should be noted in this Log. Page No.2.
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( EVENT LOG 3 p PROJECT NO. 94367 V TU ELECTRIC NOTE:
This Log is to be used to document the date and item for each step during the completion of the above referenced test project. The assigned project numbers for each of the eleven test assemblies are:
Schems #9-1: 94367 A Scheme #113: 94367 G Scheme #9-2: 94367B Scheme #12-2: 94367 H Scheme #101: 94367 C Scheme #121: 94367 I Scheme #10 2: 94367 D Scheme #9 3: 94367 J Scheme #:11-1: 94367 E --Scheme 410t--94367-K-( t/
Scheme #:112: 94367 F All events of any importance should be noted in this Log. Page No.3 ITEM DATE INITIALS m__
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~~%.-) TU ELECTRIC NOTE: 1~~
' This Log is to be used to document the date and item for each step the above assemblies are: referenced test project. The assigned project numbers for Scheme #91: 94367 A ' Scheme #9 2: 94367B Sch6.m? #113: 94367 G Scheme #101: 94367C Schenie #12 2: 94367 H Scheme #10 2: 94367D Scheme #121: 94367I Scheme #:11 1: 94367 E Scheme #9-3: 94367 J Scheme #:112: 94367 F -Scheme-#ttF3--94367 K' d N All events of anyimportance should be noted in this Log. ITEM Page No. y a~, .-7:e i.' h e *./ DATE INITIALS
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( c:. EVENTLOG 3 PROJECT NO. 943G7 O NOTE: TU ELECTRIC This Log is to be used to document the date and item for each s the above referenced test project. The assigned assemblies are: projectofnumb ng the completion Scheme #9-1: 94367 A c o the eleven test Scheme #9 2: 94367B Scheme #113: 94367 G Scheme #10-1: 94367 C Scheme #12 2: 94367 H Scheme #10 2: 94367D Scheme #121: 94367 I Scheme #:11 1: 94367 E Scheme #9 3: 94367 J Scheme #:11 2: 94367 F M emeMG3. 9436' tie- d # We he M
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~~$ TU ELECTRIC NOTE:~~
This Log is to be used to document the date and item for each step during the completion of the above referenced test project. The assigned project numbers for each of the eleven test assemblies are: Scheme #91: 94367 A Scheme #113: 94367 G Scheme #9 2: 94367B Scheme #12 2: 94367 H 9 1 Scheme #10-1: 94367 C Scheme #121: 94367 I l Scheme #10 2: 94367 D Scheme #9-3: 94367 J L Scheme #:11-1: 94367 E S h i *44 3: 3496 Pit 6# l Scheme #:11 2: 94367 F Scheme #13-1: 94367 L i Scheme #141: 94367 M All events of any importance should be noted in this Log. Page No. (, ITEM DATE INITIALS J . , .6 .- w we.-j ' w.h J/ /:1- r 9%M; 6.M--
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This Log is to be used to document the date and item for each step during the completion of the above referenced test project. The assigr.ed project numbers for each of the eleven test assemblies are: Scheme #9-1: 94367 A Scheme #113: Scheme #9 2: 94367 G 94367B Scheme #12 2: 94367 H Scheme #10-1: 94367 C Scheme #121: 94367I Scheme #10-2: 94367 D Scheme #9 3: 94367 J Scheme #:11 1: 94367 E -- Ocheme 0 0-3. 34367 K- 6d Scheme #:11 2: 94367 F Scheme #131: 94367 L Scheme #141: 94367 M All events of any importance should be noted in this Log. Page No. 7 ITEM DATE INITIALS M ' '. . o i h 2. _ Ju* wo s , 4 W 2,! c . v% fai a-, n/'!s2 /5 1 ' % ', q .
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( EVENTLOG 3 PROJECT NO. 94367 4 TU ELECTRIC NOTE: This Log is to be used to document the date and item for each step during the completion of the above-referenced test project. The assigned project numbers for each of the eleven test i assemblies are: Scheme #9-1: 94367 A Scheme #11-3: 94367 G Scheme #9-2: 94367 B Scheme #12 2: 94367 H Scheme #10-1: 94367 C Scheme #121: 94367I Scheme #104" 94367D Scheme #9-3: 94367 J Scheme #:11-1: 94367 E - Schenie "10 3. 94367 K - C9/ l Scheme #:112: 94367 F Scheme #13-1: 94367 L Scheme #14-1: 94367 M
< All events of any importance should be noted in this Log. Page No. T ITEM DATE INITIALS C/ A 4le.ththh M i ' Armid to'/3/47 dei pj /t.8 p_ J . ,) / h * ' s n.a , b _ 2 n . v > b ' -/hf;jW.1 1 " '
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TU ELECTRIC

[7v) ! NOTE: the above-referenced assemblies are: test project. The assigned even test 1 Scheme #9-1: 94367 A Scheme #9 2: 943678 Scheme #113: 94367 G Scheme #10-1: 94367 C Scheme #12-2: 94367 H Scheme #10-2: 94367D Scheme #12-1: 94367I Scheme #:11-1. 94367 E Scheme #9-3: 94367 J > Scheme #:11-2: 94367 F -Scherr.e # i0-1 9436PM-6 # Scheme #13-1: 94367 L _ All events of any importance should be noted in this 94367 Log. SchemeM #14-1: ITEM Page No, /c) % d-a -< h< f l As A e *-u AIL / / 2 DATE INITIALS W& iD/W9.;L EW'~1A A -u % M AM ./And. l19 2 04/ dt*241N ed 2 t/-2 Av +4 ' ' dAf JL'h % w24 iW %Lrnets i Ax.L /OlRl#.1 OO O at t # d c rt.e s , n u la Il-/ N4 / J/se"-MOfbd' . M(Awd -b-n 2Asn to/9/ M um A> sAJzniM2.'><.M$d / W es n 'd--c4L JA6%fj __ IGG McAm.;a na' Ace-M wi.-e 2& " ex- tudu%Aert 7AAsra- W Ws 2 (1 tf- _.761 % ue / 6 ini w s x - A x % M < 4es Ji A c-8 . .A M & .c v ArAh X n - c- , ~ ~

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h . ku3"doAz2<rkj t r u.s-c.s a .o A %4ps~ n - A e;1smJ ka s.<-- - /s/n/W cat- ' \ Affsju t /Wa-/ - U% AfM/ e & ?? / / 'l L O N ! M u ~ 4R'&A2h o ir/Aks---dAL AR&d ? \ psasii Uwl7;f s.-m ARzes /l-3> to/n M L Gbf - A Asw. ', A i, , /s-7 mft7ihmx&v eleM%ht GPI n > i 1 .n . EVENT LOG 3 i l PROJECT NO. 94367 TU ELECTRIC ! NOTE: This Log is to be used to document the date and item for each step during the completion of the above referenced test project. The assigned project numbers for each of the eleven test assemblies are: Scheme #91: 94367 A Scheme #11-3: 94367 G Scheme #9-2: 943678 Scheme #12 2: 94367 H Scheme #10-1: 94367 C Scheme #121: 94367 I Scheme #10-2: 94367 D Scheme #9-3: 94367 J Scheme #:11-1: 94367 E 4 hem #10 3: 0496PM d* , Scheme #:11 2: 94367 F Scheme #13-1: 94367 L Scheme #14-1: 94367 M All events of any importance should be noted in this Log. Page No. / / ITEJA DATE INITIALS Ald1/sw //-l /Atum Yxa k.9&c) Mllt,1lGA C(+ 2NTirAesL $ k lAM /) " M _ -/2? ' $rtlYf I'44s$ . A /bL$$t$Y llhe Ah jmw . rL :&dswd G4 . # 210d J#sshFni-EtM fMA A k 'di fAMd Ada, sis & /z;45 -t- M. ~ " , b~fEdith119 /1./>fn- ez4e MDnew&vs(r//AV . ON 1 ~~lLA Ol$ 8t*'AkYhbmM E)&taf 9'!B l DfM& o hsp- nudi1/2t E, 77/ 2k/Z,. ~T -l., isha/4 >- c2 % cbn v cx- Z7ft / 2 h ,1 A'lt fAs, , s% k M .On it-i it- 7 n // =; >$- 'u ' s i M W e k s . , , Ai/4- /2AL A&n5ML A's,v ~X4l ~ 'O// Gf1- W ~ a eaM tz w em Akra //-/ u .dd n+4. //- A. 4 , d t fu Il % ~132-c + o t ~Af4%A:-tLtd. .4 .cw, 1sN N)724fdsn. W _ .- dc-e~:V~o-D A' I' /Qt.-ng%; #7h,< , > 4 2, invahlfp2 uvi . dru.ntfd iM4 @%Ah o v ah)oA' ? riss+ aithx, . L/ Dn *' "' I Y 3'LA M eda lf)I$ d t dhb M n-/ x.w/- /W/fdra CA/- ausad: W A Low- ti- Lb . - r I 2/t4 me -C 6-u 48s - w'il - MA' -dest'._fs - /0 /'57'92 M asAdas Do-l/ta Ada S A hermi 9- 3 y & d . W h .1 u 2 f i J)-4 S/7+ i < j \ l t 1 I ! n, .a EVENT LOG 3 PROJECT NO. 94367 TU ELECTRIC NOTE: This Log is to be used to document the date and item for each step during the completion of the above-referenced test project The assigned project numbers for each of the eleven test assemblies are: Scheme #91: 94367 A Scheme #11-3: 94367 G Scheme #9-2: 94367B Scheme #12-2: 94367 H Scheme #10-1: 94367 C Scheme #12-1: 94367I Scheme #10-2: 94367 D Scheme #9 3: 94367 J Scheme #:11 1: 94367 E Schem #10r0. 94367 K, M Scheme #:11 2: 94367 F Scheme #131: 94367 L Scheme #141: 94367 M All events of any importance should be noted in this Log, Page No./8 ITEM DATE INITIALS d d4tio1b //-A x M if] n s.L $4 % t L b $lH,l% W Auv sh Wu-d & wik 4r>nLM. h4twj_ N // / ' 5'" t% Ashd LCMo a /o'ie>/GF GN~ As N ill*d 2k SmLO-JhieY 8A$ M Ata - aud aukaad ML403 n/A % _dt h I V ManJon Jw A4aJt A& ed&P L AAcua. // 5 !s" wJa.:f dsm /aa9m to/!elo-cM ~ z1u is~ LtMt % dArry R sM Mw . i sai Ec:n k h% 9v~fuAfL fik n/r en M h Lik A b 4 2 % ku k .Az & nJ ' i fw s z uf n d a 7 d k L w a A1a % ,, , I &n DMAJ sJeL- Av 'Y8/ ) S /Olib W . e n 4& M a < m .' m A u 'w //-3 ~ l and DA F n' / /- / . l JJAem ti- I mi // n &n ,d/ . io//9 azt-l l}i Sm .$Ar. h %d>o %m.aS',tha' si zbl- ' arc mm w.W X 'Ax/M km i AA mr AAanu M' Mn.,1V422rt' 4dd' tan %L ~//-3 MWL ld jaAuf4)fid /dl/9lA2- C/0' t I siNiw x- Mwi Ar>rud5% '2 31md 4% ' '~ is d / =r- M s i e 7c 2 i u _ 4%s-n sudAM' l tik,MkL n/uk.A&dK 'Azm kh sua 6 hi- hsw /w 2x && n ; p 3-ff E-3W'f&at:f* Aln' & mn%W n s A CAa3A/IS ddM mA 3l /sb fim LJA- . i j ( n, .:. C i ( EVENTLOG D PROJECT NO. 94367 TU ELECTRIC NOTE: This Log is to be used to document the date and item for each step during the completion of L the above-referenced test project. The assigned project numbers for each of the eleven test assemblies are: Scheme #91: 94367 A Scheme #1131 94367 G ( Scheme #9 2: 94367B Scheme #10-1: 94367C Scheme #12 2: Scheme #12-1: 94367 H 94367 I Scheme #10-2: 94367 D Scheme #9-3: 94367 J Scheme #:11-1: 94367 E dcheme #100; S43G7 K cf U Scheme #:11-2: 94367 F Scheme #131: 54367 L Scheme #14-1: S4367 M All events of any importance should be noted in this Log. Page No./ 3 ITEM DATE INITIALS ARIL$l lW d] & 2Afuu / M t/jie f JO/A/91 nyf-N AIA f74w .62P* UAsAlt y ,' c a t - 61/_ - oh crud i #Arzt h2wf,W & 3 /~f lN-[YA- 22.-w/ #1/W js.v'bV & O1 ist L ssaFA , ~ -; k u w h 7< w ama.c est p k la w . 'ti- 3 ,/ e ', , /> inJia}7 m G,si tZn a % w w . A u t. n ,.c 3e6 % <d.n u s./w ' aAgis L ~' nfAL . b;n i .dk a # 2 d e. & . K , J AALf . !.lh den E N L[ 4'L Ru aa's,Ja.t;. & fjM ~- ff[ MM C< W EN YM n Assus a ws ,ohr/9x at ,r.k% K s N /=fpm 9-% L: bOC V i o '_ +Aa+w~ 3 1 &~-TVA .oo h L n aaK ,o//9/ra a4+ J' % d k /r x Aek AJ ' Q 4 ,W h 4, Ahd ,/v4 k ~ AMw b M4- m As, io//1 fue M3 svxiww' xsdin ' &M/ g p-t.A4 - nMK A<& M is/i s4: u eM SW 9- 3 #ALAms b iMu lsk n to/2pi g x cAf-L _ M +x A k #AA2 d f A f% <it?a n&' e2 l \ & &.'k'i m .Eas m A i u fuY-dor ?~' ' L del w //- s ? % w r_ e ss/ w 1 c , /- j i 1 l m 9

