ML20128H092
| ML20128H092 | |
| Person / Time | |
|---|---|
| Site: | Comanche Peak  |
| Issue date: | 01/05/1993 |
| From: | Humphrey C, Priest D OMEGA POINT LABORATORIES |
| To: | |
| Shared Package | |
| ML20127K787 | List: |
| References | |
| 12340-94367A, NUDOCS 9302160270 | |
| Download: ML20128H092 (248) | |
Text
{{#Wiki_filter:- ----- _ - FIRE ENDURANCE TEST OF A THERMO-LAGS 3301 FIRE PROTECTIVE ENVELOPE (3/4 in., 3 in. & S in. Conduits with Radial Bends) ' Project No. 12340-94367a Scheme 9 Assembly 1 FIRE ENDURANCE TEST TO QUALIFY A PROTECTIVE ENVELOPE FOR CLASS 1E ELECTRICAL CIRCUITS ' November 23,1992 Prepared For: TU Electric COMANCHE PEAK STEAM ELECTRIC STATION P.O. Box 1002 Glen Rose, Texas 76043-1002 4#^ % isR"28 QRig, %,)
Report No. 12340 943670 Novtmber 23,1992 Texas Utilities Electric Page il ABSTRACT A 5 in. diameter conduit assembly , a 3 in. diameter conduit asembly, and a 3/4 in diamcier 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 P entitled: "ANilMAERP 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 miosutes 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.
$tc/' b Constance A. Humphre'y A>Wl
/
/Y93 Datd /
Manager, QA Dept.
' 9.3 Deggari N. Priest Ddte President G AA, o
o A f* 49 ogggo ( t a
ReportNo.12340-94367a = Novsmber 23,1992 Texas Utilities Electric Page iii . 9 TABLE OF CONTENTS TIEM PAGE INTRODUCTION :1 OBJlsCTIVE 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) 9-Test Items (Conduits) Conduit Supports '9-Electrical Cables 10 Thermocouple Placement- 11 ; Thermo-Lag
- Installation Highlights .
12 - TEST RESULTS : . 14 CONCLUSIONS- 23: ,
; APPENDICES :
1 Appendix A:--CONSTRUCTION DRAWINGS 24. I Appendix B: TEST PLAN 31
. Continued on next page
, /^ ~*s oggyo _ . ....;, . . _ _ . . - - - ,,,~.u ._ ,, .-
__ . _ - _ _ ~ _ . _ _ _ _ - Report No.1234494367a - November 23,1992 - l Texas Utilities Electric Pageiv ! TABLE OF CONTENTS (CONT.) TIEM PAGE Appendix C: THERMOCOUPLE LOCATIONS 54-Appendix D: CIRCUIT INTEGRITY DETAILS @ Appendix E: INSULATION RESISTANCE DETAILS 80 Appendix F: GRAPHICAL TEST DATA T Appendix G: TABULAR TEST DATA 323 Appendix H: QUALITY. ASSURANCE 400 Appendix I: PHOTOGRAPHS 619 Appendix J: THERMO-LAG 8 INSTALLATION DETAILS 666 Appendix K: NRC LETTER, "Thermo-Lag * ~ Acceptance 673 Methodology for CPSES Unit 2," dated October 29,1992 Last Page of Document' 681-i
% ..,/ !
- -. ,, . ..-m .
Report No.12340-94367a Ncy:mber 23,1992 Texas Utilities Electric Page1 INTRODUCTION The protection of vital electrical circuits from the effects of an external fire exposure is of primary 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 electrical circuitry must remain functional.
, --.2-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 r 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 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. OBJECTIVE 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 PLAN, 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.
'I1ErPROCEDURE
-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. f * %, O' A 04ATo
Report No.12340 94367a _ Nonmber 23,1992 Texas Utilities Electric Page 2 FIRE TE&l' FURNACE 4 Th : 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 touperature withnc llc furnace ir determined to bo tha niathematical 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 af 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 allow control along the specified-temperature curve. t 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 - ~ Temperaturw - Time _1 750 - _g g) . C 1500 - e_. 1000 5-g 1250 -
~1300 10 -
j $000 - ' 1462- - 20 : 3 - 1550 30
- c. 750 -
1700 .- (D ' f 500- '1792-L1860 90 1120; 250 - 1888 150 0 ,- , . ,_ , , , , , 1925- 180-0 =25 50 '75- 100'125'150 175:200: Time (minutes)- Fismre 1 The test furnace used consists of allarge h'orizontal exposure chamber, with an-internal dimension of 12 ft long-and 7 ft wide. The furnace is-equipped with diffuse-flame natural gas burners symmetrically located across the floor of the furnace and controlled by individual gas flow valves, with the overall gas flow to GAA Of ,
'l Ogggo
1: Report No,12340 94367a Novtmber 23,1992 i Texas Utilities Electric Page 3 . the furnace being controlled by a single overall gas control valve.-- Capable of a . maximum heat output of 5 million Btu / hour, these burners are arranged well
- below the exposed face of the specimen to ensure an even temperature at the '
i 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 losa from the furnace and to decteue the_ time required for the furnace walls to heat up. For these tests, the walls are built up from thair normal height of 40 in, to a total height of slightly over 79 in, from the furnace floor tolthe top of the ledge. 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-lira between 5.0 and 7.2 minutes, as required by the E 119 standard. 'The furnace temperature during a test is controlled'auch 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 THERMOOOUPLES Temperatures on the interior of the fire protected systems.are measured;with Type:K;f 24 gauge,-Chromel-Alumel electrically;weldedLthermocouples formed: from Chromel and Alumel wires of "special limits of error.(il.1 C)," and covered;
-with _braidedffiberglass insulation-(unless thermocouple-lead; routing requires:
- higher temperature . resistance,' in which case (thedhermocouple leads; are insulated with ceramic fiber _ or'Nexe18 insulation).
- CIRCUITINTEGRITY 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.f 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 u idetermine exactly which conductorifailed; but merelyT thats it did fail.
[\ l Soaa ,/ -
~-~ , , . , , , ., , w- + . .,.n.- -.;__-L..,.,.-_.,.-.,.-n .:n... - - . . ~
)
i Report No.12340-94367e Novtmber 23,1992 Texas Utilities Electric Page 4
- I 1
- 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 4
contains 7C/w12 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 Ciamil Ntegrity fet complete _ tetails).) Finally, n 10900 redMor was installed j 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. 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 saved as V-loon (voltage with 1000 removed from the circuit). This, then, indicates the minimum voltage change from Vi that would show a short had occurred in any of the cables. Follmving the completion of the fire exposure test, a r final voltage was measured and recorded as Vr (final ' voltage). Continuous
! collection of the circuit integrity voltage signals was performed during we entire l fire exposure and hose stream tests and data collection was terminated after the hose stream test was complete. See Appendix D: CIRCUIT INTEGRITY j
, 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 ir.aulation, 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 calibrated adjustable megohmmeter, set to the 500 volt DC l level for insulation resistance testing on-all instrumentation cables and the 1500 l 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 l 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 olunic 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
- able tested GA# O O A 5.o4ATO/
l e _ _ _ _ _ __ 2-..
Report No.12340 94367c Nov:mber 23,1992 Texas Utilities Electric Page 5 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 The cuymts of ik tai urli6 tlermor upl< s cud i a ouh inf ect W li:v , urJ 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. 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 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 number of data channels. One data acquisition unit is configured for monitoring 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 remaming 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 l period of 5 minutes, through a 1-1/2 in. fog nozzle with an adjustable stream, with l 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 be 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. p o^ o, o a 0 4ATO
Report No.12340-94367a Novanber 23,1992 Texas Utilities Electric Page 6 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 l 29,1992, (Appendix K.) l V}SUAL CABLE fNS19EnON
- 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 immer conductor insulation will be assessed.
'ITSrASSEMBLY j TESTDECK l 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 sheet 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 installed into the deck assembly. . Structural elements were typically attached to the test 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 l 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 l illustrates a cross-sectional view of one edge of a typical deck assembly, showing the structural steel, the decking and the insulation. O A I
%ogggo/
Report No.12340-94367a Nov:mber 23,1992 Texas Utilities Electric Page 7 10 GA deck steel mxmmxmmm. , xx.xx xxqm mw 9 ....,. 3" steel 5 N
- channel f*Y """
g h ([ Impaling pin Blanket N *N 13,3;i.e.e4.se.e?]'}' M' sammL'."U - 7 ;, :. ;, ., .,.,...,,
.......,a.,...,a.,..... g
*'*' N m 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 filled to a nominal depth of 3 in, with silicone foam fire seal. silicone foam fire stop
==m
< 3" channel
" box"
# -.v.v. ~ . . . . .x x. .- x ~ n = < Test deck 5
3
- .':Q.,. 1 . . ";,. < Insulation
]o b
/' 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 l penetration seal is considered a part of the support system, and is not in itself.