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~~( EVENT LOG 3 PROJECT NO. 94367 TU ELECTRIC~~

~~L NOTE:~~

This Log is to be used to document the date and item for 6ach step during the completion of k the above-referenced test project. The assigned project numbers for each of the eleven test assemblies are: Scheme #91: 94367 A Scheme #11-3: 94367 G 94367 B Scheme #12 2: (I Scheme #9 2: Scheme #10-1: 94367 C Scheme #121: 94367 H 94367 I Scheme #10 2: 94367 D Scheme #9-3: 94367 J i l Scheme #:11-1: 94367 E cheme #10 3. 94367 KM La Scheme #:112: 94367 F Scheme #13-1: 94367 L Scheme #14-1: 94367 M All events of any importance should be noted in this Log. Page No/d L ITEM DATE INITIALS ,i &i u,a #D ash 'Shd6% 1, A,c-n1.s&;6ry. /s/x/c 66f-N $-h n%O%(k/ML Kn-x2NNM 7.. ' sj/2lc umm& n22 xC mid /wsr - L NT MN d[5 - 2./h k?' /d/2//h::L.W y JJ x/wdnu adead. & rid k bhb ,wdst ' A-h b d <?-3 JM w Are w>a-,;2- so/2//g , w L! n /ndued a/s% An O AL.. 32 a&bx amW %m Ned, l t ea2 % sj asA;rj . 9 N'A4+u'- #4 MntiedDJ% adaw n is/zzk> c 4 f-a d di % s 2 M m /z. 8s i g ,. , d-Y'fl'&L 00 -lh} bA!.-l1 l0xCct.- tf4% W jc/p2/G%W se:w <rM/ha '2, K a&M w ' } W YYY Ybt _ M M W , ej j si d a , I'Y Eb && /k n' lo !D 3195 (thd- ~ w dadw- et-g sA s k f4 m ' - 1,,l s-/ M m A2so . IL Jsn di %fF M abbsK~ d +/u we '-A.ch 'I M in h Zi d /'/Zfe t p g s M ib Ll h hAi M ,'~ a, AJO'A oK n.o-ndhd n-t2%i th& W lD Gi vp u s & J M Z se-a s; 7 ~ ' 64%id wh%.K w & /opum c.M ; c-2&Ha y E- msc& suiNair p r ' ' j . / -- - I a n-4O ( EVENTLOG D PROJECT NO. 94367 TU ELECTRIC E NOTE: This Log is to be used to document the date and item for each step during the com letion of b the above-referenced test project. The assigned project numbers for each of the e even test assemblies are: Scheme #91: 94367 A Scheme #113: 94367 G h Scheme #9-2: 943678 Scheme #10-1: 94367 C Scheme #12 2: Scheme #12-1: 94367 H 94367 I Scheme #10 2: 94367 D Scheme #9-3: 94367 J 3 Scheme #:11-1: 94367 E --Ech me #10-0. S4367 K d# IJ Scheme #:11 2: 94367 F Scheme #131: 94367 L Scheme #141: 94367 M All events of any importance should be noted in this Log. Page No. /5 L.i ITEM. DATE INITIALS N' $'W & dtMW # m>b W m #1 ~2 h B/Mh1 CAf W af/fr2 id 2/ M o ul&:t., G~ MAf pahi ~ ' G M u "h-3 umut.- s,-rMesdo ' so/.m/nm 3xid Mt.AsG His', sawd x Alz .r+1 MM# r} [Eh bid-<--r 7 @ MfN'(d/b a /6/2 ~7 amd Mlas! AsBvk& s,wa m C fl-k /rm&(K. E b b 4 l 5' h Y dzb/}fMs/ ' - ~ lN G-vtM1/W m-san- d. uw Adwsabr/a AA A.-in vM/fAwx<h., ,f; ~ ' n ,g JW #A u2w2K s-L nm.o ~ 0 W d.4 % . % -id0ef & le <MMn1xs't smnAAtL s>v s ->rsoj A Lr 9 m' A

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= % ) D ne .:. v - b i EVENT LOG 3 PROJECT NO. 94367 TU ELECTRIC L; NOTE: i This Log isreferenced to be used to project. document $,i the above test Thethe date and assigned itemnumbers project for eachfor step eacdurinkthe of the eleven completion test of assemblies are: Scheme #91: 94367 A Scheme #11-3: 94367 G Scheme #12-2: 94367 H h Scheme #9 2: 94367 B Scheme #10-1: 94367 C Scheme #121: 94367 I Scheme #10-2: 94367 D Scheme #9-3: 94367 J i Scheme #:11 1: 94367 E Scheme "10-3. e4367 C d # lJ Scheme #:11 2: 94367 F Scheme #13-1: 94367 L Scheme #141: 94367 M All events of any importance should be noted in this Log. Page No./d Sa)i ITEM DATE INITIALS JTIH) nM && iwuCL to/ae aM lAC4nO IfMC AA.sk n DdJ29 cH eA-VAsAum M MAM: 9-/ f L, 5 E/ W A1 & A" & n /0/R G4*}- (s&W/trd Ma'<sM/ w u - . &_ 2 f /r&K Of +TA Av u. _&Q % Ars9-/, _ /tt.ew i,/_g g .4 f .A 1+wI?l LJ w 2 /u um Q~j ' L, 13-l ( 9 - 2 / J - /, JO ~} /2 - 9 M' ,w- p' ?d f$%b - d ho d 2 M M .1~ n/% C ff y ma wuurM ac Mr E wk wA L AKg . I'TS s vt dElODhnm . / f N duU h'^ Aso A J WNAd&AJA%tAlm?n' Aun c;xsd-; n , // /3 /92 ct JP t %ct 4 Ze-a. 2; M 5~ & a b; #nAhw zr /h_ z% YYWL& N M.mse,&fw 1,l Ju 41L a d ,<.L-th & A, 6 ~G& a +t ead& TfA &Jctraf,, Mn re N Au<2am axvf # M /4-cd GA arm zu&gi M -tA,-fig nMdZs , ~

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i > ao. Beet ~ Ow&lty " ,rt. G ' t kk.> ut.L 4- / . r *%~ j 28 I EVENT LOG 3 g PROJECT NO. 94367 TU ELECTR!C NOTE: This Log is to be used to document the date and item for each step during the completion of the above-referenced test project. The assigned project numbers for each of the eleven test assemblies are: Scheme #91: 94367 A Scheme #113: 34367 G Seneme #9 2: 94367B Scheme #12 2: 94367 H Scheme #10-1: 94367 C Scheme #12-1: 94367 I Scheme #10-2: 94367 D Scheme #9-3: 94367 J Scheme #:11-1: 94367 E Scheme #10-3: 94367 K Scheme #:11 2: 94367 F Scheme #13-1: 94367 L Scheme #141: 94367 M All events of any importance should be noted in this Log. Page No./ 7 ITEM DATE INITIALS Jt's t2rt / Hut +~ ss aAs. 2%~ //'3/ % G. # Al .x.skww 2 1 A'h, e >a- Jd/u:wA -/ jo CLA humA ALW L2./2+11 tdlA > 6 ib,' .- MU4 t.ff t=I' '1A"C - d/8 M EfLa"A -L 'L ^2 NJ27k' ./LfdPd2W AM &ndAku ~ ?Avt.74x. Ac 4 l A -kE7u'w M ~4Ju-, A RM nk&x Ahac2T d-sscA- ' . u c: decCA 4]A ' l h A bu a.- G - l'i pae-tt&A w /t!3/9a C^t +ki AL5' 7~P7 C // 9 A&+CblOat \ h ut+ w 2 d ust- Mu be~Ch <-uta/ l GiL T / 2 ,, & ls nchf4.dr] Jt4 UA 2fdJpb - & &.vo - / v . i_ /Z & 8 $h dif.Y d M Yb C l n Aa-A alc ,a -tsc>c.& lslL _jtN'WW23'-c.4&N bah -> t.e* maw s 1L. /t & h 4 3:/ 2 4 t* d/ M /A uent; 7 {'E kef',, .. V ' Ai+.t.L. e-/*'AEddf A Mwedard h/3 0f ,fL9 f).cz f M $A ffwid%2", %t Qa;n 5h % #As.2% rad st M uua-- 9-/ 4 : 0 ki- M, 7 ^u MA. 26A Udue d~ / fU _ flJ }#- - \ TA/A w 02deAs * % V J on, c O-IJ T EVENTLOG 3 ' PROJECT NO. 94367 TU ELECTRIC L NOTE: I This Log is to be used to document the date and item for each step during the completion of bl the above referenced test project. The assigned project numbers for each of the eleven test assemblies are: Scheme #9-1: 94367 A Scheme #11-3: 94367 G I Scheme #9 2: 94367B Scheme #12-2: 94367 H Scheme #10-1: 94367 C Scheme #121: 94367I Scheme #10-2: 94367 D Scheme #9-3: 94367 J 1 Scheme #:11-1: 94367 E -Scheme #10-3. 34367 K- C A t U Scheme #:11-2: 94367 F Scheme #13-1: 94367 L Scheme #14-1: 94367 M All events of any importance should be noted in this Log. Page No./[' Lj ITEM _ DATE INITIALS g i kad:- ' M' 72t CRd . ti / 3 N ) cj7 A ~Dwk LLr~,OL < A b rN N 4'kt O k "

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.6H<u tL2P- 0 L'A' e . p ' 01L /c/x.o d'O' < u A M h %x/%.m (Zh o ,. uz & /4f '-fb d , m ^ A b . 4 w e. 4 .- n ,, L *' 8A _ Mtman i, 5: 1. h.%. W e T VA O$1}?+. tLp N jis f. iI Ll A&A.~, daz&m i? w mow n d - Nm M14M // l7!.s-b /Auors nica &Ont&x~YXs.4-lGLE .e.ts, a L- M1AA <-r Nig/u(sea - ~ C m de, k 'W 4 69'F NmubEt nisjn m Ms M ^ at to:if m .a %KP%. v & ks,i992, a, -a.Ziad , t 1 - \; ' ) i 25 N[ EVENTLOG 3 PROJECT NO. 94367 TU ELECTRIC '( _ NOTE: This Log is to be used to document the date and item for each step during the completion of hg the above referenced test project. The assigned project numbers for each of the eleven test assemblies are: , Scheme #9-1: 94367 A Scheme #113: 94367 G Scheme #9 2: 94367 B Scheme #12 2: 94367 H Q Scheme #10-1: 94367 C Scheme #121: 94367 I Scheme #10-2: 94367 D Scheme #9-3: 94367 J .tl Scheme #:11 1: 94367 E --. Scheme !!10-3. 3430TK- CM ls Scheme #:112: 94367 F Scheme #131: 94367 L Scheme #14-1: 94367 M All events of any importance should be noted in this Log. Page No. / j ITEM DATE INITIALS ~ ; kGC~ e'<c-1 usM x- // . 's u.ddl.cw< o ' i , /:; c-fL 1% a Jwl t n -, A_ km E k-af it~2.05 & M G M m W, '1) r r s_ aka72m}k si .e dvd .i-' Lf4 ' '~ r t 7 s n a~~~ " '

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i 4 , n-e J .'. O s ang [ EVENTLOG ] PROJECT NO. 94367 TU ELECTRIC d NOTE: 3 This Log is to be used to document the date and item for each step during the completion of , m,1 the above-referenced test project. The assigned project numbers for each of the elevon test assemblies are: Scheme #9-1: 34367 A Scheme #11-3: 94367 G Scheme #9 2: 94567 B Scheme #12-2: 94367 H Scheme #10-1: 94367 C Scheme #121: 94367 I' Scheme #10-2: 94367 D Scheme #9-3: 94367 J f! Scheme #:11-1: 94367 E -Sch=c #10-3: 34337 K ck =J Schem9 #:11-2: 94367 F Scheme #13-1: 94367 L Scheme #14-1: 94367 M All events of any importance should be noted in this Log. Page No,JO ITEM DATE INITIALS A-Af%L M-/ . 60 nes-ts-s M d' st2t bs ///Cil% l ( ff 8E EA %zM- a;+trd Wh j #X6 //ueLc-. k 4G #e4mwA. # h tzss./m < RAW j.a<m w. U D O /? 4 AtC%nssc,ch_n p-M Jo , iih-]gy pjg O r'h M T r-z u l Jj.-<, F A z ' ,d 2 h g / m & ; . AA-ea'mmt. ! Auhe.n p M e.R slA-ubis%a' fko. /.22 \ 4 a d A A A e le A i>-f .< ; l M'szed ' ii/c-A' A4? OlA /'A u o t F-l 6 n L.c & /~6-14 & > < M n o .'> c.t 4 A