GA8 4 4A i O l l 50 4ATO/ 1 l
Report No.12340 94367a Nov:mber 23,1992 Texas Utilities Electric Page 8 J 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.
TESTITEMS (GENERAL)
- As with conduit materials installed at CPSES, the materials used in the test were 2
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 of those installed at CPSES. 4 All test items were constructed from materials extracted from TU Electric's Comanche Peak Steam Electric Station stock material storage areas in accordance with existing site procedures. Electrical cables used in this test consisted of site-specific cables supplied by TU , Electric and taken from CPSES lot inventory. These cables were as follows: i CROSS-CABLE CABLE DIAMETER SECTIONAL TYPE FUNCTION DESCRIPTION (in.) AREA (in2) L W-020 Power 3C/#6 AWG 600v. 0.980 0.754 . W-023 Power 3C/#8 AWG 600v. 0.747 0.438 l 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.
I W-071 Instrumentation 5C/#16 AWG 600v. 0.474 0.176 The diameters and cross-sectional areas listed herein represent the Laboratory's l average of ten measurements of each cable type, i Thermo Lag
- 3301 Materials -
Thermo-Lag 8 materials were procured from Thermal Science, Inc. (TSI), St. Louis, MO. The Thermo-Lag
- materials extracted from CPSES site stock were representative of materials installed in the plant. Each one hour rated Thermo-i
- Lag @ 330-1 Flat panel and each one hour rated Thermo-Lag @ 330-1 V-ribbed panel OA#
O A , %/
Report No.12340-94367c Nov:mber 23,1992 Texas Utilities Electric Page 9 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 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),3301 trowel grade subliming compound (used with 330-1 panels). All Thermo-Lag 8 panels were measured, saw cut and installed onto the respective test assembly by Peak Seals craft pa ae:mel u"ity tpproved PPSER trawings, pron duhm and speci6 cations Installations were inspected by CPSES-certified quality control inspectors. Other Materials Materials used in conjunction with Thermo-Lag
- components, but furnished by other vendors included: Siltemp blankets, silicone elastomer (Promatec 45B) seal material, Dow Corning 3 6548 RTV silicone foam fire stop material and Thermal Ceramic Kaowool M Board (ceramic fiber dammmg board). These materials were all previously supplied by Promatec, Houston, Texas. Other commercial grade products used were: V2 in. wide x 0.020 in. thick type 304 stainx? steel rolled edge banding straps with wing seals; 16 to 18 GA stainless steel tie wire; and,0.010 in, stainless steel sheet metal.
4 TEST TIBI(CONDUrIS) This assembly consisted of three conduit loops (5 in e, 3 in. o, 3/4 in, p.) Each conduit loop extends through the deck, into a 90 elbow (long side vertical), into a 90 radial bend and back up through the deck. The radial bends on the 3/4 in o and the 3 in. e conduit loop were site fabricated. The 5 in, e radial bend was a l factory bend. All three of the conduit assemblies extended three feet above the surface of the dock. CONDUIT SUPPORTS Trapeze type unistrut hangers were fabricated to support the horizontal section of the three conduit runs. Each hanger consisted of two P2546 unistrut vertical sections with a 2 in, wide,6-114 in. long plate factory welded to the top and a P1001 horizontal section secured to the vertical sections with angle brackets and spring nut hardware. The hangers were 30-1/2 in. high to place the bottom of the 5 in, e conduit (5-1/2 in, o.d.) 36 in. below the deck insulation. The completed hangers were 39-1/4 in. wide. The first hanger was placed 10 in to the left of the 5 in, conduit elbow. The second hanger was placed 3 ft. left of the first. The plates on top of the hangers were insulated from the steel deck by 4 in, of Calcium Silicate Board (Promat, Inc.: Promat-L Cladding, two 2 in, thick layers) attached to the steel decking with 1/2 po A
- o, o .4 f M 044g0
Report No.12340-94367a Novzmber 23,1992 Texas Utilities Electric Page 10 4 f in. diameter threaded rods. The conduits were attached to the bottom of the unistrut hangers with conduit straps and spring niit hardware (steel plate filler was used on the 3 in, e and 3/4 in. e conduits to place the bottom of all three ! conduits 36 in, below the deck insulation). ELECTRICAL CABLES 4 Al! electrical cablog used in this project were site-specHic for CPSES. Where possible, an approximate 1/3 mix of Power, Instrumentation and Control cables 4 were pulled into each conduit. The internal cross-sectional areas for each conduit are as follows: J CONDUITSIZE CROSSSECTIONAL i (INCHES) - AREA (in2) W4 6.442 3 7.069 5 19.635 The tables below show the cable types used in each conduit, the number of each s cable installed, the total cross-sectional area of each cable type and the percent of-the total available area taken up by each type. l 3/4 IN. CONDUIT CROSS-CABLE NUMBER SECTIONAL ' % OF TOTAL - ', TYPE PRFRFNr AREA (in2) AREA W-071 1 0.176 39.82 i TOTAL FILL => 0.176 39.82 % i i 4
#0 4 e gj
Report No.12340 94367a Novrmber 23,1992 Texas Utilities Electric Page 11 3 IN. CONDUIT CROSS. CABLE NUMBER SECTIONAL % OF'IOTAL . TYPE PRESENT . AREA (in2) AREA W-020 1 0.754 10.67 W-023 1 0.438 6.20 W-047 1- 0.287 4.06
- W-048 1 0.260 3.68 W-063 2 0.854 12.08 W-071 3 0.528 = 7.47 TOTAL FILL => 3.121 44.15 %
5 IN. CONDUIT ' CliOSS. CABLE NUMBER SECTIONAL % OF TOTAL TYPE PRESENT AREA (in2) AREA W-023 6 2.628 13.38 W-047 8 2.296 11.69 W-071 11' 1.936 9.86 l TOTAL FILL => 6.86 34.93 % l THERMOCOUPLE PLACEMENT 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. e 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, l 1/2 in, wide,3M Corporation, Item No. 27) for a minimum distance of 3-1/2 in. i GA #o
- o. A l \Ogggo/
_ - , . . ~ _ . .
Report No.12340-94367a November 23,1992 Texas Utilities Electric Page 12 In the 5 in, e and the 3 in. e conduit, the instrumented Power cable a located at the nominal center of the cable bundle, while the instrumented Coro cable was located midway in the bundle and the Instrumentation cable with s...anocouples was located on the outside of the cable bundle, e @@ Note: Exact cable lacement is not shown h '
= W-023 (Power) em. This drawing is e 9 merely to illustrate the h = W-047 (Contml) t placements of rela,ive p
@ = W-071(Instrument) the mstrumented cables, marked by X's. g Cable Bundlein Conduit i
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 i Electrical tape. The thermocouple leads were taped securely to the coaduits at points away from the thermojunction by wrapping the tape completely around the conduit and thermocouple lead. THERMO LAGe INSTALLATION HIGHLIGHTS Thermo-Lag
- materials were installed in accordance with the instructions contained in the CPSES Site Procedures referenced in Test Plan, Rev. 8. Short abstracts of the installation are included herein to clarify 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) j These panels were used to construct the LBD box design and support steel l protective envelopes.
l GAD o O A ORATO
I-Report No.1234494367a Nonmber 23,1992 ! Texas Utilities Electric Page 13 1 i
- Thermo Lag
- M&1 Subliming Thawel Grade Material .
This material was used to pre-caulk all-joints and se'ams-between pre shaped sections,-flat panels, underneath and over stress skin. Thermo-Lag
- M&1 Prw-Shaped Conduit Sections (1/2 in nom. thickness)-
l Thia uwtaial we ueed to construct flee 3/4 in.,3 in. pad 6 in, raceway design ~ i protective envelopes. i .. .. Thermo-Lag
- M&1 Prv, Shaped Conduit Oterlay Section lid in. nominal thickness This material was used as a second layer over the 3/4 in, dia. conduit.
Application Methods
-Each rigid conduit raceway was covered first prior to installing material on the support members using.Thermo-Lag
- 3301 Pre-Shaped Conduit Material. All1 joints and seams were pre-caulked with 330-1 Trowel Grade Material and secured in place with stainless steel tie _ wire and banding material.
l l The UniStrut trapeze type support member was covered with flat panels for 9 in.- minimum distance from the closest Thermo Lage Pre-Shaped section-leaving the remaining _UniStrut support steel surface unprotected from the fire source. All - joints and seams'were pre-caulked with 3301 trowel grade material-and secured in place with stainless steel tie wire. Each raceway-LBD fitting was covered with flat panel material in a manner ' similar to an L-shaped box configuration; The vertical outside flat panel used to - cover the 5 in. dia. raceway LBD fitting /was scored 12 places at _3 in. spacing to - conform to the LBD curvature and secured with stainless steel banding' All joints. . on the box configurations were pre _ caulked with 3301 Trowel Grade Material and secured in place with stainless steel banding material (for detail drawings see-L . Appendix J).