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_. l'/w77 Bzasu e " ib %/81Hh. Cleldw ~gagypm $A3k 4 " /0l& // 4 l'AAAfs->- d.LlaJaunY-1, " d /kot- Meol,<c Ork., <1 n n weL. e n 1 , 6desur 22a < -, , ~i % ~ MltseAcc 6&a&rd * -t j b ~ . . ~ nn .:. O i I EVENT LOG 3 PROJECT NO. 94367 TU ELECTRIC U NOTE: 8 U This Log is to be used the above-referenced testtoproject. document the dateproject The assigned and item for each numbers stepofdurin%the for eac the e even com test letion o assemblies are: Scheme #9-1: 94367 A Scheme #113: 94367 G Scheme #9-2: 94367B Scheme #12 2: 94367 H Scheme #10-1: 94367C Scheme #12-1: 94367 I Scheme #10-2: 94367 D Scheme #9-3: 94367 J gi Scheme #:11-1: 94367 E -Schenc #10-:: 34307% eM U Scheme #:11-2: 94367 F Scheme #13-1: 94367 L Scheme #141: 94367 M Ali events of any importance should be noted in this Log. Page Nod / ITEM DATE INITIALS 19 + M- Tu (2&nk 4Met cd k- km W n a A&,o abst Rs it)/e c, Lj M Mce. u u AdGsu4cw'c-L diktaA //RfD% g 7h fah W Akw e 7 & I.. o . _ mu/A wh_ &&AA L ~.^ ha %d Onamer #Mrds - 03-d u % u-ig m oa' ~ v Lg eM %K' e " v xi n u s,pj u n n ,. Eawseas, - ~ ~ L} s h'a&& < < " u.aL K W 't, e e i i: / S h 4t@etwrE (2h dmL , ,s d tavd A r0F/nst s &tettxFA/:w+A & r4 3?% . 4&x -tret & dilu is~ v L.g l- M af' d'/7 sm 9%cidow rja S2 - - Ad W af~ J& '/Povt 44fA>ed ///r/9a p1/- i l bn a. A 'h w2Ae hus s/OL' *i%dT & a-C M' % 3%' ata a W m~ aP. t_ u tbi o ' w - x 7 r ns: A tju' Q t%o }. E me ' ) ~ w tl, s EVENTLOG 3 PROJECT NO. 94367 TU ELECTRIC NOTE: This Log is to be used to document the date and item for each step during the completion of b} the above-referenced test project. The assigned project numbers for each of 2he eleven test assemblies are: Scheme #91: 94367 A Scheme #11-3: 94367 G (I Scheme #9-2: 94367 B Scheme C101: 94367 C Scheme #12-2: Scheme #121: 94367 H 94367 I Scheme #10-2: 94367 D Scheme #9 3: 94367 J g: Scheme #:11-1: 94367 E Schem #10-0. 343G7 K-c H-U Scheme #:112: 94367 F Scheme #131: 94367 L Scheme #14-1: 94367 M All events of any importance should be noted in this Log. Page No.c:7J L, _ ITEM DATE INITIALS ,Nf M MM f&u ///S*/9-- aAt-ham /9'u M -s ,e/-Ektdmp4&6 r6:1L Am-oZd2un % x-d-L % - n-' A -e,'43m,Jf & diSM s2 A G?]2-s-a 'A ,/A22t, b >% 1 A' M i 6-e d D M 0 4 -, M A Fl'h'6Amede e-L R h /5'/e2 e& >c- / ,& Am' JAMAL, jw ' ' 'L) A Az~ bd AMA :b4' %M d Udim na- K 24 es-,h * ,L; d6 % d Ed&2k sweM 1 ii /z., e;tt } E& D s' & 244cxLc_., /3-/ 7 , I % 4l-fJ D d 6 A2-;# 1 AM tt/9/91 c.$J L A M d a > t- ~,r d 6 ' M 1v ^MM Mh sk% c % A hhnL 18-/. . # /) OOJN i , l fA n u d 9 Z/ d ',0.,n 1vuM nx% is ////d/9vf ad' Mashaf ~ ADix a-f ' ' IL 5-vt- Alm 't2~1 A':11 -DA thzane1 _ r%ZL h ii/<</n c.i/ ' N. a%%Ark J %1-, #sxdaw e d L' M k e t M~ ' ' M/1 mw - V Afusek Av2&&2, SrdH-M- u a L s-u M " J3-/ M A k i \ M% 4ta-] . Aw I~5-I k D'&J 4 i silia c -Al a Nk

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\~ % u rvtdspeced L s n xce n zim, j / / l l C o-i ( EVENT LOG 3 PROJECT NO. 94367 , TU ELECTRIC NOTE: This Log is to be used to document the date and item for each step during the completion of , the above-referenced test project. The assigned project numbers for each of the eleven test assemblies are: Scheme #9-1: 94367 A Scheme #113: 94367 G Scheme #9-2: 94367B Scheme #12 2: 94367 H Scheme #10-1: 94367 C Scheme #121: 94367I Scheme #10 2: 94367 D Scheme #9-3: 94367 J ti Scheme #:11-1: 94367 E Johame *'O 3: 34567 K (ver U Scheme #:112: 94367 F Scheme #13-1: 94367 L Scheme #14-1: 94367 M All events of any importance should be noted in this Log. Page No.S3 ITEM DATE INITIALS . h& /*]sL4 M' A GA-1u,tW E1/ d ////a/cn 0%t-- % % ~ PA so n & L M m e a ' AL t &A,% Mm2T ~vu part& , l}~ ~ ! K ' ? b R s 1 ' s-L 9 9 ' -hfra,mw & ii/ia . ejf 3i41/Ju n Aadav2 L 2n / ; & i X f n 's s m ' M X A , f ' om& ~d', ~- ; WM iWA?1 - 8 A & Gr# si/ndop cc fr e~ 24 l 4 2 0 F s M 6 4 a o,C u ' ' k smm . l ' 'Or att Z nan

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016 Zkuf254aB: O S /L/R G ~ "} - (/ M b o - & Y-r M L - a !< . . . . : Ihd ?r7e7)'lE4:w,~ i2fd7su<in urBbn,ts I - (% Mu& n ,i iO .D sn esxxd 1%na (4k, +- l < > kiWnli U241fu/D/ i '~ i' l . i i y WAhaA Z ~ maw,L, o < . j i l c l l 1 o. 4 6 , EVEN[ LOG 3 PROJECT NO. 94367 9 TU ELECTRIC NOTE: This Log is to be used to document the date and item for each step during the completion of the above referenced test project. The assigned project numbers for each of the eleven test assemblies are: Scheme #91: 94367 A Scheme #113: 94367 G Scheme #9 2: 94367B Scheme #12-2: 94367 H Scheme #10-1: 94367 C Scheme #12-1: 94367 I Scheme #10-2: 94367 D Scheme #9 3: 94367 J Scheme #:11 1: 94367 E -Scheme #10-0. S4307 K W Scheme #:11-2: 94367 F Scheme #13-1: 94367 L Scheme #14-1: 94367 M All events of any importance should be noted in this Log. Page No.9 Y ITEM DATE , INITIALS i $>ta menaduL4 opt-- !iIta19+ OM ideMc hade& -nuw&-Ek 4nAiraA n ('&Ja- tkJLan s !L i b r u 's/ . A d A M W-6 l'Uns ~ fi , , , _ %n fdM <d Mee.J /3 - / sTAzD/. n//w ett & 9 ' 3 Pom .hmd kds thacA7:w ' shts ikwL 9,rfA nf f'AEn& . ~

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.m>d #2 5sahwMA"i24Wn- /ehVmtl'rt- 5 1.- u > t . a w l 9Eosi nf12:1 nsdah iMBM sf 3o*' amAucle r ALssfm2bz%a n/it e& . ( mn ) Rst vt- a-& WlCt sm S' N44'? O t Ud c. - el/~7'MEbd W 9l3(s rNu A w a b a s u / d O h A' X X fs a f avu I acAd && &A a;;aG &A/h /# - 4bh2a D' j&mez-ea ., 2s&i%d n J! ~L aAt A$v hu Mike zes2 o ' 24Asm / P/ A&Z A& Aj! m d & .R L^ b s % A DM fAr /2 eM4 2n . W l' l ~ ' AAt s u c.- /2-2 J f i> e - a e J 4 tih3 cut .d7s 2%fJa P m 4 A h A r ~ J l I i i l mo a u . .. EVENT LOG 3 PROJECT NO. 94367 TU ELECTRIC NOTE: This Log is to be used to document the date and item for each step during the completion of the above referenced test project. The assigned project numbers for each of the eleven test assemblies are: Scheme #9-1: 94367 A Scheme #113: 94367 G Scheme #9-2: 94367 B Scheme #12-2: 94367 H Scheme #10-1: 94367 C Scheme #12-1: 94367 I Scheme #10-2: 94367 D Scheme #9 3: 94367 J Scheme #:11-1: 94367 E - Scheme #10-0; S43G7 K- 6# Scheme #:11 2: 94367 F Scheme #13-1: 94367 L Scheme #14-1: 94367 M All events of any importance should be noted in this Log. Page No. R 7~ ITEM DATE INITIALS nv%.NW i ( 4d>M b-, ////W93 G 1f rkme A.kf M M D 'ou~.-- % & ckAL&-tAde m

~~24. TMs /khL* ~~d akZi<c&~~

M PA;Lr5 i% 2 / ,aTRM+, I h ML d- /& a 2 A G -- w'n a-4 \ > ww&L m %nsd A tAl c24-6 w WseM / huums,n ddwh a - zh An 21:W # B . %w %. a:t M 776 n/i3 a-71 of hx !A S '1 ' s M w '10 % ' ba k se Axi+ualit /Mac . , 0 /L M dh* h sN& H )nl4 1 QM-Afi k ftse s-/ Ma n- a ' ~ ' AL.- ! V . ! . 04i52FA- & & J f.l E f/A D t ('a1 &ank n '2 u.gui,, M << 'u h ,, Dah ! 6kW n #fbaal /,.4.1ilu; o , Mwd UdAt24-h - a v R d di s f+ A W 7:S /, ; > 2a % dE6AL Os AJA c , , r\Mb- Adaw w vit &leTat , % 0 0 J i EVENT LOG 3 PROJECT NO. 94367 TU ELECTRIC NOTE: This Log is to be used to document the date and item for each step during the completion of the above referenced test project. The assigned project numbers for each of the eleven test assemblies are: Scheme #9-1: 94367 A Schemc #11-3: 94367 G Scheme #9-2: 94367B Scheme #12 2: 94367 H Scheme #10-1: 94367 C Scheme #121; 94367 I Scheme #10 2: 94367 D Scheme #9-3: 94367 J Scheme #:11 1: 94367 E . Scheme "10-G: 9J9R7 k'-C dr' Scheme #:11-2: 94367 F Scheme #13-1: 94367 L , Scheme #14-1: 94367 M All events of any importance should be noted in this Log. Page No. c2 ITEM . DATE INITIALS MtLL s% 6/h ^ dVMd 4 //di$ifd% //// 34aW JAt6 /9'a n e - Du, 6Ld f O>w A% x 4x/w [dedu m fh44 & t'LCd " ' 6 . PluGL Jnt% d /< ~ Nm kli7drO H L v '< - Au,dd M&ujvw ii e 'i lk't thnA- Ab-r-LAs E u 9 'i Ws', $M Oc&d O ~ 'r _ M v a N % 3 [( Oddb * '/ ' \ LL ul L ~d ' a16 Dm Ara - i l ' niu 7%f d .M-4% / 3-a 22Ie t&d . 4 /+ d41 af to : a co mu %Mw B i9 W elf '- &<6- M &nL.h6an Ox 6s r . ale on M ~ n t% 3d ~ df .30 Mo Ahn. nescue%EM.A 72'A-2AXhs}& M nosf"As.lb "d .zAs 27st,- o H ! OOl M' ,_ %Mu ACismt-> ' . ~da d %'An A- , , '3lo M -/Anh-Asa.u 07 % ti/t 3 c tn G r h e 4'a m Mx '73 o n. 3LL-l c ,-hbh A , m QuGL ax 1,1+ wo sAi=5o% ~ m A rt'l J 9 6 kL i I EVENT LOG 3 PROJECT NO,94367 TU ELECTRIC i , NOTE: This Log is to be used to document the date and item for each step during the completion of

the above referenced test project. The assigned project numbers for each of the eleven test

assemblies are:

' Scheme #9-1: 94067 A Scheme #113: 94367 G Scheme #9-2: 94367B Scheme #12 2: 94367 H Scheme #10-1: 94367C Scheme #121: 94367 I Scheme #10-2: 94367 D Scheme #9-3: 94367 J ! Scheme #:11-1: 94367 E C he.T, wiv-J; v4Je/ K i Scheme #:11 2: 94367 F Scheme #13-1: 94367 L Scheme #141: 94367 M All events of any importance should be noted in this Log. Page No. c27 - 1 l ITEM DATE INITIALS i id-wi- M A<ot e FM & olakt ' e4 Gir & %t a W ' M 6 ~ $d (%LM;Od AU-W a. f 7 Y 8 7n u . Vl%-dt' kuah226 eL -dA/du /2 -A i/n /9c- LW e L tLh Zbd M A & * -9/ w & i A owasA/ M n 27s sYoOM K 0 i< S n1% a sub -du .t N aht-vud>GL M 2% M&Ah t Ibb r.<-roJM hw-su1>.4 n Jaa n&%dl . , JAwi /> -/ XM smdC a /WW9 >- es ht&&tTD Avt -Db E7/c? An ts s/8.s ~ a>td A x d M A /s wA/DW . /2 m le A ctt' ~ adLk1 n r w-oY90e. s.& nn 2 k J V / t i /s h & . ; M o a s m e , i Af% O adbB, xvit - VM ' Tuxem, sw As-AfD - M us - Ad/V A 2 xvic4; & >anw( 2M] .cA+- M x & 2 A ~ -the(4 h h a' M & n ~ /fu.ast clutfeu;f'i Ah-med n#+A '.2 G-r t ' Jer/ AUwPAk# x-ndtud(hbrdm L A4 L' &MUL PA&dt , 'r2t &LubuL- ~ //) Xsetzt st 1f/ E/wrcoa&n/a Q.4HL , &d.w~+L22% nurL%+d J'1<MWud A-vMi - d1%t - o t0 / J ne

~~c. c~~

( EVENTLOG 3 9 PROJECT NO. 94367 TU ELECTRIC NOTE: This Log is to be used to doct >. . . the date and item for each step dur:ng the completion of the above referenced test prc,<.i. The assigned project numbers for each of the e!aven test assemblies are: Scheme #9-1: 94367 A Scheme #11-3: 94367 G Scheme #9-2: 94367B Scheme #12 2: 943G7 H Scheme #10-1: 94367 C Scheme #12-1: 94367 I Scheme #10-2: 94367 D Scheme #9-3: 94367 J Scheme #:11-1: 94367 E -S h ino #i0-3. 94367 K M Scheme #:11-2: 94367 F Scheme #13-1: 94367 L Scheme #14-1: 94367 M All events of any importan~ should be noted in mis Log. Page No.jg-ITEM DATE INITIALS 244Aud'GCGEw s2'~ MAf & '<~2W / ///6/q. " d21~ r1 Alum /2-/ s& '720 C M ' ~/E N0 % A ,- & & / w A 4 ~ .A Lz 2Y171 hAk /a-/ i,/u /c > a-H- /,4 Jtzrhl sn 7: rysw mn v q %& vmwnhv $ /* J E b $ 1x G 5 W 2 J' ,.5 u '/cr9a, i ? l ', wd u ALL // WW //.T /J/l. & f f % t <. L dkfL % An QueA- ~77/ EkOn _ /%./ AleJW " MM_ /No M " " x%X AMA ~ * ~ % NEh. ch-t 4 ', (ww N-cet a n a ' M e:ru k 4 L v C L it o M U fe<-/ n s' /. l 0LT E h n r VA- . . . 'kVA72iuI Much Afst/244th OZiZL h M- ML - '< n , t i bk tM.gu [Jm M ~4/u - FM m&/82 A%&n 'J itis s d B a -- ~ ~ ' - 1 b h w / W A fi M L 1 \ \ - < ' l s ' WJL Kiahw-- ~ -

~~1 i~~

% 'us al QL M t%s a.c- J n n. - <. :) . ( EVENT LOG 3 PROJECT NO. 94367 9 TU ELECTRIC NOTE: This Log is to be used to document the date and item for each step during the completion of the above referenced test project. The assigned project numbers for each of the eleven test assemblies are: Scheme #91: 94367 A Scheme #11-3: 94367 G Scheme #9-2: 94367 B Scheme #12-2: 94367 H Scheme #10-1: 94367 C Scheme #12-1: 94367 I Scheme #10 2: 94367 D Scheme #9 3: 94367 J Scheme #:11-1: 94367 E --Scheme-#10-3:1436TK 08 Scheme #:11 2: 94367 F Scheme #13-1: 943G7 L Scheme #14-1: 94367 M All events of any importance should be noted in this Log. Page No.A c) ITEM a - DATE INITIALS @1"or d'A 7$72<%, Onni w P%:t ; gas 'Ii+ /4 d. &t-Muufjwe.L (%~Clas J" 3 d Ow & Zh' xt r.5%,ai ik,In; - ' ~ c.M - n-c JAU& Ju < a & n K IVx (%:tican M s 24-z& a '0 cQ:an a .M Z L. M A % A m W Kusm & Rn A 7: s27 sm A%- o- M&2WWLM %M L />stn ull M 1swi ca 300 . __3. fti pec62 -4Let &&iex '. d m a Ii5/gy e .c+--- a< f 7a% oed AhL- n D % d bi /Unlumbt (JtfM LE-ka n . %M dwa A d7v8:a;e " MJ Zab'+ M4- MAA u ,. MCA% RJ4ks 'Um.cfcGA .c-t /?))0Wh//t-/99 d4f' PA Tid le L1d& snMi ' oinka c4t-AINf% (Wtsczl\6f. 4th w /l- l eheob Ai A.a Akr%A aria %.- E X M v T M O & f R n / 7. 4 1 1%-t7A hw M k & V&r:e GWu u n/nAs -cy .4 Aslava - />- 2 ad Acv& /o- n J /mASbd, 'K- //-/ A-r nwu zLot m n/!r/s 2W 'ni ~ 2YA A2a +wa- aed ML / 97 e >K W adam a smatM aAl.- *M5L,m AmulM.2WR Adun,,, & . O 0 ' ~ ~ J 93 ( EVENT LOG Y PROJECT NO. 94367 G TU ELECTRIC NOTE: This Log is to be used to document the date and item for each step during the completion of the above-referenced test project. The assigned project numbers for each of the eleven test assemblies are: Scheme #91: 94367 A Scheme #11-3: 94367 G Scheme #9-2: 94367B Scheme #12-2: 94367 H Scheme #101: 94367 C Scheme #121: 94367I Scheme #10 2: 94367 D Scheme #9-3: 94367 J Scheme #:11-1: 94367 E Scheirie #1u o. 94307 K- CH Scheme #:11-2: 94367 F Scheme #13-1: 94367 L Scheme #14-1: 94367 M All events of any importance should be noted in this Log. Page No. 3D ITEM DATE INITIALS RuR&C CAtc.kel<pt a n. & m A 6-v " nlmln cM M M2 t- W - a.h 2L<, ' t'JoL72~r Brucit, ru r1M, ' .3t^ w Knu. d Btt 41xt r{ f1v niip/9 2- c tir Zin d. AcW Il-I am 7 3 umb ' at24GLs hwnidHL ,A 74 96. Oa Okt L wL fust i 'A ku,s n 4 m ohMo c.M > & M n2 7:rt % . rht i s -tz , n%x 2M tid (WL % _' nAs'-m C%b (WDit /W * " M 4 m+w '< " %l l <b 6(M L L M , . " " ddu m d& udw " # l's Ui' n J=4y/) << o Lu CW -- r6/ 1%w [k4W~v tt& #K(b .ULO hkA;e.:;t 6' n tGMJkhi%L / %r M&.g7 n n o %n M/ << Mu /AtcA0 A n a " 'R,eA-gkL g$es ~ a + .:6wd61% (%cGWn n *n o q wmm v , N ) nn. .. s . EVENTLOG 3 PROJECT NO. 94367 TU ELECTRIC NOTE: This Log is to be used to document the date and item for each step during the completion of the above referenced test project. The assigned project numbers for each of the eleven test assemblies are: Scheme #9-1: 94367 A Scheme #113: 94367 G Scheme #9-2: 94367B Scheme #12-2: 94367 H Scheme #10-1: 94367 C Scheme #12-1: 94367 I Scheme #10 2: 94367 D Scheme #9-3: 94367 J Scheme #:11-1: 94367 E -Scheine #1 ^ 3. 34367K M Scheme #:11-2: 94367 F Scheme #13-1: 94367 L Scheme #14-1: 94367 M All events of any importance should be noted in this Log. Page No. 3 l ITEM - DATE INITIALS } % 8 O L i20%.& dtA IIfE$i /? /L Qw @M4. .- n_ " /02/97 uws o At;&As PSEes ' - hwl, 11.c 2Mu Ghz+w dezn 3L<2't A ePie4 2 &[td df~ 9l 57 % asd MI/Y (34/~~ a% .LaSmd i Ak, a Ja nc>-14& Iv.-a AwW M M san 2<w2;&$ s2sts,L. 4n /Tsf dwAh it~ 9 : Glo #1.-1 Aa.-,- <.- elbniuve ~ t as~hir & L c u:vuem.t 4 -76',Hi E$ fM Ayn xLt amd tcM o Wo et % b , ' , , & &t-Maat 1e.-c<.4 % A14<dGaa u/is- nA McdA' at le :ty - sm ne d us-a-U n a a l i.7 M A /I: d S'~sd . . /%AAaA &AAsn//-/ xysk~M xt i% idis- a2 %otstXn ded% 6 t Ewa a Mda . , 00 ~ } } 2 ns- /4'-/ & 9- 3 44f. ' /tll9/9: uC# $& IM 7 d/M WE J sA i L 2 dAs-maa. ras 1 & M A d:1 A M & 2 % ez f m ease.t-2AL Y ink FM bM"M, d n / 4 G M 2 h A ArL Ad&r Ria --//> -:2 A ~suA;m Un'n/'r M t EVENT LOG 3 PROJECT NO. 94367 TU ELECTRIC NOTE: This Log is to be used to document the date and item for each step during the completion of the above referenced test project. The assigned project numbers for each of the eleven test assemblies are: Scheme #31: 94367 A Scheme #11-3: 94367 G Scheme #9 2: 943678 Scheme #12-2: 94367 H Scheme #10-1: 94367 C Scheme #121: 94367 I Scheme #10-2: 94367 D Scheme #9-3: 94367 J Scheme #:11-1: 94367 E Schem: "10 -3:- 34567 FY Scheme #:11-2: 94367 F Scheme #13-1: 94367 L Scheme #14-1: 94367 M All events of any importance should be noted in this Log. Page No. 3 2 ITEM DATE INITIALS Ati &M 2-aum - / N ,%w - &avs ~n,s&w-a&ud A 'k% b G h%e% .na&& , . . Atator %ddsbL u R 'a%t4 2er ii//e/o-W flu asrf / 4G-M Ju, GAeatrr r i >1%sh. MM m s'7o% & m mM1W n ax"t Acb w M)4 iaudA A '78 0?s . . OVAL M 1 b~7 /'t A -c. u t%+ o -A- ni/ 9 c if Jr ki io-a A m n d v:Ifi n . ~~~De?1Y m GJo, Ma -Act (% L M rOFLiuL - 1 1A d m :n., awA RAi& #A.uoli '<

~~Mw. 154s -gik- i, n 4 k +c-4.t {%sM A n n onb'e- Jaw <-itr t.' ii <i 6M /#FsG4, <<~~

Lb h A' L s f & m e' VM &- HI/1 6&b pu,j,tumo c/ ,, ' i o i - 1& cat 4./ M. ees, ,, - < 'D M L, .W/ 't G }WPA>bM14w a '. /<1Ar~1 /46fcJ&-dA. - a 't ~ a > duid>6 dzis&& ' ' t ' /~ L Gn T .s I, J / l 3i ( EVENT LOG 3 i p V PROJECT NO. 94367 l TU ELECTRIC NOTE: 3 This Log is to be used to document the date and item for each step during the completion of the above-referenced tost project. The assigned project numbers for each of the eleven test ! assemblies are:

Scheme #91

94367 A Scheme #11-3: 94367 G Scheme #9-2: 94367 B Scheme #12-2: 94367 H i' Scheme #10-1: 94367 C Scheme #12-1: 94367I Scheme #10-2: 94367 D Scheme #9-3: 94367 J

Scheme #:11-1: 94367 E Mhama M C'3. sesot K M Scheme #:11-2: 94367 F Scheme #13-1: 94367 L

! Scheme #141: 94367 M i All events of any importance should be noted in this Log. Page No. 3 3 l ITEM _ _ DATE INITIALS i TE1/ut/'Ls Kl%&v /? B '/d m.d1 % W 9 , Ii llc1 Iq LaR- 'Rm& &2 ~