^
l . Upgrade Techniques : '~
- The 3/4 in. dia. raceway, after being clad with'1/2 in, nominal thickness:Thermo-l- Lage 330-1. Pre Shaped Conduit Sections, and secured using stainless steel tie
- --wire,-was upgraded by installing additional 1/4 in. nominal thickness Thermo-k Lag
- 330-1 " overlay" sections, c All joints were pre-caulked with Thermo-Lag
- 330 :
1 Tr6wel Grade Material.and secured using stainless steel banding or tie wire. The radial bend was upgraded with 1/4 in, overlay pieces field mitered to fit.. o^ ao, s l:
%)
; ,~ , , _ , _J,. . i
...- n ,__,._.__.c._._.._-_a-._.
Report No. 12340 94367c Novembr 23,1992 Texas Utilities Electric Page 14 Thermo Lag 8 3301 Trowel Grade Material was then applied to a depth of approximately 3/16 in, and allowed to set until tacky to touch. Strips of 330 69 stress skin 2 in, wide were trimmed into an hourglass shape and circumferentially wrapped around the tacky 3301 Trowel Grade. The stress skin was " worked in" to allow proper bonding between the stress skin and the Trowel Grade, and was then secured in place with 1/2 in. long staples and stainless steel tie wire. A skim coat of Thermo Lag
- 3301 Trowel Grade was then applied over the 3 he r d in For the 3 in, and the 5 in, radial bends, Thermo Lag 8 3301 Trowel Grade Material was applied over the 1/2 in, mitered pieces to a depth of approximately 3/16 in, and was allowed to set until tacky to the touch. Strips of 330 69 stress skin 2 in, wide were trimmed into an hourglass shape and circumferentially wrapped around the tacky 3301 Trowel Grade. The stress skin was " worked in" to allow proper bonding between the stress skin and the Trowel Grade, and was thea secured in place with 1/2 in. Icng staples and stainless steel tie wire. A skim coat of Thermo Lags 3301 Trowel Grade was then applied over the stress skin.
All LBD flat panel box design joints were pre caulked with 3/16 in. of Thermo. Lag 8 3301 Trowel Grade and upgraded using Thermo Lag 8 330 69 Stress Skin with a 2 in overlap onto 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 adjoining Thermo Lag
- 3301 panel and pre shaped conduit sections. The Thermo Lag @ 3301 Trewel Grade was allowed to set and become tacky priar 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 attahed to the entering and exiting raceway, a 2 in, high stress skin collar was circumferentially wrapped l around the raceway and stapled in place. After the stress skin had been applied to all the LBD box joints, a skim coat of Thermo Lag S330-1 Trowel Grade was I applied over the stress skin.
I TESTRESULTS The completed test specimen was placed or :he Laboratory's horizontal fire test furnace and the thermocouples and circuit integrity systems connected to the data acquisition system and their outputs verified. The test was conducted on November 3,1992, by Herbert W. Stansberry II, project manager, with the following persons present: (/
- - -. _ - - __- . _ _ _ _ - - _ _ - - - = _-
Report No.12340-94367c NovImber 23,1992 Texas Utilities Electric Page 15 1 Joe Ulle - USNRC Steve West - USNRC Chester Pruett - TU Electric (Fluor Daniel Corporation) R4.k Dible - TU Elect.ic (ABB Impell Corporation) Cal Banning - TU Electric (ABB Impell Corporation) Obald Bhatty - TU Electric Meivin Quick - TU Electric (Stone & Webster Engineering) llandy llootun TU Electric Frank Collins - TU Electric (Stone & Webster Enginecting) Charles Illingworth - TU Electric (Stone & Webster Engineering) Deggary N. Priest - Omega Point Laboratories, Inc. Kerry Hitchcock - Omega Point Laboratories, Inc. i Connie Humphry - Omega Point Laboratories, Inc. Cleda Patton - Omega Point Laboratories, Inc. Richard Beasley - Omega Point Laboratories, Inc. 4 Laudencio Castanon - Omega Point Laboratories, Inc. Deggary N. Priest, II - Omega Point Laboratories, Inc. Charlie Steed - Omega Point Laboratories, Inc. Randy Henry - Alamo Crane Co. David McMillan - Alexander Utilities, Inc. Steve Linick - Alexander Utilities, Inc. Rick Lohman - Thermal Science, Inc. J.J. Pierce - TVA Dan Hedrick - TVA Larry Starnes - TVA Duke Mattax - TVA John Starchi - TVA The furnace was fired and the AST?" 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 10:11 p.m. By 0:29 (min:sec) the outside surface of the test item was beginning to turn brown, and by 0:50 (min:sec) had ignited fairly uniformly across the exposed surfaces. By 1:00 (min:sec) the furnace was filled with intense smoke and heavy fiaming. 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: [^ og
*o nato
Report No.12340 94367a Nov:mber 23,1992 Texas Utilities Electric Page 16 i
- Due to the time constant (5.0 7.2 minutes) inherent in the furnace probe thecmocouples required by the test standard, the furnace operator detected an over temperature condition (due to the combination of furnace fuel flow and burning test item) and turned the furnace fud down. When that happened, the flaming cn the surface of the Thermo-Lag 8 material slowly 4 stopped, causing the furnace probes to register an under temperature condition. Consequently, the operator increased the fuel flow to the furnace and the surnae of the (cat item then re-ignited aml filled the fucuae with smoke and flames again. The furnace temperature thus "saw toothed" its way along the E119 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.
- Data acquisition . < s lost for a one minute period at 20:00 due to a printer malfunction. The printer problem was rectified, the acquisition system was restarted and data collection resumed at 21:00.
- During the fire test, several of the thermocouples located along the conduit steel began reading excessively high temperaturu. 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 lowering significantly as the actual temperature inside the test assemblies (as mdicated by the cable thermocouples) began to climb toward I
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 condensate 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 condensato began to " cook" out of the thermocouple lead wires and the readings began to decrease, showing temperatures closer to the actual temperature of the conduit steel. The I condensate discovered on the conduits upon- disassembly had a thick, syrupy consistency and was dark brown or black. The material fo-nd was 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.
- Circuit integrity monitoring was suscanded at 34:00 in an attempt to isolate the abcve mentioned thermocouple problem as a function of circuit integrity instrumentation voltages. The absence of circuit integrity monitoring did nothing to correct the problem and was re-established at 39:00.
**#0 l 5.oMAT O /
l
d i Report No. 12340-94367a Nov:mbr 23,1992 Texas Utilities Electric Page 17 At the end of the fire exposure period, the thermocouples were disconnected, the furnace extinguished and the specimen removed from the furnace. Except as 4 noted above, 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 G - 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 nh cin. test with a ndaimuru itetaan at the noule of 76 mi t at a dictance of r, feet, for a 6 minute duration. The minimum flow from the nozzle was 75 gpm (in accordance with Ref 4.1.21). 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 exposures. When the test item was removed from the furnaco it was 1 still flaming, which slowly decreased as it was positioned for the hose stream test. Prior to the hose stream test, no openings or other severe damage was noticed on the specimen. The outer layer of the stress skin upgrade was exposed along the , corners of the LBD hoxes and the radial bends. The remainder of the exposed surface of the test item was covered with a layer of black ash. l Following the hose stream test, the Thermo Lag
- pieces remained firmly aflixed
, and the stainless steel banding was still tightly wrapped around the assemblies, i A fuller description of the condition of the protective envelope is presented later in this document. i 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.)
ogggo
=
l Repoit No.12340 94367a Ncy:mb:r 23,1992 Teman Utilities Electric Page 18 i MAX. TEMPERATURE AVG. 'IEMPERATURE l LOCATION ('F) ( F) l 3/4 in. CONDUIT ' Conduit Steelt < t ~814 u- m <438) E971(IngtMC5b,M ___ _ y90 _ 244
~ , _ _ __ , , , _ _ , _
3_ in. CCNDUi_T , Cond.11t Steelt 1616j - s 3 18 : W 023 m.wer) Cable 181- 150 W 047 (Control) Cable 250 187 W 071 (Instr.) Cable 309 204 5 in. CONDUIT-- , Conduit Steelt y to , 615> , . , w n r4011 m W 023 (Power) Cable 134 111 W 047 (Control) Cable 176 135 W.071 (Instr.) Cable 191 156 t All conduit steel temperatures were affected by condensate saturation. The average initial temperature for all thermocouples at the start of the test was 72*F, yielding an allowable temperature increase of 250'b',- or 322'F actual for the.:
- average temperaturen. (A 325'F increase above the 72'F initid temperature yields a maximum allowable individual temperature of 307'F, in accordance with ASTM E119 88.) All thermocouples on cables within the 3/4 in, s,3 in. e and 5 in.
e conduit system met these criteria. , Prior to the fire test, the voltage signals from each of the circuit integrity systems-was measured to establish a baseline (Vi). Then,.after shorting across a single 1000 resistor, the minimum voltage necessary to indicate failure (V ioon)'was measured.- At the completion.of the fire-and hose stream exposure tests, the-voltagemas again measured (Vr).- These values are displayed in the table below. Additionally, a 500 volt insulation resistance test of each instrumentation cable -
- (condue or to conductor-'and conductor-- to ground) and a 1500~ volt insulation resistan e test of each power and control cable (conductor to conductor.andL
~
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 Resistancy Testing Details. J. c r,ensy
, 9-m.y--v--,- ,,rw,, y . .y er ew .c giv,-..re.wem-..ry--e. p. :-o- t y,,%, emp. % yv-pyr,m-,,.w.p..- y m we--,. .y,-n.4e, 4vo. - - , y,,'n v f n +. 'u , e ee-- --"
, _ - _ = . . -
i Report No.12340-94307s November 23,1992 Texas Utilities Electric Page 19 i l 1 CABLE Vi V-ioon Vr l 1 3/4 IN. CONDUIT W-071 5.142 4.690 5.135 3 JN. CONDUlT . W-020 3.601 2.934 3.596
- W 023 3.559 2.882 3.554 l W-047 5.559 5.150 5.552 l W-048 4.696 4.159 4.693 l
. W 063 6.250 5.920 6.242 l W 071 5.117 4.676 5.115 l 5 in. CONDUlT
~
W 023 2.150 1.186 2.147 W-047 5.543 5.150 5.535 W-071 5.100 4.658 , 5.095
- All data may be found in the Appendices attached to this document.
Post Test Examination Immediately following the hose stream test, the. test item was systematically disassembled and examined for damage and general condition. A liating of those findings follows. In all cases, when describing a pa.rticular Thermo Lag
- 330-1 Flat, V-Ribbed Panel or Pre Shaped Conduit Section, the term " panel" or " pre-shaped section" will be used.
l l i
$* * *Og O A l.
l 04490 L _ _ _ _ . _ . _ - _ -_. . _. ._. __
l i
- Report No.12340 94SFa - Nonmber 23,1992 Texas Utilities Electric Page 20 4
^ 3/4 IN. O CONDUIT l LOCATION - OBSERVATION ! Left side, above radial bend. The outermost layer of stress skin was partially j exposed with 1-1/2 in, cf char build up on top. 1 Char depth under the outer stress skin was 3/4 i in. Most areas had 1/2 in. uncharred material j reluairdng. Left side,90' radial bend. The outermost layer of stress skin was mostly , l exposed with 1/2 in, of char build up on top. ! j Char depth under the outer stress skin was 3/4 i in. About 1/2 in, of solid, uncharred material i remained under the char layer. ' i Center, horizontal section. The char depth on top of the outermost layer of 4 stress skin was 1 in. The depth _of char under i' the outer layer of stress skin was 1/4.in. , ! Between 1/4 in, and 1/2 in of Thermo Lage
- remained uncharred 'against the conduit with the exception of the: conduit to LBD box
' overlapped intersection, which was completely intact.
- Right side,90' condulet. The pre shaped sections were in place on all i sides of the condulet. Stress skin was completely exposed along all corner edges and '
1/2 in, of char was present on-all sides of the - condulet box. Uncombusted material (1/8 in.) remained on the outer layer'with the inner layer totally intact. The overlapped areas at the intersection of the condulet box-and both=the horizontr.1 and vertical condult sections were completely intact. Right side, above condulet.- The char depth on top of the outermost layer of stress skin was 1 in, with 1/4 in. of char under the stress skin. - Approximately 1/2 in. Thermo-Lage remained uncharred against the~ conduit (inner layer). The - conduit- to LBD box overlapped intersection was completely intact. W 071 Cable - The cable was visibly undamaged. -The cable
-1 jacket was slightly: stiffened in-the condulet t area. The remainder of the= cable length was still flexible, o
/*"%j j -
I-
*ogayo
- 2 .: . : . .: :._ :. _ .=.- -. ~ .. - J
I Report No.12340-943670 Novcmbr 23,1992 Texas Utilities Electric Page 21 1 4 l 3 IN. O CONDUIT LOCATION OBSERVATION Left side, above rad.ial bend. The char depth was 1/2 in. Several areas had d no uncharred material remaining. Outermost i layer of streso skin partially exposed at top of radial hend. l Left side, V i adial bend. The outeimost layer of stresa skin was e completely exposed with no char build up on i top. Char depth under the outer stress skin was 3/8 in. (very hard char.) Between 1/8 in, and 3/8 i in, of solid, uncharred material remained
; under the char layer. Several areas were discovered in which no uncharred material
- remained. All pre shaped sections were in place under the outermost layer of stress skin.
Center, horizontal section. The char depth on was 1 in. No Thermo-Lag
- remained uncharred against the conduit with the exception of the conduit to LBD box overlapped intersection. Outermost layer of strees skin was partially exposed at start of radial bend.
! Right side,90 condulet. The pre shaped sections were in pGee on all sides of the condulet. Strest, skin was
- completely exposed along all corner edges and 1 in, of char was present on all sides of the condulet box. Between 1/8 in, and 1/4- in.
- uncharred material remained against the condulet. The overlapped areas at the l
intersection of the condulet box and both the horinntal and vertical conduit sections were completely intact. , Right side, above condulet. The char depth was 3/4 in. Appaximately 1/8 in, of Thermo Lag 8 remained uncharred against the conduit with the exception of an
; area near the center, right side of the conduit in l which no material remained. - The conduit to
- LBD box overlapped intersection was completely intact.
S in, a Conduit Cables The cable jackets had no stiffness in the condulet area. The entire length of the cable was still flexible and visibly undamaged. Slight i residue on some cables in con _dulet area. O f * 'oq A l
.y -
k0 4A1 I w ._ _
. _ . _ - ___ _...~. _ __-. _ _ _____~._._..___ _ _ _.__._ _ _
1 Report No.12340-94367a - Novtmber 23,1992 j Texas Utilities Electric Page 22 i I
- i l
5 IN. O CONDUIT i j LOCATION OBSERVATION i Left side, at top of radial The outermost layer of stress skin was i bend (radial bend ended at completely exposed with char build up on top. i the bottom of the deck Char depth under the outer stress skin was 1/2 ' insulation.) in. Several areas had no uncharred material i reniaining.. l Left side,90' radial bend. The outermost layer of stress skin was { completely exposed with' no char build-up;on
- top. Char depth under the outer stress skin was i 3/8 in. (very hard char.) Approximately 1/4 in.
of solid, uncharred material' remained under - the char layer. All pre-shaped sections were in place under the outennost layer of stress skin. !- Center, horizontal section. The char depth varied between 1 in. and 1-1/4 3 in, -Under the char layer,1/4 in', to--1/2 in. of ! Thermo Lag
- remained uncharred. Several i spots were found in which no uncharred l Thermo Lage-. remained. The material was
- completely intact at:the intersection on ~ the
, conduit and LBD box. Right side,90* condulet. The pre shaped sections were in place on all i sides of - the condulet. Stress skin- ' was . completely exposed along all corner edges and 1 l in. of char was present on all sides.. of the j
- condulet . bor. Between 1/4 'in. and 1/2 in.
! uncharred material remained against the
- condulet with small areas as thin as 1/8 in. The i- . overlapped areas at the intersection of- the
! and l lcondulet box and both the ~horizontalz Vertical conduit sections were completely intact.- Right side, above condulet. No observation possible:, mostly covered by , underdeck insulation. ! 5 in. e Conduit Cables The cables were visibly undamaged. The cable jackets had no stiffness in the condulet area.