~~0 ,~~

IAA^-*N* Y.)ytd y O%6 0'?A.A1.F.'. N T / &1s M $ 1W W VlG l h ////9/9 3 d /N l o a in' im JA'D ud A, x '/lsa - ~' 0 <?W+1 Y ? $ J L 4' c 5 e nlW.-d'-A /}W::" tb l 41HitA .') lt 3 l~~ ^ E b~An))& lWO ! G-in/ (); n %en oc-u+, T h - , w e.- u , u . l ib ]$A d -db1h YAW Y [*A .#l /,. 4 1 4 -. N i A7.4t% LeM vt -h6t.fb io~ a n % td 3't:0 6, % . < L,f L , N N b ! b [62A46# 7 h _ 14 / / 9 / 9 ill O. M Anu at &l22. ,u & w,s/hd ' I k a'Wl /0 !/R D M . Sxeud, AL ,>l Ads- c, /s ~L iili e/4.t c. lf i nso - m/medl'a/2)w fir e *1s L6 //!A bWt/rs t "a'd -/ ) % d. b aNA O>-f ntco e i e , f ! Tu c/sefid

~~n/ t sdo t A tibo/q.L C2t 6 a h u;L<-m /t M . L ,~~

1Al' C&J/ Sue n-Af51 vt_ ~7 ltM' anu . /f-h/92- CFf % s u o W en % ex & w ' ILLC] . n L M t-lE- !L+L . WL. l/~ Y ' & \ 'n.s Z( AAw //-5~ (l<nf Ehi f2N , -,* 9 Ys 7 h , ~ /y-i 2, AWk-r b& Mh/% e tr , t . s tz w .< . a w e. a d e. ;a w x x - ,. j / / l 1 --~ . . . , . . . , , _ . _ -,..,,,,_-.~,...._...._,_,...,..,_........m, . _ . - . , EVENT LOG 3 PROJECT NO. 94367 TU ELECTRIC NOTE: This Log is to be used to document the date and item for each step during the completion of the above referenced test project. The assigned project numbers for each of the eleven test assemblies are: Scheme #91: 94367 A Scheme #11-3: 94367 G Scheme #9 2: 94367B Scheme #12 2: 94367 H Scheme #10-1: 94367C Scheme #121: 94367 I Scheme #10-2: 94367 D Scheme #9-3: 94367 J Scheme #:11 1: 94367 E -Schem *104M4367 K M Scheme #:11-2: 94367 F Scheme #131: 94367 L Scheme #141: 94367 M ,, / All events of any importance should be noted in this Log. Page No. 2,7 ITEM DATE INITIALS .J'Av./ M a u w TM, / R h/C ) 021 - k.bi 1 *-L !<I- / $ W if d<1Mst kbr e -n ~ i a 'l' .fm <s H d &^^...t/u' E //'? b d l N t21 M L-Anu( '/3 Yb %+:-v'f/ M*."'b +' - ' % t v-3 C </' Y ffs' . Lt &c "' ~ -x ~J p:'2.d'e'A $ ?vs O us-Nrd b, t + s A - >G-, c h.- ' 6 *L sLn-12GN/ $+ lbi'?EW Ch'<~/k-lt O $.:, K'A., & z */ ,. /.1/ / /t, & lk IA e /A k5 / red ,A$D.,l- &' 'E1] I_'AS N<. NLu W "h /$'A/ta ~?t's N AkvL -rfM6 s MW&A 7c c' p' wi?A a/0$& /wv. Lwr'- ! <4d%. / , l 4AA2 bGd' rL 2-cJuse N--/'Ja m l-2h AA d (s . % f u n o ) 4 M & w i C L : '"N?>^$<Mvn 0!uI4 - ~Y'ZL OhdWNbl/ i' A n ti< / % ,.t r .- - l / h s / ( L e w s. u . ; , " n /244 / l M 21wx AA 4L " -

~~bZe /Au # h e /R # X/%~~

l L % t h i l % m -> A & l o ' o ~ '- l M i G ic M A w # e '- ?ps;L pm, o - - E k wfA n/'.a A M n ' ' t <dehu LwaZu ~ '* % C-o u sse h M L V 7~~N SJ e&? , J n 4 a ( EVENT LOG 3 LA PROJECT NO. 94367 V TU ELECTRIC l' NOTE: This Log is to be used to document the date and item for each step during the completion of the above referenced test project. The assigned project numbers for each of the eleven test ! assemblies are: l Scheme #91: 94367 A Scheme #11-3: 94367 G Scheme #9 2: 94367B Scheme #12-2: 94367 H l Scheme #10-1: 94367 C Scheme #12-1: 94367I , Scheme #10 2: 94367 D Scheme #9-3: 94367 J ' 2 Scheme #:11-1: 94367 E - Scher,e #104: 063S7 K W ! Scheme #:112: 94367 F Scheme #13-1: 94367 L Scheme #14-1: 94367 M All events of any importance should be noted in this Log. Page No. h-ITEM - DATE INITIALS 3%u LhucA 6 6l, d.s d A //f fs. b s / ia /i "A c fau+ douf% 2/&,a ??kaii, Y~ s. /, 3 J 'e-j+, A G.7.D or- 7 :4 e s~, & i a/i ..- ', lfSE w , & WJ As' d/ WLA'rs- %Y >/s kw EX/ hw -s *k. - A l 0 :s'S 9 -r -/s - 14 ',' , zMi%e & ' s'~ L. t~ W stJ'-7o"a a fk.- jx / hY 'L I '3

~~14. t l %. L$}t. , /;"d-k//fts" ~7h W h*' E /1L % f s'U-l .slWM /~~

d 'Z. 5?? iM1 " 6' l'A:2 - ? - W W 2 A 1 u t. f s b c 1 -1 Asas5es ' J2b/9& "A - Xiltdw Ams af 8:o& ss, w ~ i m1.dexu%a[a' d r%ss+ b* b]-1w lW 3 5& n /.;R /3/G 2- C 4"i 8 42 E/l9 2r>'Y~Asr m zLr - ea.u>L. ' ditLM & c%.< s PA-e a A t f t-st etdCd Ti .Mi ,dr/1 s e h u h % m 'n w u, hwa cu'a %u:~ ;th '-&A T ~ /4 i & t t M'.AAs-t if xh4s sw m/3 e. N' Aw if/r~ Kh2M- & AD%%u.r' d>l1 t' b d & A a. c/A., Da.? AM - . h f_ b& - k s .~' a t.a.N Yll Y$ dbl N*.- lR!]l 4 1 W ilf k hLc.vW + y try ,4 G.y <. /c o

~~~~17. , ._,[ , WYt t~~~~
~~~~et-a.f &Le%7;, "~~~~

/.<.*e f. & A m.ess' T, 5~. /, Ax ->:1 % -ut.w : d.d c /A4.&4# O2*444 . /iN*.?",55 % L . & L ! w e rr s & a - 'k~'tk dj_.< / /k_bdd AG Er & A. " ~ ~ As' > ?!& 1~1. Hkt k ~ ~ o ' A&AA trL e&w ~ * + bluh%60 (NS%L * , WwA L M. sum. rn C&d, ! L&zeed /M61kifdk 7 fif/%'a nt.d'. //6 95, tbu . Obtus #<4 A << ~k / # dux d d' d<4wl _ flbr>*v 0%st-- . $/3W' Ait 8A' A's/3[VIYW s f V,' 5 hism 12/3lD t' W 1sGl A JML%w / b, fA! Asat sir.as - ? R M s '4 w w y % A d w d A ,. J rn "l[ 10 .S i Idh %h 0 W/ WA$ff- 4$s 5 . !fW /MkW A Y 5 bO O 2')tA$ .l#'1 D. / q' e,9dM & Emzwan$ . L'%; Aw? I'b & snn % r G 42 4 ~d J f x,'3 % m i j l 0/I 6 EVENTLOG 3 PROJECT NO. 94367 8, TU ELECTRIC NOTE: This Log is to be used to document the date and item for each step during the completion of the above referenced test project. The assigned project numbers for each of the eleven test assemblies are: Scheme #91: 94367 A Scheme #113: 94367 G Schume #9 2: 94367 B Scheme #12 2: 94367 H Scheme #101: 94367 C Scheme #121: 94367 I Scheme #10 2: 94367 D Scheme #9 3: 94367 J Scheme #:11 1: 94367 E Echeme-#to SH436TK M Scheme #:11 2: 94367 F Scheme #131: 94367 L Scheme #141: 94367 M All events of any importance should be noted in this Log. Page No. ITEM DATE INITIALS r & M - W' f A L & t Y W l n A i # f /Z e d t /N4/f- r07 % T bt. k /1C4s( 9~3b AbtNddd( F3W l' #M and 86n D' -%2'a ' A f . Cf; R / 'p?a,3 Jm llf?g /sz.: 4 -: , M f f % w iasu.. tJa .s' Ssrz e /W- .5: 1_h _';Ll u d.1 W d Md 6 M AA?dl* e ..J/q sl- ' / Lid M w (( t ) 1 3C l , lO MOISTURE CONTENT LOG i i ) l SCHEME #9, ASSEMBLY 3: PROJECT NO.94367J l I i Position #1 Lower front vertical surface of the left 2" conduit on the LBD box. i Position #2 l Center of outside left 3/4" conduit LBD box on the vertical surface. l Position #3

~~~~Center of outside right 3/4" conduit LBD box on the vertical surface.~~~~

Position #4 Top horizontal surface of the middle 3/4" conduit to the right of the center support. l Data Data Data Data Data Data Data Data Data '6w Ms ss % yf %%% W ; O re *tte 1

~~~~90 @o $1 30 5 3r # 90 K Position #2 ,~~~~

Moisture Reading h h h ) Position #3 e dl g - @ Position #4 Moisture Reading $ 3 h [ j 2 N 1 n = Decender 28,1992 i' p> d

Report No. 12340 94307.1 1 Texas Utilities Electric APPENDICES i

~~~~I i 1 1 i 1 i t 1 1 i i i i } 1 i 4~~~~

~~~~Peak Seals Installation Data 3~~~~

i 4 } J i I i l I b i 1 5 i 1 4 f+ i o; , : 4 !_ t 1 j

~~~~T N~~~~

. once . . _ _ _ _ _ . . _ _, _ . - . - . . _ _ . _ . . _ _ . _ , . . . . . , - . . . . , . . _ _ _ . _ - . . . . _ _ _ _ _ _ _ _ ~ _ _ , _ . , _ _ _ . , _ . . _ . _ _ . . . _ _ . . . ATTACHMDC 8.C l CONST1WCTION VOAX DOCUKENTl ITIATION O^o dJuI t m. am .= s a.e m s e e,. -. v ee == .s . . . .w e pa s ~ ,- i. . . **.==. =.= . ,e.= '== == ="" . == . - **m .= _ .. = . =m.' = . m .. e == , ' ****= ..m * " . = ' . = e.a m a ,a. *. ,, ,,,. i , , . , . .a.= .e == ***.==== .. .. am I i i 3.see.te.sf.e mansf e .es etoe 9 F8* h.=8 \ ! %% .. av.c e.w i 'Q U g -.- _ s N 8 }. },,'y,, . gt * ~ I C en b 2 3 l u <3 4 E e4 4 4 o o o m s s E 1 h ? 8 9 i N I' N k e O R DTI MS+013 Rev.: 0 Attachment 8.C 4 of ,< l l ( nNe i , , a lb i \ Wu n Um u m lO cv1 . ' i cui o. 1 i o uir. oir.: ,/ 4. l CONSTRUCTION WORK DOCUMENT INITIATION 4 1 CWD TYPE T4 CWD No'r!t. l. Irl i in ir1 Iri rls t rl-lMi ti cini l U31 i ! A M IN M IN U W R O N 9 1 j o,s.n e i h 1. m.,- n.em C '.'.".'.'e Ii $ le/A p.esa. w In.p. our Asses .e.t g AJ.w e 1

~~~~s. l u.t Ph x~~~~

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t cnx s Fi n rus Y n r ein ca e Les-5 - j AMIN MENU M NON 9 7 c,em a ! Ant rus r l 2 8 9pp ( V]h4G ) l o.s.o r o s s l O Dioelpline CE #fN 8e eN7//N Pope 1 of - I assas.chr $ _ .. , . . , . - . , _ . . _ . . _ . . _ _ _ , . , , , _ . . ._,_.,,__f..:..._.._,,.__2,...__.__... ..- . _ . _ _ . . l @ GE C& fff M M gig R egg i 1 cHAmas I l pm.tTE get 9/v/e z. lQ CWD TYPE T4 CONSTRUCTION WORK DOCUMENT INITIATION CWD Nol7'lLl- 171i l4lri .Irlris Iri lMlt lelul-I i13 l i l MAIN MENU QPTON f f a 4 MAIN MENU QAON f 1 (Taamake1 (Can and gansaan1 Caman # 1 e : k k % N i 1 QPT, pas asm., M. m TAG NUMAaR WASNUMAaR hhA C '.ca i n alalt. e r 9 I 1 es a s a eb A LB SF \ .I i a dd es a n \: l l t dd 4a a ll l l s dd sa a s a l ' l s dd sa a a n a dd 4a a s a i a MW 4a a s a a dd 4 a a s a a dd 4 n u h n a dd a l l 11 1 ; l a dd 4 ll ll l i i l a dd s a a s a a dd a s a 8 8 a dd d a a s a a dd , a dd : a dd \ a ed - a dd-a dd a dd , a dd a dd a dd Essa 1.d DT1.Ms.013 Rev.: 0 . . "M' Attachment 3,C 3 of 7 1 - . . . - . . . . . . . . - . . . - . . - - . . . - - . . . . - . - . - . . - . - - . _ .__ _ - . . - . - - - - - _ . . . _ a -. 1 . ( ( ,, a l ,s I; -SELF VERIFICATION /SELF CHECKING ! /O. . 1.STOP l