- The entire length of the cable was still flexible.
l Slight residue on some cables in condulet area. r i L- . OA# Of og'ag o . se p hye.- -=rul' 4 - @g- --aw+>w=.p- g-- g- y g wg g w4 svp-e., p
'7... _ _ ._-_ . _ _ _ _ _ - . _ . . _ . _ . _ _ _ _ _ _ _ _ . . _ _ _ _ _ . - . _ _ _ _ _ _ _ . - _ _ _ _ . _ . _ , 4 ! Report No.12340 94367c November 23,1992 j Texas Utilities Electric Page 23 ; 1 1 I i-i ! CONCLUSIONS . i I The 5 in. e,3 in. e, and 3/4 in. e Conduit assemblies, clad in a nominal 1/2 in. ! thickness Thermo Lag
- 3301 material with additional upgrades presented 1- herein, met the requirements of the TEST PLAN (essentially those of American
! Nuclear Insurers Bulletin B.7.2,11/87, Attachment B entitled: "ANI/MAERP RA i Standard Fire Endurance Test Method To Qualify A Protective Envelope For Class ! 1H1;10 Electrical Circuits," Itevh:en 1, dated Hovonbar 1987), for n me ru,irdance l 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) single point i temperature increase remained below 325'F (with the previously noted exception i of the conduit steel temperatures),2) no burnthrough was evident on the assembly a following the fire endurance and hose stream tests, 3) visual cable inspection ! revealed no visible damage, 4) no loss of circuit integrity occurred during the ! course of the fire and hose stream tests, and 5) the results of the insulation
- resistance tests were well within the allowable limits.
k i l > I i i -- o
^
h 4 i i OAD . 1 %
- %/
_ . = __. _ _ _ _. _ _ . _ _.._ _ . _
Report No.12340-94367a Nov:mber 23,1992 2d Texas Utilities Electric APPENDICES I Appendix A 3 CONSTRUCTION DRAWINGS I OA # O A-
\,,/
c 1 1 1 1
~m 13% 0' m
10 1/2'
,2 w r
a .n. sk
,p a. .x w e h , - mi .,
/
p: e:b; w - m n 4 , - . Q O m9 v . 'm;%g:g..h;c v... M:>/
.' / M, e .,
i p-; y,. b 7 sp p , ., y % , >M :. .
', , q? :
.c:phi n.. ;fa V V,;),n,w 3 - ,
.;f 'y.
.y -
-q m - bf i- 4 f-A's & )s;sx: ;pa,.u~f
- 2: ' p v. gj-g +m -(;p9 t- z.:gg,g Q:y.g2 , J ,t : >o - 7:
y q s , g3: 1:x.%.6 %<t.s m sp y9:;y. y .47< s. .9%;:.g;q-h::;:nf :
&c, w L >:;. 'y% v.:f;:i4Q:;qp e ,9., w3;(m *i y Af(s9g'g 9.y/ ;Wx f:adi 4::0 ys j p :, < q:9 -( . rf;y :-
s l n /H ,' k, g W ' -- nw;waiembsu ' ;W, ..rwt yifde:c i MppOW F 3' steel channel for blodout /- . % N.jp'.m M' OMusM@. WQ8O ,
'S md.g %
p $s M @mgy m&.ym S' ,Qperimeter dtg3'Adef"fWg and deck qTp5p g?support gag (typM@g.M fe
@9!@@: '
/
/%V ;4 d
ggwe@swh,^x .ffd.-UnbStrut
/
g g f..umNgg yg9 .s ?,g.s. uppe e] m4 e : g:%*,Lsr vs g QQg f/, yfp4q p Q:ww w
, gg
/gv co it s w.'y1M@$[MTL s4 A - f 4 7.a
.h s7dS e g-w m g e W Wm
$n W q Q p @pq
. a f. %~f A . / W '" 9 4 3 y4%p,n,,,d,,u.7 c p.h.:; oy e .y#g$#x,W,ar;&w
~ c upWMyt g .me,h~.pWh s~ :
s.+ SWm ! WW, , N,,', / Mggsu Port n, ',m m " w 1 m
....a, p:,9 c;.y;9p,pr,,T-v
.*%"' Y " L/ ?}%n'd$$ $$asw&R
, mt ; w y vmm'0 'xman.w, 'fij$;?.vl4 M.. ,nw
- w. &p w. f. ?. ,, L lf:c ;, /.&Y&
Y
/ /us m
.u ^3y.y
.ws. s , ws g
. c ms: , c .f, < .c" w^ 499;n V:<.:y
., w . ; y g % gMjge,:m:g'.
.v. .
}e .
c~;;q; :. ,
<<s ,
^
l f p.'.$O;:yp;m:p.
) ,h k W %9. , 's , / O;b$i - ? # ' / . p'd
& )Q E'V%lW , l* +;%rQ O@M Q]Q M)MlE
$, nl! V y n w
/ / jaudhk C*.. W 6%, j; ' ff. ! ~ w&@;0
/ ~gs, 4:f ,@" .[ <
y ynggw '
/ 6 ww ry m.4.:g: n aW{M.
s q ;;c / / R,g$h{ @sc, .W y p gA . mWQ& ing u.,;x;c
/
' M3'
-w2 u e Conduity b:a
- 4 G W; %WQ:. e,
@' ww@ia : ndy np@m i
/
s WY%WE W:neQ. y % .x . Qm<p<%m@2,$"Q. . < %~&ey7.,..; ~,' ' ,c,p%y;w. nam. m' m.,,t,
. Lgn.
. s y k.y :;n.7
- s+. n
/
f
/ c f
m.
- m. 7.e::v m
.: p. >:?4pm n c.
.n
<vhS em @ -. .~
i ,i p j y
;.%.g- - y,:g
.5 .
N5dW ' s;;.;u kS :$}OMMM W& ~ 8' O' h3/4's Condult@!%'A s: T A0% % / WMdMF 3% 0' L)MbbM Y ' 4" .;4 W,9:,:y>hdW% - / QJ? MF^ S M M M:p.q r q% mg
- C gp + m. w m;'
h '
/ D#9 b,#n h.k. NN Mno% s ss.5M.
/
i
/ WIMP.>4 7 id![kN ,
- FdP@w,D.w:'.M'@g n.
N M k, n . i,, ,.,. e
.'+u,,,,
/M.:;fS,4 y ;u -
/ 5 ;;:yjh g
>. g 4 a '. v y vv s* s .. j
,.m .y ,y av ._.,_..g..., ,
s% ; [.gpi- ,. ?s o. w 9,. {y.4 v;.f 3:g.i / .:
- qy:;f.
'ix .
,. ,.. ; ,j$pf :s j Q',,,.
?
~W e
$%@?#j
/ / ; K+M51Q::.h;4Qd;p' e ,
;}l' , ;.[p.j;%,g p ,,
%wr);.' p,- e M5' e Condultd 1 W[Mid "
,& ?ag6:
JR i Msl . f ' M: .%g
%wo t
~w.:- -
p e M emypv m,S p ;w.;;g;;, s yg s
.s s
g+ 1 s,;., et s nn o
;y ,
yy . . v, c:y e p f 3,. p g;g
~
A wspeg s
.m:, i lf NW . s. s , N'$
%Fs -e
L. f ? .xy
%yy ' 3 QyMW: s.m.y
+ . -;
~
w, . p+ ;sg;, * ..'." u,s:l. +:. < ', r iririi/ O,% , ; s&m <W,. '. . ', dD 2' / M@ g?:.p n
' ^
T.2 : 4:- &. . ;
' . ; >q-4w:wksUnLStrut of 1
?v
- 1 .
' P
- f" L.f / !
2W ' ':7& *::g ' '
+::!
$. ?W ' '
;.n
+o. ._.ygs , : ;n _ , .v.
. . ..n
,m.
?:R:Y'?m: .?f U?
f g%.irg$y:
! h: m.2-;p:y; i, Yi&Nfr ?;
- c. , < k %* N{Q , . .
, $f,$._ s
~. KMn3P
, .r -,
yf.Q ji _";
~; p p
/
/ DW;9.k?P;F p l L.f yp h
$1:3 hk'WN$if' ^ *f,) ?:$ ' $ y3 NlN[N&%C$$, r- h 6$lk '
NOI O? Q
- f ,,
b W ' W,yv s . h$%%gj['Nm% Me$f~:iV+.,N(<o: Op 7:!$:? ua
^ N:k.r:A..,
/
@@h~80M, , NN..,'
;v<s[um xw an .M.xcm, e
MN NDNdM '- 7 YaJydd:;nC w am?p: 'Mg ;! h > , .: h d:hTD r t s f 7.. .G
' f6.ct.;
.< ::.r:p:s:,
i ? f ? s:
$$ : sAf" , > M.d!w' w .m >o ' s M.#ii f / : ..%.m . c .M-
- ,:y<.
7 3 : f 6#lef
.::.x ~-:d::M: 7:md .-
, 'j'";( / xe+:eo ::W y.y.c$
/ ' @8%. .;M, n' '::>-s%'f J ,' ViQ"::$. Eyp?.. ph,hi!.c;;Jp:t;
! 0 Qey.$.:/s. :
s
- ' .l .Y . / f,.c .W. - =F;::?gg:
ji'$Qiy(:i'.3s i
/ vf.j n.,gj.c J.w #): MQ;W '
~
s
- h v.5
.h'k ?k ( ,
hi.: Qh ll:h: _ - + u, [+ -. . gi ;kll n P. s s f 1y:m. +rp,'?{l; 'h (. 49 x F .fj;f 4):?a &
/ hJ
'2 :T'. 0 % ~, y -
y s1
...,,#..-A :w? M'M@
xm - u x- s: s,b+v :"$;gOM,:$:. y ~ A 's. Os -
. .g Qg5s %v~.f
%,. s %x rQ-.7.Qq.sQ" %. . ihf f!.;9.n.$!,# ! : ' g. ;%q w.M.g%pg x ,' %s Q~ gu
.m.m.
L , n , M:Q # / M'> :m. @g~ %.y
, n .. ~. , ;
nr - , w , ,
, a.,,
1 / / (deck pwimeter) v ,. s
_ _ , 25 j'.4' x W m M, ,; g g_
~,p /
ylW!#M %Q .
'/ '*$$$$l j ll 0 -
SI
! ie '
i : i ' 4 er APERTURE [ RIGHT CARD o,, I. itool channel - o o ' Also Available On ructure m (7 )~m. * ,*
, tr r, g y77.3[*!
mw ($yL e, o d$& Aperture Card e g hsw$hshh I ,a,;. $ bNb
,,<ggr
%mem i D -
, m i -
g
@$m;; ia 4 :a o @p i %e may~; > 4s inW: san s
', (&'f M 'q i::.i y, , MH%
cay Qf a > n, x- s.. o. BMP ,s ' o, 82 R i NOTE: M fM j
@i@dQp in Sg $ '
, j $ A silicon foam firestop dj pray
%kg M o m;jg o @@@$; was installed into each penetration blockout Prior to testing, w, bbk%h ,dk , . mc k o$ b.b3 m3 y wuzzgy;o- - gr
, , : ,ue : cn as
~~~
app . ,, '; , {typ)jr.
+,o,rth w; [t s, t <
/
j~"'. '4(. c/<,f'), '(P' 24, ". s
\'s zb t .t b,, p m , , ' ', '\ , ,1, h, ')
,,' ' , . % .;g ,' o M%
c f, Q ag4% v:p o' ' [r(# k:, i' ' fey s i N ,', ;,s;',,",, c t.
.. m -
,:)::.ld;};Q*
. e,~, t%' . p ,- $m.,[,, 1cOMEGA J, '/POINTi'- LABORATORIES,INC.
Project No.12340 94367a
; si ,, s ,s ,. ' ? Ass dj ' x ' ,,} / , t f.
'c' 'N l,t : F g,'s , gjsp,g TEXAS UTILITES ELECTRIC
' ,:...:;';r
- '.5,71
- ' ':~,..y: 'e,>
'3 v*'ry: go r;'ng 'g ,
, s ,
2 ;ne ' ..< ~,. , , w g-
~
. , .s
' / h,J;l'<J' Q.a:i' p; ( f ? y > o Fig.1 PLAN VIEW- Above Deck M W,'M 9302160270 ~ ,.
Uni-Strut Sus 1
~
3's Conduit O a : LEFT 1'- O' 3/4" e Cond Radial Bends - 1'- 0" 5' e Conduli F ir L. . 6d 3'- 1/4" 8'- 6' FRONT-
- w. .. _
1
- s. ,
1 2G m. ports ! i I n .
- h, SI -
9 APERTURE i RIGHT CARD f l Jit Also AvallaNe on i
# Condulet Elbows 3'-31/4 Aperture card i P
U)
/ ,
- u
=
OMEGA POINT LABORATORIES, INC. Project No.12340-94367a TEXAS UTILITES ELECTRIC Fig. 2 PLAN VIEW - Below Deck ,
i .- .. l l 1 i 8'- 6' l
~
i i i Upper unistrut support member
/ \
!EL '
.J l
;g . , + ,u 9
l 3' steel channel for blockout perimeter (typ) 3' steel ci support structur nau Q l T I 3' steel channel (deck perimeter) D% 3'- 0' i + 1 l 4' 0' 3'- 1/ l l l
~
l v ~a l l l l
. _ . _ _ . . . ~ . . - . _ . . _ _ , . . _ _ . . , _ _ . . . _ . . _ - . , _ - - _ ~ _ . . . _ _ _ . . _ _ . _ . _ , . _ , . , _ . . . . _ _ _ _ _ _ . _ . _ _ _ , _ _ . . _ _
27 l d e ; 5" e conduit / ! assembly i i i i 4'- 0'
\
Unistrut suppod 3' steel channel unnti y 1 (deck stiffener) 0 (typ) N 3,3,dy, 10 GA steel deck
'; e n as a;m m m e gansk a m s arm i , 7 M
l SI
, APERTURE (k insulation j CARD Also Avsflable On A twrture Card I OMEGA POINT LABORATORIES, INC.
Project No.12340-94367a TEXAS UTILITES ELECTRIC V Fig. 3 ELEVATION V!EW - 5's Condul: , f* =
, - . ~
9302160,2'7 0
.. -e, ,,---w .-w,, , , - . . - , ~ , - - - . . .,.-,....n-.-..,..v... .,,-.,-,-.--,,.-.,,n,---, . . - . - ,
l-8' 8'
=
Upper unistrut support member l 4
-l
; )m - o 3' steel channel for blockout perimeter (typ) 3" steal chana
! support structure (tys
- m m. h . Ll'_A a
3" steel channel'r Deck insu[ (deck perimeter) 3'- O' if - i ; I 4'- 0' 3'- 1/4" l l l l-
- m. ! ,,..,,.,,--y,w,g,.-,...,,,,,,,,-w,-,.n,%-~.+,,,.w-.,-i., .---r-,,---e....cc.+,.,,6--ry.,--ww., y,w ,m-mer -,em2-w..- - + -
7 28
~ - -
a 3/4' o conduit assembly
/
SI APERTURE 4'- O' CAltD Unistrut Also Antiable on Aperture card support 3,
/ 3' steel channel (deck stiffener) 1 ,)
m .m e , cara e-10 GA steel deck immmmmmmmmmmmmmmmrmmmmmme f
~
4tica OMEGA POINT LABORATORIES, INC. Project No. 12340-94367a TEXAS UTILITES ELECTRIC
-U L- Fig. 4 Elevation View - 3/4" o Conduit
=
9302160270 I pW i i
'"~
%) ,
h 1 l 8'- 8' i Upper uni-strut support member l I r i g Oy ', r <
'O
= ,
3' steel channel for blockout perimeter (typ) j 3' steel chans support structure (t)1 M.; n:Osge d '+/MtU 3' steel channel (deck perimeter) Deck ins s 3'- 0" ** ' i I i y ~ 4'- 0' 3'- 1/4'
= = =
l
'*~^* mW . - . . . . . . . . - - . . . . , - . - - . . , . - . . . . - . - - - . . . , - , , - , . . ~ ~ , - ~ , . . . . . , . . - , , - , - - - . ?. , ..-..-.-,,,,,.r..-.. n. ,n.. , . - - - -
1 ___~ 29l l l t i i i A l A I 3' e conduit / assembly ) i SI ' 4,- 0, APERTURE !' CARD Also Available On Ur.i-strut operture card support ___ 3' steel channel ! Cl i p) N 4 (deck stiffener) mo . #.4 su euw . e a ' waw - n f 10 GA steel deck - i i r ilation i
-4}
\
OMEGA POINT LABORATORIES, INC. Project No. 12340-94367a i i _, ) I TEXAS UTILITES ELECTRIC , i
% / Fig. 5 Elevation View - 3' e Conduit !
i 9302160270 -
\
t 30 1/2' dia, threaded rod with nuts on both ends 10 GA steeldeck A fT 3' steel channel (deck perimeter) Two layers of 2' ceramic fiber blanket Two 2' thick '- calcium-silicale spacers M~ ~ ~ ' ' Topof Unistrut conduit hanger vz DETAIL 1 OMEGA POINT LABORATORIES, INC. Project No.12340 94367a TEXAS UTILITIES ELECTRIC Fig. 6 DETAIL 1 - Hanger Mounts and insulation . Okayo
Report No. 12340-94367a Novemter 23,1992 31 Texas Utilities Electric API'ENDICES 0 Appendix B TEST PLAN OAD o 4 y ;,,
#0h (o@
no 0 .. t 1 i TEST PLAN Rev. 8 ONE HOUR FIRE ENDURANCE TESTS OF ARTICLES PROTECTED WITH THE THERMO LAG 8 i FIRE BARRIER SYSTEM ' 1.0 SCOPE This test plan-describes the methods and guidelines to be utilized for the preparation of test specimens, installation of the THERMO LAG 8 (hereafter referred to as "Thermo Lag") Fire Barrier Systems, performance of fire endurance and hose stream tests, electrical cable circuit integrity, insulation resistance testing and temperature monitoring, and all applicable doco. mentation of these tasks and-the test results.