2. LOCATE

3. TOUCH O 4. VERIF.Y-

5. ANTICIPATE l

6. MANIPULATE

{l.E. PERFORM AUTHORIZED WORKD l 7. OBSERVE . iO . (- ( 310 roumE 7an co-o.envimarou err pgg,,, O cwoiwo .: - - . r, <- - ~ s - ,4 VENIFY COMPONENT ID AND LOCATION: io w s,a. ex a a pwr mr CHAb) 8M OPERATIONS CONTROLLED AREA (STA 606,806, IN AN RCA, U1/U2 TIE IN) 08 _ al. CONST. ENGINEER SIGN / BADGE a DAT E5SNON SIGN / BADGE # DATE CONST. ENGINEER SI # DATE CONSTRUCTION SIGN / BADGE 8 DATE O prEN- .- # - - - ,=N. - # D-NON OPERATIONS CONTROLLED AREA / lbt.h'Y /Il d +/0 w - W ,O RE u.N . m . D GE , f un CON. ,mu . DGE , un FOREMAN . .ain#~ DATE CONSTRUCTION SIGN 1ADGE # DATE SIGN /5 ADO. # DATE CONSTRUCTION SIGN / BADGE # DATE NOTE: CREW CHANGE RFFUIRES REVERIFICATION o -: ,,n .- .- - -,-, y PORM NO. CCP 21312 f4V. O cop at3 - REY.: 2 PFCCfC M 000E 00 000 PAGE; 7.12 ' :* 3 ( ( 31: PcAl ol gwks smar T.? FIRE PROTECTION INSTALLATION RELEASE FPIR 7L- t/Er-7kt 7~- M mel'- 13 ORIGINATOR: fig Sug7"f w DATE: 9.jf.gg EXT: 87f2 EQUPMENT LD. 7gy gg y,pp j 3 SPEC CPES.M.aost REY. 6 DWG.h431700 REV. ol SLDQ/RE'EL2YlAZ Sft" Seopr~SWtr7- SYSTau 2 6900 pcArTut l t 1 m.o.m r m m.i.s p prm m. 7"est hjae#-up-/ 4 m.s e ,, e .{ l i im . YveY MMk = VP = 11 un >* w==ed **m B(6 tuwt1 m fNb_ d iWML s.u y ks r" C /n n e r4 ; Puur'AdBA leuGA/ .* rs1rf CAfrnR/A M' e!Mr? A risameputsaaeer Gpdoway May supposres O sinucTun.Lsiset O etactiscat penstmaton assemete , t antanaso ey man s == === s = = nuaneen av mas 6 == ma= 6 un 4 j , a c.w.nwe,an samma amm-dand a a e t, e tr.ma r #h e N/g

* [M'"*" p/g am ocin amese MM !

to am Ic/2*/A ' . c o sr., w pg ,, _m ,,,,,,, e,.s lbtfld/WA'- a.wy ,e p s - 1s.- ., M,M O , amipasey m.mne N/A ss fta.ec hsemassem ammene p M [/? M*24 s / /~ , m g/g 1s fcAt SEWS i 2$$YY e , e .ss e-84 wA u to amesra is Qffh2 } e com tr., e n w N/A _ REMARKS: i l i l l l l ' b'essam nessesy he. emme mammand by ese.asenne ter wesemam, a ey phe prennessen tasennes per com a 1asse l ce><v - ATTRICUTE VERIFICATION , l l mass ==r namensa ==maksess (Best, QC: - per cres4.asse Elect. CreR: ) .-. FinalVermeation: CreR QC . CE ! oe>4v.wr nov.i e l FedW Mo. DM 19F.? IWW. e peak f.? .188 8 l s im <.e e i.e (

(. a l s.

. S C O P E of.WO R K i O

\ CWD No n - me-rvsr - mer- 13 l MomirnN CWD h% ! - 4 l /2sfall T Aff n e L n d- As ?'~;adrD Fr CPts hs 2032 Ple l AM > C G P- C V -107 K'/0 eN f/M 7r* 47* Me& A'* W

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A f*' GMCG A SW AA8S f _C c H FM f* 9*3) l l l l O T en the samense enestem enas te vermed and assummmed by bettamasst manteen mese psNonenteme asesey Oirt of MScoppe WMAM aosa w .wmana or.*w m e m ) l Pese1 er , 4 e, , , = - - . . . . , _ - , ,,y,..,r ,.,_.,w.__,.. ,, - ,,,m. ,,m., _-,,.r_._. -r., ...<.,,,,..y. . , _ ,.--,~m.. < 9 i I 4.,4-eE PROCESS CONTROL DOCUMENTS CwD0 n- nrr-rd-m a cx 13 i apptgATENs DE N T M PROCEptNWROUpE# PM IEV. i vegg eso re. re.m re.s m .s . re.s re.e ro.7 ns.e Fa.e ; Tyamummann aan CEF-CV-98F . - M1FIWs94 Arete ATMNWIWPANI R G.T.1 l ! l [ 35s-t APPLICATI0B0 ODICARE ABS ftACSuhY FIS.7.2 i s o o o o o 5 / j FWW STOP WSTALLATENS FIS 7.3 o o i 35s ees ArruCATIDst R G.7.4 i i ass-t APPUCAftopeOfeST54WCFUptALSTEEL R G.7.5 nacimT EsmRsYmeEno seSTAuATuNe R a.7.e l g RIE PptOTECTIQUI WSTALLATKWe pasa sans n g.7.7 - o ; T-tAGUEES IIERADWAL SEQUEST FIS.T.e i {' ; OC DAILY WWPECTE0B0 f4000W R S.7.9 o o ; f ELECTWWCAL OC 6 RG.7.M E o ! marerrtT VDWICATunse FOft e.am' E TRAY FML7.12 "^NFIT VHRIFICATIOff FOft ennes__mT 2 & namJs Fa17.12 , ? - . BACEFK VEfEICATIDff FOft ilEfREE.AG TMI-GE TM LAYEft APPs ePATaned FEL7.14 { PEMtTRnrise Stvl C 9 P-MS-125 ; } sI anr7Nanon sent ennD rom cw w.s.rzs-3 l o l l l l l l l l i 1 < l / l 1 j i i a { W +1 i i 1 _ _ _. - J ( n

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~~~~(* 1 PENETRATION IDt GCH6tnC 93 /l.5 /4.c'FT /4447 D G W.~~~~

~~~~PENETRATION SEAL CARD~~~~

! SEAL DETAIL NO. I g Q3 j QA APPLICABLE /J4- CONST RELEASE &m 7-N1L ! c4A ec/037/ 02 !REV.t 9- /u-t't PREPLACEMENT INSP A HOLD PENE. DIMENSIONS: 150 POSTPLACEMENT INSP V4 RELEASE

BARRIER RATING A/ 4- COMMODITY RELEASE 1 ELEC d4 MECH ds

TYPEt I&C wa ENGR a+

~~~~' DESCRIPTION:~~~~

~~~~COMMENTS nar m es ermaanserv ewfoevr om. amer ., wA MS No.~~~~

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~~~~notapoorti N~~~~

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[ 1 0) % t I m L CERT IF- BADGE OVERALL Till'mJ-PER5 ICATI 9 RECORDS LIST NO. 1HERMO-SFTY/TRH LAG LAG BA R- RES FEAL LP 4 3010 SEALS STRUC/ RESPIRATh E VPE O. 1 TR81HING 1 IN000. LP H3003 LP H3029 RES HILII IN DUNNAH0E, JAMES 0. PK104 07- 02-92 07-10-92 07-10-92 07-23-92 T- R ELLETT, JASON T. Pf011 07-19-92 06-18-92 06-18-92 08-09-92 T- R GRIFFIN, ROBERT U. PK100 07-02-92 07-02-92 07-20-92 I GRIMES, JI MMY C. PLO39 03-19-92 03-16-92 03-16-92 07-23-92 01-07-92 03-17-92 T- R- H GUIORY, JR. ROLAND E PK092 04- 20-92 04-27-92 04-27-92 07-30-92 09-20-92 T- R HAMHONO, illCHAEL V. PK123 07- 09-92 07-09-92 07-10-92 07-!9-92 07 92 T- R HAHHA,RICHARDj$if$~'PK012 08- 20-92 08-09-92 03-20-92 08-09-92 08-25-92 T- R- Y HARGRAVE, RODNEY J. PK099 09-01-92 06-11-92 06-12-92 07-30-92 T- R HOLDLER, JACKY U. PK099 09-01-92 06-09-92 OE-09-92 07-11-92 t T- R HORH RICHARD 0. PLO97 05-19-92 07-27-92 05-21-92 06-25-52 OE 92 T- R IVY. RICHARD H. FLO79 06-25-92 07-27-91 06-26-92 07-11-92 07-11-92 T- R JACLSON, BILLi R. PK103 07-02-92 07-02-92 07-02-92 07-02-92 07-20-92 T- R LENNEDY CLARENCE A. Pff32 07-16-92 07-16-92 07-17-92 I LILLGORE, RICHARD G. PK069 06-19-92 06-18-92 05-10-92 06-25-92 OE 92 ' T- R LAYTON, JAME5 8. PKf52 08-25-32 08-15 '32 08-17-92 I LAYTON, LENT E. PLOT 9 03-17-92 03-16-92 03-26-92 07-30-32 09-07-92 03-17-92 T- R-H v/ LOCDIART, THOMAS U. PL151 03-25-92 08-13-92 00-13-92 I M: ROBERTS. JERRY 0. PLO93 06- 25-92 06-25-92 06-26-92 07-30-92 T- R c3 C3 _ . . . . . . . _ . _... .. .........m ..iu... l..A... in'. i ^ 6 C .' M ieTi O O N '. ' i ' t J' 8 i H ' I " ICAT I0fLRECORDS L IST H0. 5Fi f/TRil LAG 1A6 LP 113010 SEALS EMBED. 1 TR AllilliG x l It1000. LP ll3009 LP V~'l HILTI (d RES d lNSIALL. C_') . M0llIG0MERf, GEORGE PK038 07-02-92 07-02-92 07-02-92 07-20-92 T- R MOORHEAD, RONNlE 0. PKi06 07- 02-92 07-02-92 07-0?,92 07-20-92 T- R - MORELAtl0, IllLL i AM PK053 06-05-92 07-09-92 06-09-92 07-30-92 T- R PARKER, BENNY RAY PK157 08- 27-92 PEllNINGTON, H0llELL PK108 07- 02-92 07-02-92 07-02-92 T-PHIPPS, DAVID PK137 07-16-92 07-27-92 07-17-92 T-PRICE. 8088Y PK013 07- 02-92 07-02-92 07-02-92 07-23-92 T- R PUCKEIT, CONNIE PK101 07- 02-92 07-02-92 07-02-92 07-19-92 07-11-92 08-25-92 T- R-H _. RAY, SHERRI PK133 07-16-92 07-27-92 07-17-92 T SMALL, BILLY Pfl07 07- 02-92 07-02-92 07-02-92 07-19-92 07-11-92 T- R SVITH, RONALD PKt93 07-10-92 07-10-92 07-17-92 I 5UTTON, JAMES- PK088 06- 25-92 06-25-92 06-26-92 I _.. TRUEIT, JAMES PK070 06-19-92 06-18-92 05-18-92 07-23-92 T- R UMBERGER, ARLIE PK018 03-17-92 09-09-92 08-01-92 05 - O'l- 92 T- R VAUGHI, JOHNIE PK023 03-17-92 03-10-92 03-10-92 07-23-92 I- R UHIPPS, JOHN PK022 03-17-92 03-10-92 03-16-92 07-23-92 04-07-92 03-17-92 T- R- H UILSON, 5AMUEL PK015 09- 01-92 06-' t 1 - 92 05-12-92 I ill N G O , K E i l N PLOO9 08-31-92 06-09-92 OE-04-92 08-01-32 T- R NICAR. tilLLIAM PK030 09- 21-92 08-09-92 09-27-92 I feul AtlAuof i - @ C. .fo gg $sq,4 Bs:oLett - ' e c. fli.ukise'L 5 x l e - Q L . G3 G) PEAK SEAES yyoR CONTRACT NO. C-0040219-7C5 i-n U VERIHCATION OF COMPIlANCE TO REQUIREMENTS OF CPSES STA 152 {AME: onn it M o o (~ h e_ ct d m) Pbloy 30C.SEC. HO. 4 5oi- 9 o 6t, % SAINING HAS BEEN w.vtN TO AND A N T