- t 2.0 OBJECTIVE The objective of these tests is to 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-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, Attachment B L entitled: "ANI/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 ns 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 monitered ~ 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, instrumenLition) will be-i 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. - _
*MO
,s 0 0
- _~ _
w_ _ _ - , _ . = _ _ .
8 .;' I L 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 ap plied to the test assembly from 5' 0" away for five minutes. FoLlowing the hose stream test, a visual inspection 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. 4 3.3 Cable Visual Inspection Providing items 3.1 and 3.2 are satisfactory, . cable visual inspection is not required. However, if either of these i criteria are not met, the barrier material will be removed 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 ResistanciTesting - Providing items 3.1 and 3.2 are satisfactory, insulation resistance (IR) testing is not required. However, if either of the9e criteria are not met, the barrier material will be removed and lit testing shall comraence within thirty (30) minutes following the hose stream test. The acceptanco 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 i 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.L1 Federal Register / Volume 45, No. 225/ Wednesday, November 19,1980 Fire Protection Program for Operating Nuclear Power Plants 10 CFR, Part 60, 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 OA# t i OhATOY [ _ _ , _ - _ . ,, _ _ . , , . . . . . - . . _ . . . , - , _ _ . ~ . _ . _ , , _ , - .[ _ i . .
.._._._,.....-.1.l._.,...
3.I 3 For Class IEEE Electrical Circuits", Revision I, dated November 1987. 4.1.3 ASTM E119-88 " Standard Methods of Fire Tests of Building Construction and 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 Fireproofing 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
- c. Sheet 03B, Rev. CP 1
- f. Sheet 04, Rev. CP-1
- g. Sheet 04A, Rev. CP 1
- h. Sheet 05, Rev. CP-1
- 1. 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
- c. Sheet 03, Rev. CP 1
* * "oe
%04ATO/
SU 4
- d. Sheet 04, Rev. CP 1 4.1.10 Construction / Quality Procedure CQP-MS 125, Rev.1,
" Penetration Seals and Maintenance of Separation Gaps -
l 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 ;
Penetration Seals." 4.1.13 -Installation Procedure IP-0045.CP, Rev.-D, " Installation and 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,-
" Documentation of Penetration Seal Inspection."
4.L16 Quality / Construction Procedure QCP 0067.CP, Rev. D,-
" Density Verification." i 4.1.17 Specification CPES E 2004, Rev.15, "Elecirical Installation."
4.1.18 Construction / Quality Procedure CQP-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 Pot Testing." 4.1.21 IEEE Standard 634 (78)" Standard Cable Penetration Fire Stop Qualification 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 p*" $0e n . . , Ohg[d _ , _ . - . . _ - - . _ _ _ . _ . . _ _ . . _ _ _ . - . , _ . - . . _ . . . . ~ .
30 5 5.1.1 Establish the criteria, guidelines, drawings (draft quality), recommendations, etc., to govern the installation of the test items. Supply the test item pieces, including all hardware, electrical cables, conduit, tray systems, etc. 5.1.2 Establish the criteria, guidelines, drawings (draft quality), recommendations, etc., to govern the installation of the fire penetration seal systems as indicated on applicable drawings (Ref. 4.1.8 through 4.1.16). 5.1.3 Establish the criteria, guidelines, 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). 5.1.5 Provide materials representative of existing or future site installations. 5.1.6 Provide the Thermo Lag Fire Barrier System and penetration seal materials and installation tools and equipment. 5.1.7 Provide scheduling of personnel, equipment and material necessary to perform the installation and QC documentation of the fire barrier system materials utilizing the appropriate installation procedures. 5.1.8 Coordinate all phases of the fire test preparation with the testing organization including approval of variations from the standard American Nuclear Insurers Test Method. 5.1.9 Apply the fire barrier system and penetration seals to the test artides. 5.1.10 Supply _ QC and construction personnel to witness and document assembly and test article 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
- fire barrier system materials, cables, and installation of the ;
r (* * 'O 1
%03 450/
~
-r
e . n. L Ot [ 6 i
- fire barrier system and penetration seal materials to each test-l article, i
! 5.1.13 Provide equipment for. performance _ of insulation resistance :
- i. testing in accordance .with TU . Electric specifications and j procedures (Ref. 4.1.17 and 4.1.20) as described in Section 7.11.
E l 5.2 Omega Point Laboratories, Inc. (Laboratory) F 5.2.1 Prepare the test furnace, deck and slab assemblies and provide j all required test instrumentation in accordance with Appendix B ! Quality Assurance and Quality Control Programs:and othtr i applicable procedures. 5.2.2 Provide thermocouple calibration and instrumentation, storage - I temperature recorder, surface temperature probe and relative - i humidity instrumentation. l 5.2.3 Assemble, install and document the installation of all-. trays, j- conduits, cables, etc.:to be supplied by TU Electric. Provide 7 computer-generated drawings of tray and conduit systems which clearly indicate dimensions, thermocouple . locations, circuit: {. . integrity cable locations, etc.' i l 5.2.4 Observe and document 'he installation of the Thermo Lag F Barrier System Materials and-penetration-seals.to-the t articles, and attendant instrumentation on each test article. . J i 5.2.5 Conduct the fire endurance and water hose stream testa, and also' provide electrical ~ cable circuitry integrity and continuity- . monitoring throughout the specified test time period. \ 5.2.o.Intpect and document the physical condition of all cables and l Thermo Lng fire barrier-system for each test _ article following [ f completion of water hose stream tests (where~ applicable). M.7 Document ~ the test parameters .nd 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 - j _ project. 5.2.9 Provide insulation resistance testingo' f all circuits prior to and . l following fire endurance test'as described in Section 7.11. -
\
f ~
;e (l ~_ ,\ q O TO
' .- e , ,- 00 7-I [ 5.3 Laboratory Quality Assurance / Quality Control - i l 5.3.1 Verify and document the quality _ control documentation of the { -- fire barrier system materials used in the test program. [ ! 5.3.2 Perform and document inspections of the fire barrier system t 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 j penetration seal materials. f- - ! 5.3.4 Inspect and document the construction and instrumentation of the test articles. l - 5.3.5 Provide written calibration documentation of all thermocouples, ! - measurement devices'and data acquisition systems used in this : j test program. ? ) 6.0 - SPECIAL PRECAUTIONS " i ! 6.1 - Precautions .For Installation Of The Fire Barrier System .
- Materials t-
~
F - 6.1.1- Observe specific precautions recommended by Thermal Science, l- Inc. and other's material safety data sheets. 6.2. Precautions For Conducting The Fire Endurance Test [
6.2.1 Proper
safety.- precautions . shall be exercised Lto- preclude personnel from direct exposure to the flame environment,-hot-
- . objects, hazardous gases, and all other related hazards.
7.0 PREREQUISITESL i -
- - 7.1 - General Test Configuration Requirements 8
i :The cable tray, conduit, cables and cable loading used in this test. U _- program shall be representative of those configurations used, and shall Lbe specified and designed by TU Electric. L 7.2 Traceability P.equirements I To insure that the materials used in this_ test are representative of:
~ thode in actual use at Comanche Peak Steam Electric Station (CPSES), --
# **y
'1_'.
g T 6' , _m_ . E h
,.-4-m- -O,-yyg- ,,q,,.3 ,w,--w,---w.e3,,i,,mye+,,y pi- , ,,y g- w .ef y w g . u
. -
- e. A 24" wide x 4" deep "U". shape configuration with horizontal tee assembly (Scheme 6).-
? . f. A 30" wido x 4" deep "U" shape (Scheme 8). [ p o." So, 1 ,, - . 'y1 - i of,3o i i-f ()- J-9 4 h g. -A 30" wide x 4" deep "U" shape (Scheme 121). - l h. A 24" wide x- 4" deep "U" shape configuration with - j horizontal tee assembly (Scheme 12-2). , ! i. A 12" wide x 4" deep "U" shape (Scheme 13 1). i j . A 30" wide x 4" deep "U" shape configuration with -
- horizontal tee assembly (Scheme 14-1)-
7.4.3 Conduit Test Articles -
- Seven (7) configurations (i.e. " Schemes") of rigid steel conduits -
l supplied by TU Electric will be tested. i . .