~~~~P BY THE ABOVE NAMED~~~~

'ERSON IN ME F0mmutG: ? QAH-20188 HEN. Y QAP-O010.CP RE7. UNIT. QCP-0018.0 m. . C1.A5511 QCP-007G.CP REV. , QCP-0050. CPT BEN. SPIRATORY PRurrr os (EESPIEATOR 3M 9925) PEAK srnTm m MSDS FOR INFORMATION i 3%)unin ONLY / C2P-C7-107 EEV.Y %eu.o h 4 ! dCff641 W IbO AUG 141992 BROWN & ROOT SAFITI -

~~~~$U ELECTRIC I~~~~

PEAK SEAIS Anhin wrwxPTrra . INSTAILATION OF THyment.ac (B k R) TSI (rn wwwcI.AG namouRD, MEcHY & APPrmgay) } l OTRT"R.: _ OC M 069.CPT RE:7. PsG: SE:AIS RElS INSTAUATIEN l no,rn c crm Tmmrrmn: we - t .u:.a BY: uxuz - L. sak WII2, WM M j DAE 2- ! 3-PEAK SEALS . l CONTRACT NO. C4)40219-7C5 lO vEair1Cir10x orcourt2ANCE TO REQUIREMENTS 03 CPSES STA 152 NAME! 'b N6nO ed(1 - ' BADCE i % 013 2-SOC.SEC. NO. 44 T- N3. ~ bb TRAINING HAS BEEN GIJEN TO AND ACwmm BY THE ABOVE NAMED PERSON IN THE FOLLOWING: C QAM-20188 RE7. ' O QAP-0010.CP RE7. j u- QCP-0018.CP RE7. O QCP-0070.CP RE7. ,

~~~~O QCP-COSO.CPT RE7-c RESPIhATORY PROTECTION O OPEAK SEALS SAFEFI (RESPIRATOR 3M 9923) a MSDS~~~~

(" CCP-C7-107 EE7.Le I 3 BROWN'& ROOT SAFETY 3 PEAR SEALS ADMINISTRATION . 3 INSTAILATION OF Tmrmarmar: (35R) 3- TSI (THEREOLAG HENntDID, THEORY & APPLIC& TION) . 2 OTHER: OCP-0069.CPT EEV. 3 PEAK SEAIS RES INSTALIATICH I wrm c wrm mminwrm wm VERLr. LED BY: C=E - A& TmE - ones . DATE b ~ N -3 3 34 i PEAK SEAT.S !" gp"'c,^;2, l CONTRACT NO. C 0040219-7C5 - ['- i VERIFICAIIDN OF COMPIlANCE TO REQUmwNTS OF CPSES STA 152 ) NAMES bGAl k O @n , anoag: p PV_ oIl e ISOC.SEC. No. I 'OR - ( n d -@M i l TRAINING BAS BEEN GI7EE TO AND AcccMPr.Tnum BY TEE ABOVE NAMED ! PERSON IN THE F01I4HIIBG: !c QAM- 20188 ' W.

~~~~C QAP--0010. CP W. .~~~~

~~~~13 QCP-0018.CP W. ~~~~~

~~~~2 QCP--0070. CP W.,~~~~

? QCP-0050.CPT W- ' l2 InATORY PBcTyr-mnt (RESPIRATOR 3M 9925) N E8 ss NNiq2. jr ccP-c7-107 EEV..h~he_4.O ECR 4 BROWN & ECOT S&FETT PEAK war.n amtrursrrnierrnt . INSTAIIATION QF PNPmenr2r: (B5R) TSI (Tmtmsour: par,ermnusc, THEcgr & APPLIc1Pmt) OTHER: Q _ CP-0069.CPT- W. ., PEAK SE3IS BES INSnUATH2I s .u:.u BY: NAnz - L 6AL mm - mus-m 03 2 e 9 > O Ql

~~~~PEAK SEALS i CONTRACT NO. C4)040219-7C5 lO vEascinan oFcouruincs j To REQIHREMENTS OF CPSES STA 152 iNAME:~~~~

i MLMil Pe n ninc fo n Em2# 0K ei08 -c . ! SOC.SEC. NO. If A9 3D99 ( l TRAINDIG EAS BEEN GIVEN TO AND AcccMPrmm BY THE ABOVE NAMED ! DERSON IN TEE FCIIcWING: i jC QAM-20188 ' I.EV. i {O QAP-0010.CP Idv. 4 j Q QCP-0018.CP EEP. l0 QCP -0070. CP W. I iO QCP-0050.CPT REV.

~~~~a. RESPIRATORY P N tni (RESPIEATOR 3M 9925)~~~~

!O PEAK SE1LS SAFEff lC MSDS g CQP CT-107 EEV. k c BROWN & ROOT SAFETT I l3 PEAK SEALS ADMIBISTRATION . P i3 INSTJTmTON OF Turuner1TJLn (B R) I 3 TSI- (THERMOLAG. B&CEGRQtDID, PernrY & APPLIC& TION) 3 OTHER: OCP-0069.CPT REV. {3 PEAK SEAIS IES INSTAUATICE i - j 1 -- mrm c wrm mwnintTru we VERIFIED-BY: OmE - 4M TmE P- mus-DATE b 'Y ' 7 A l l' .- - _ . - . , , . . , - ~ . _ . _ . . _ - - - . . , _ . _ . . _ . . . _ . . . _ . _ . - . , . . . _ _ . . _ . _ . . . _ _ . . _ . , . _ , . . . - . _ . . _ , . . . - . . _ - i : PEAK SEALS N. :. 0 L:. 0 1 CONTRACT NO. C4)40219-7C5 !O vEargicir10x03 couvraina l TO REQUIREMENTS OF GSES STA 152 . NAME: Nen h (~. f 0-4 Io n PA ' EADE i k. 00 4 % SOC.SEC. No. S &lo -bl,- Nio 2 9 i , PERSON TRAINING HAS IN THE REEN GUTER TO AND AN.TN BY TEE ABOVE NAME FOILOWIEG:

~~~~C QAH-20138 EE7.~~~~

jC QAP-C010.CP EE7. UNIT. IC QCP-C018.CP EEF. . O QCP-0070.CP M!V. , C1.AS3 il jC QCP-0030.CPT RE7. YN (RESPIRETCR 3M 9925) io PEAK SE1LS S&FErr C MSDS i SWM2 ~ FOR INFORMATION U ONLY g lcr 6-W EE7.I h .o h 4 d6f ggg !O ' BROWN & ROOT SAFEEI (N - ELECTRIC l3 PEAK SEALS AnNTNISTEATION E 4 l3 INSTyr7MTON OF Twymermic (3 5 R)

3 TSI (TfrERMcLAG marTr= mund, THEORY & APPLICATION) i3 CTHER

W O69.CPT EEV.

J unern c wrm mcrarrrrrm e - VER Lt.Lzu BY: Nxnz - elAAJ-mm -- ._ Oxrt 8 4 -

3C i

PEAK SEAIS

! CONTRACT NO. C4)40219-7C5 . VERIFICATION OF COMPLIANCE l TO REQUIREMENTS OF CPSES STA 152 )NAME: Thnmos M Loc 1Mc4 ' Bao2 # ~PK ois i i SOC.SEC. NO. kS'756 kCNS TRAINING HAS BEEN GIVEN TO AND ACCOMPLISHED BY THE ABOVE NAMED i PERSON IN THE FCLLOWING: lO QAM-20188 ' REv. i lC QAP-0010.CP EE7. t j u- QCP-0018.CP arv. IC QCP-0070.CP RV. ( . j c- QCP-0050.CPT M- ' i lC RESPIRATORY PROTECTION (EESPIBATOR 3M 9925) l PEAK SE1LS SAFITI l/ uses lg( C3P-C7-107 EEv. O l[ BROWN & ROOT SAFETT 4^ PEAK SEALS ADMINISTRATION ' . [ INSTAILATION CF- TnumenLaG (3 5 R)' j3 TSI (THERMOLAG Rat"rt:nritDID, TRFoHY & APPI2CETION) i 3 QTHER: CCP-0069.CPr EE7. t j3 PEAK SDLS RES INSTALTATIEN a 3 tror%w s tarY7P TM9TATTATTNJ wc VERlr.Lsu BY:- f O A=E 4& TITLE NNN i' DATE '#' 1 .l 1 i PEAK SEAIS ~ 34: CONTRACT FO. C-0040219-7C5 l !; O VERIFICATION OF COMPLIANCE lj TO REQUIREMENTS OF CPSES STA 152 i NAME: hO Ld Ad(tm05i BADGE 6 h K 00"I $

~~~~SOC.SEC. No. O b) ~ D 3 ~ IYO ~~~~~

~~~~j TRAINING B&S BEEN GIVEN TO AND ar mwormsnrn gY TEE ABOVE NAMED j PERSON IN THE FOLIMING: l C QAM-20188 EE7. l j O QAP-0010.CP EE7. i~~~~

~~~~O QCP-0018.CP '~~~~

~~~~EEV. '~~~~

C QCP-0070.CP IE7 .

a QCP-0050.CPT EE7. '

. O RESPI (RESPIRATOR 3M 9925) O mx RATORY r., ,,,m PROTFN . c MSDS Er' CCP-C7-lD7 EE7.k f 4 0 BROWN & ROOT S& FETE C PEAK SEALS ADMINI3Tn1TTrw . -o a INSTJ7nTTON g, ewynnenran (3 & R) c TSI (PRrmenLag narenUND, TEEDRY & APPLICATION) C OTHER: OCP-0069.CPT RE7. a- PEAK SEALS IES INSTALTATIEN j a ww - mnnam - VERuu.u BY: KMfE

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DATE bd' A 1 CERTIFICATE OF QUALIFICATION U2I /] hpL /) Ac/fw d, HAS ET ALL QUALIFICAi!ON CRITERIA ESTABLISED BY PROCEDURE NO. QAP-0010 Ato IS EREBY ERTIFIED TO LEVEL T FUNCTIONS AS KSCRIBED BELOW APO AS FURTER DETAILED IN SUPPORTING TRAINING RECORDS. =================================== LEVELS OF CAPABILITY INCLUDE: [PERFORHING CABLE PROCEDURES. Ato RECORDING INSPECTION NO TESTS C PLANNING INSPECTIONS AND TESTS, INCLLDING TE PREPARATIGN AND SE RELATED EQUIPENT. EYAtUATING RESULTS. TE YALIDITY AND ACEPTA8ILITY OF INSPECTION AND TESTING @ REPORTING INSPECT 10N, EXAMINATIGN, AND TESTING RESIA.TS. O SUPERVISING APO TRAINING EQUIVALENT APO LOWER LE O QUALIFYING APO CERTITYING LOWER LEVEL PERSONNEL, EV/J.UATING THC AOCQUACY OF SPECIFIC PROGF.AMS USED TO TRAIN O au,1IFYING Ato CERTITYIE SAE LEVEL PERSOFEL. ================:=================================r======== THE BASIS FOR THIS ERTIFICATION INCLlOCS: r [ EDUCATION APO EXPERIENCE AS 00CtENTED N FORM NO. O x^N^cEmNT tecRADE AS DOCt=NTED m r0RN NO. QA-is. O PROGRN#4ATIC APO ON-TE-JOB TRAINING AS 00CLPOiTED O PR T ICIENCY TESTING AS 00CtK NTED m FORM NO. QA-19. ========================================================= =_ PER100 & ERTIFICATION ERTIfIED BY /3 FR34 b-]$ YI TO b ] [ V] Y V SIGSATURE r $ 25 VI. DAIE 7N QA-17 N. 1 1/26/87 n $. - U1 Report No.12340-94367) December 28,1992 Texas Utilities Electric APPENDICES O i l I a 4 O Certifications of Calibration and Conformance 1 i i s 6, ?s c 1 ri ' f, %g4 ATOP 4 g 1 4g-3 S K R M A O % L M E R /9 9 M - 4 99 A t c j e e O Ob - E C R S 0 / N I R 1 b A T P E d l H o D C E DE Y : C t p B E T A e N MVC B A c c UIE EP D NC S E T T E N S RRI C E N O P T T S EE P OI T W T E AA N P - R R DD I E C X O E P l Eb Y l E T R NIR d AG T & N E T b ON b G C I N ID I HC NI Y EEY m V ' Clf (J I E ,' RL I TM Y NA C 4 C MY L 'm GA EN R R ER C O N D 5 A/ E mmh B I 1 N Q ANNU OI 0 0 8 3 T T MT Y CCO E E R C A T I T d /c e J J FOL OO N A R M RRD T U e Q ds PPE / / T T VCE I O @ NNEJ CO E L LEI ER I H OO. Q . N CC HP OR l N E O. O , D l f M P N N OI P T P ) L I O, R k

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Omega Point Labordories, Inc3"~ j PURCHASE ORDER - 6868 Alamo Downs Parkway, San Anton:0 TX 78238 (512) 647 5253 FAX: (512) 647 0615 -s 'd PO Number: Vendor: Janice 9237Q PMC Corporation 57 Harvey Rd. Invoice, correspondence. all shipping papers, and packages must reference P.O. nurrter. Londonderry NH 03055 Bill To: Ship To: Accounts Payable Constance A. Humphrey Omega Point Laboratories, Inc. Omega Point Laboratories, Inc. 6868 Alamo Downs Parkway 6868 Alamo Downs Parkway San Antonio, TX 78238 San Antonio, TX 78238 Order Date Ship Via F.O.B. Dete Required Terme 9/21/92 UPS Blue Label Quantity Unit Extended Itern No. Description Ordered Price Amount KK FB/FB-24 50K $212.00 $10,600.00 4 1. 24 Guage Solid Type K Special Limits of Error Fiberglass l 2. Calibration fee ! Plus Tax & Shipping "See Spel:11 c"ch ~ 'M l Purd:!r- ??h"? ' ' '.' '" ? i7 ptsurm ? :;/ m : . QA t,p;p.d 1 D' - ( Date 9 -M'9 A Special Instructions Order By: Constance A.Hurrphrey TOTAL include Certificates of Conformance, include Project #: 12340 94367 Calibration $10,600.00 fq p g gqg I n U l l l l t i i n-00 r o DDB . CERTIFICATE OF CONFORMANCE TO OMECA POINT LABS DATE in /nn /o? CUSTOMER PO# 92370 6868 AIMD DOWNS PARWAY SAN ANIONIO. TX 78238 JOB # 13184 -1 PMC P/N QUANTITY CUSTOMER P/N SPEC KK-FB/FB-24 20.R95' THE FDLIIMING SFOOLS ARE MANUFACTURED FROM Rm. NUMR57tS C;PnnL R4022, mm. la6 76 /1a677 n SPOOLS 84023 & 84024, REEL 14564/14565 AND EPOOLS 84025 14534/14515 t ) ADDITIONAL INFORMATION (IF REQUIRED): IN ERROR IN ERROR IN ERROR IN ERROR IN ERROR SFOOL # 200*F 400*F 600*F 800*F 1000*F 84022-INSIDE +0.1 +0.3 -1.4 -0.2 +1.1 84022-CITSIDE +0.2 +0.8 -1.0 +0.2 +1.4 84023-INSIDE +0.1 +0.1 -1.6 -0.5 +0.8 84023-OUTSIDE +0.4 +0.5 -1.1 -0.1 +1.1 84024-INSIDE +0.7 +0.1 0 -1.2 -0.2 84024-OUTSIDE +0.3 +0.5 -1.1 -0.4 +0.6 84025-INSIDE +0.5 +0.5 -0.6 -0.4 +0.9 84025-OUISIDE +0.4 +0.7 -0.6 +0.1 +1.1 This is to certify the materials furnished on this shipment are in conformance with the requirements, specifications, and drawings of the above referenced customer purchase order. Inspection and test records are on file and available for customer review. ldA4 . Quality Assurance inspector (3 L Quality L Assurance t// MaMer/ ON N ERRY,NH 03053 (603) 432. WIRE FAX (603) 4324435 - - - . - - . . . _ . - . ~ j , -n' O .i j OUG g ') l) y PMC CORPORATION 57 HARVEY ROAD, LONDONDERRY, N.H. 03053 * (603) 432-WIRE i 'd SPECIAllZING IN WIRE. CABLES & TEMPERATURE e j . ~ l I SOLD TO l I SHIP TO .. . .. 2 u. . 1 u, , .a . ..,. .= ., )

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~~~~2. C FT 6 FEET I SHIP VIA - -~~~~

- F.O.S. TERMS j ., , , .y ;a, ,, 3 POUNDS 7- LOT ' 4 EACH NET S.OTHER 4 lg .o_ oRo_ i 9 , <:. n c e .: . . , , . .m.a ;20,g75 - 1 l ,

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g= j C1, Z' 58w S Q_ 0F x O ru s a e ve on Lu J p JcA0 cc $ u. 9 c' ::3c s et ( Xk O =z2O 9 Z o W n ,- 1 ~ 5 c 30h ~ 5 = ~W 9 aaS-cc $5a0 8 4 g 6 5508 22== =2 o. e 1 ou-- gg gt,; o 9 (1$ i0 G~ 6 .O , gi . v n v n n a t. vnwn.. - 6868 h Dcwns Parkway, San Antena TX 78238 n - (I t- (512) 647 5253 FAX: (512) 6& c615 dV e e s Andor: PO Number: 1 9235Q l /MC Corporation 57 Harrey Road invoice, ccrrespondence, El Londonderry NH 03055 shipping papers, and pacoges must reference P.O. numw, 1 Sill To: Ship To: Accounts Payable Omega Point Laboratories, Inc. Omega Point t.abora:ories, Inc. 6868 Alarno Downs Parkway 6868 Alamo Ocwns Parhvay San Antorno.TX 78238 San Antorno,TX 78238 Crder Date Ship Yta F.C.B. Date Required Terms 9/10/92 CPS 31ue Label ASAP Quantity Unit l Price Extension l Item No. Description Ordered ~ ~ 20 Rells 212.00 4,240.:: 24 Guage Solid ?,rpe K Special Lis:..:s of Ir:c: Fi.berglass 20 Rolls 9 1000' each. i l l "See Special Instnictions Regarding l Pur:hasing Specificatiens for Quality Assurance Requirements." QA Aparel C-Date 9a /N s /9A i i l Special Instructions TOTAL C@ @ @ @ H e g ey Include Cartificates of Conforman<:e 4,240.00 l Project #: General Use l l k.)t u n ed ' 4 /4 > 15X I (9 Wd _ .. 7 n 'w] ~._ - - l l 1 1 I % h %,6 r CERTIFICATE OF CONFORMANCE i N N LABS 10/08/92 TO DATE 6868 ALAMO DOWNS PARKWAY CUSTOMER PO# QM50 SAN ANITIO, TX. 78238 jog g 13126 PMC P/N QUANTITY CUSTOMER P/N SPEC KK-FB/FB-24 15,120' THE FOLI4 MING 9 POOL #'S ARE MANUFACIURED FRO 4 THESE REEL #'S 84031 14676/1467! 84032 14676/14677 84033 14674/14575 (m) ADDITIONAL INFORMATION (IF REQUIRED): IN ERROR Ih ERROR IN ERROR IN ERROR IN ERFOR l SNOL# 200*F 400*F 600*F 800*F 1000*F 84031-INSIDE +0.1 +0.1 -1.6 -0.1 +1.3 84031-OUISIDE +0.6 +0.2 -1.1 +0.1 +1.6 l 84032-INSIDE +0.3 +0.1 -1.5 -0.1 +1.3 84032-OUTSIDE +0.3 +0.1 -1.3 0 +1.4 8s]33-INSIDE +0.6 +0.6 -1.2 -0.2 +1.0 84033-OUISIDE +1.8 +1.1 -0.3 +1.1 +2.2 I, This is to certify the materials furnished on this shipment are in conformance with the requirements, specifications, and drawings of the above referenced customer purchase order. Inspection and test records are on file and available for customer review. i 10 % , V QuaIity Assurance Inspedtor wM 57 HARVEY ROAD / $. - - LONDONDERRY NH Quality Assurance hgger[ 03053 , (603) 432-WIRE l FAX (603) 4324435 ('b~L dtd/.f(>Ov I ' l ,,', .. j l 1 , l i i [ l) y PMC CORPORATION 57 '.4ARVEY ROAD LONDONDERRY N.H. 03053 * (603) 432-WIRE SPECIAllZ!NG IN WIRE CABLES & TEMPERATURE i a > i l l. ~ 4 f~ SOLD TO l I SHIP TO l j zu ,: , . .m a ., . . .

e, 0 4 + s , , 4. . . . rg,w, i nt t; 4 4 , .? o it-f '. M 4 .tii CiJ i ^4 74 ' J .' . ' ..! -1. !

+4,- p i

l l L J L _ ! DATE RECEIVED CUSTOMER NO_ Ga O T PMC JOS NO. j 3e , :w . . .) - so a- ... . j l CUSTOMER P.O_ NUMBER REQUESM SHIP SCHEDULED SH&P CODE

1. MFT 5 METEAi- i 2, 6 FEET l w t; ' SHIP vtA ,- s- c:- "- ^ ? c. F.O.B. [' <

TERMS . i. : ;- 3, POUNDS . 7. LOT , m, l . t, , , , % ,, . . .; l 4. EACH NET - B OTHE4 TEM OUANTfTY ORDFRED . ..MTNUMBER DE SCRIPTION . 44 4 t L .. r - *:P. . ,' 4 / M . [t'/ ,

. ,;. , . % v

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7 '@ . ~ . ,, . k ~ S[r) (p : r.R.Fr. An .4 .r-d c h t Js>f t iHi4 1- . -. n ; ll kgM , ,g5 % . ;. _ , }~ . ) i.V CALiRO.ATsC+J &T j { c ' 20C 400 %Q.non.1 1 f 'f !^Q) ? . l ^ C f C' C ' F Qt3 t D E f: .;j r r ? I I* !_in ! ,. Bed._El! _mmi _g w -d

~~~~Qll4!,4,et * ~~~~~

w C=- .Q w 1 ---~- UNIT PHICES ARE BASED ON COPPER AT 5 ,1b.. SILVER AT $ ' /TROY OZJtlOWEVER' UNIT PRICES INVOICED WILL BE BASE ~'A?ERIAL COS,T ON DATE OF SHIPMENT. < - SECIAL INSTRUCTIONS: mammapa -e - e -. > m.m , m +..e - meam -,,, , ,, . . - . 19/6/> d - 7M' , / i/ J d' P AC onSt jo f aa T s. s , a / {~,. y. g , b&#l l/ [ Y O ) 2-l5 m s .. , JY474 , i l HAI-KP*l l'F ' i ,NON MAGNETIC . I IKEgy9,C,Qy$E ,q%D,l E llk.{s:'.* = SIZEI GROSS 33 Y Ed , 24 TARE 1.65 l ' S

~~~~S-eu, nE1 2 i. wl-r\ = = \to.A .~~~~

! HEATS .. wr \ 4323 hk cou d f i er i siis Leo 3 1 to l' . . n-v &r ,rs -w t 3mg}3,w y. m ;h, RES n /Ft. ,,' T l f,wr/nm/co2 2d' ' spec

~~~~eeis,i,a b=rh= / J ;~~~~

DATE / / / f INC V 'lI AF ISON ALLOY 71 / f l 4 %lFF,isog hb ' jo Y/g ;\9 gg II - ;c . .A -- SEE.p.jft!GROSSTARE. M '# b- ExFF ga M y .s.no 00 B&S eEa* W ' ",, - -to L1.ux $ couM > w, 7 P.O. a"' @ -4147 M , 2m - i ass. SPEC. m 052.- easMg^ao?u ams 't . -O - w\\ t \\ ;t\ \ . Misq .. ..,7 . _ _ . . , y y-,., T 'YY O 12- *"*- **"s l '*

Y ' * *

rl fe s -- /feo/g gf jyg y , ,

~~~~jpoaf C E fife 2/~~~~

~~~~330~~~~

/< // / y (, 77 4 O ii s^r-ke iis' h, ap;f Il NON MAGNETIC ,iNAW 9c,qy m ,ql}AQf ( ' SIZE' ROSS 33 4kil5 RE B&S- O' HEATW g gT l ~79}j#'\ 7.- , . . w r \ 4' 323 '\ h Colls- O - or I a.its}h P.O. ~,p ... j:e;:j wr 7xs eoey i J '~ RES. n 61. ,. ; w rj stsoaj+ eoc, ,*.e. g SPEC /16ayr/ 28474 [00 2 '[j' P/N -/ps/35.334/ j DATF / / / __/ 9 lKAF. ALLC0 INr j' . n. v.imith . 93 . A_ ' gAGNETIC " AjIm oco.ue.'.5.*._ g." a 0 00 a.as B&S g - y I . .- mL 4 .cou 23 a, se.- p.o. / G

~~~~1 5 295 80 ass. av 7.52~~~~

*y .em O b SPEC "" W.8 vsiac) 0 o ga 9 f' \Rz"\%.Y\%s.a \ . n.is. . _ --y,_v p- ,- - _r.,. _ . _ . . - _ _ _ i .c s.....,g,,7 . , ,, , ' ' " ' #"Ir ^' r' #/%: py Y**'I* D/02] . , , git /y'4yr O ' '~ ci l'H AI-KP" GNETIC, l l', l I@..; . .; II NON MA RADE' . , , jiTf;lEMS9U,P,L,E, G ,, ^ ,h SIZE' 0.$fdROSS2S A L\El!\Ob\, l 'sas _!.iT p^ q', Q wr\emafj42:3h.o3Q Qi g, HEAT #f m Coll 8- /9 . [mt } 6us hoz] -co 40 I ~ 4 , , ,. wr -Fs , } P.O. _ - n /f t. ' , t w r; 17w por 2 4.y.cl RES._ ~-- },wF/rt474Mos" C.~"'~ SPEC.#_ NsM_ fbf/MM4 /'l2M , P/Nf.f.P-24 _f ,j f j ' DATE- OS/21/92 - ALL Y j y.< INC. / ~1 ! lyuAgn)i ON \ i g.lsoH,8,-}*M '/,/}}

ML20128H052

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