- a. A "U" shape conduit' configuration consisting of three (3) l- individual rigid steel conduits; 3/4" diameter,1" diameter and 5" diameter, mounted to a central 24" x 18" x~ 8"
~ i
- l. junctio bn ox. This configuration will also contain three (3)
[ i protruding members (Scheme 2),
- b. A "U" shape conduit configuration a naisting of five (5)'
i individual ' conduits; two 3/4"' diameter, one 1-1/2" l diameter, one 2" diameter and _one 3" diameter. Each L conduit will have two (2) lateral bends (Scheme 7). i
- c. A "U" shape conduit configuration consisting of three (3) -
- i. 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).
i individual rigid steel conduits; 3/4" diameter, 3" diameterJ l and 5" diameter. Each conduit will have one-(1) lateral bend and one (1) i adial bend (Scheme 9-2). I -
- e. A "U'. shape conduit configurati6n consisting of three (3)--
individual rigid steel: conduits; ' 3/4" diameter 1-1/2"- , diameter and 2" diameter. Each conduit will have two (2) l; lateral bends (Scheme 9-3).~ r-n '
- 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 berids (Scheme 10-1). [ g ay " 9M 4 1 f F T it 1 T~+ -* T* s ' +-ii w e- f % 8- =*wer-'re-e-*
- r sr m~=w--t'*W-1e4 e Y g wr 2t=, - fsr r w +r w res vge' r e ea^ m e y=i+g& tr 1
41-10 i i 3
- g. A "U" shape conduit configuration consisting of two (2) l individual rigid steel conduits, both 3" diameter, mounted -!
to one (1) horizontal 18" x 12" x 6" junction box and one (1) ' i vertical 18" x 12" x 6" junction box. Each conduit will .] . have two (2) lateral bends (Scheme 10-2). 4 i 7.4.4 Air Drop Test Articles One (1) configuration (i.e. " Scheme") of steel ladder back cable tray which transitions into four (4) rigid steel conduits supplied by TU Electric will be tested,
- a. A "U" shape configuration consisting of a 24" wide x 4" deep cable tray, with 90 sweeping bond,Jwhich 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 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 will approximately consist of the following percentage mix:
CABLE TRAYS AND '1-1/2"- 5" DIAMETER CONDUIT 331/3% 600 volt Power Cables 331/3% 600 volt Instrumentation Cables 331/3% 600 volt Control Cables - 3/4"- 1" DIAMETER CONDUIT Either 100% Control or Instrumentation Cable
- Actual tray and conduit full denaities 'and cable diameters will be-documented and included in the final test report.
7.6 Cable Installation An itemizcd 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. [ $0g '
- c. 't -
O o 7 4. l l 11 7.7 Thermocouple Installation l All thermocouples used in this test program shall be provided and installed by the Laboratory, with QC surveillance by Laboratory personnel. The thermocouple wires shall be calibrated (by Lot No.) prior to installation and/or use, and applicable quality control documentation for record purposes generated. All thermocouples will consist of 24 GA, type K, Chromel Alumel (Special Limit.s of Error: il.1*C) electrically welded thermojunctions. Calibration will consist of manufacturer-supplied (and audited) certifications of calibrations at five temperatures of thermocouples taken from both ends of each purchased lot number. 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 (cllowing criteria shall be documented in the final test report.
- 1) All cable trays shall be instrumented with thermocc,uples located on 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 protect;ve envelope. Each thermocouple shall be attached to the tray rail by the use of a small metal screw. For each tray rail, the mnximum 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 fire protective envelope. Each thermocouple shall be attached to the 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.
- 3) Electrical junction box (Scheme 1)-shall be instrumented with a l minimum of one thermocouple per 5 square feat of exterior surface, located on the inside surface of the item and attached using a small l
sheet met.d screw or welded directly to the steel surface. A l thermocouple shall be placed within one (1) inch of the penetration seal l on the inside surface of the junction box.
- 4) Electrical junction boxes (Schemes 10-1 and 10-2) shall - be
- instrumented with a minimum of one (1) thermocouple centered on the l
inside surface of each box face and one (1) thermocouple within 1" of where each conduit enters the junction box. Thermocouples shall be attached using a small sheet metal screw or welded directly to the steel surface. These thermocouples will be grouped with attached conduit g* *
- g q i
0 4g70 j F 40 ~
- +
12 , i thermocouples and maximum and average temperatures will be l documented.- l_ ! 5) Electrical cables (Schemes 1 through 8) shall be randomly selected in-I each assembly (one of each cable type: Power, Instrumentation and ,. Control) and instrumented with thermocouples located at each 12 inch l interval.along each cable's length inside the exposed' area of the test -
- . item. If insufficient. cables areicoatained within a test item to-
- i. 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 ~*ill have: the. instrumented ' cables positioned at the top surface of the cable bundle. .
I Each thermocouple shall be attached to its appropriate cable by placing - I the thermojunction in direct contact with the outer insulation of the cable for a minimum of 31/2" 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 lthrough 14-1) L ahall be~ randomly.
selected in' each assembly - (one of each cable type: Power, ~ i Instrumentation 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
l within a test item to instrument.to that degree, a minimum of o'ne-l cable, of the smallest size in that system, will be instrumented; I 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 glassE fiber reinforced-electrical tape, unless otherwise: documented in the final test report.
- 7) Instrumented cables in cable tray Schemes 1, 3, 4 andc5= 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 dosamented in the final test report.
- 8) Instrumented cables in cable tray in Schemes 6,8,11-1,12-1,12-2,13-1 and 1 shall be positioned such thatione passes down: the longitudinale centerlinenand; thet otheritwoishall 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. g*
- n Okggh
. . - - - -___ = -.- - - - . - . - . 13
- 9) Cables in conduits will have one instrumented cable in the center of the bundle, one cable half-way to the outside of the bundle and one instrumented cable on the outside of the bundle.
- 10) For air drop tests, cable bundles will be instrumented as describel in paragraph 9 above, unless otherwise documented in the final test 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 possible. Each line of thermocouples on a cable will be grouped and maximum and average temperatures will be documented.
7.8 Installation of the Fire Barrier system to the Test Articles Thermo Lag Fire Barrier System materials shall be installed by TU 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 configurations. Details of the Thermo-Lag configurations including fasteners, orientation of structural ribs, etc., shall be documented in 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 and 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 scaled by the laboratory. 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. 7.10 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 (conductor broken); and, circuit to ground (short circuits, conductors to p ^o *O, O A t' 4 ORAT i I i . > ~ . kb l 14-4 3
- ground). The esbles 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, i which will allow any circuit failure to be detected. ' Cable failures will be identifiable as having been Power, Control or Instrumentation cable. 1- )
- Cable circuit integrity will be done by energizing each circuit with low
! voltage (5 - 12 VDC). The data acquisition system will monitor the voltage . j across the system and will register any drop in voltage.
- - NOTE
- -Circuit integrity with low voltage is based on personal . safety j- concerns and is consistent with standard test practice.
} i I i The purpose of the circuit integrity measurement is to enable the detection of- : 3 the occurrence of a short between any two conductors or ground (the tray or _l
- 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 e
I 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 ' l single 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 cennected between the end of the circuit and system-l ground.
L The resultant circuit allows the measurement of a steady-state voltage drop : _, i across the entire circuit, which will drop _accordingly as any combination of- ' the 1000 resistors are removed' from the circuit byL shorting of any conductors. With the total resistance of the circuit being 20000, and the data : acquisition system measuring across 10000 of the 20000,- the minimum' - _ voltage drop'due'to a loss of one of the 1000' resisters would be approximately -- 0.316 volts, a l_evel easily. detected. ' An open anywhere in the circuit would - cause the voltage to drop to zero. i A typical circuit integrity monitoring design (one _which would be used with a limited number of cables, which would be all connected into a single circuit)is shown belov*: l 1 'l I L i f O y ;,n - / 4 %A- .; V %g;) ; __ j . ... = . - - -_ .- . . . $ C. 15 i + - 12 VDC PwrSup cha**b 4 To Data
- ***d Acquisition l
f10000 System f 3 I p ,- o_n_t.o_p _._._. ._..._hysically o.f_t.he._t.e_st_d._ec_k._. ~._) 1000 . color = black _ i 1000
- color = red I
color = white color = blue
- 4
' 1000 _- color = green , ! 1000 i i i chassis gmmd / "DURh3G FIRE TEST' ' CIRCUITINTEGRITY C 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 hose stream test is completed. NOTE: All conduit and cable trays shall be separately grounded by connection of a 1/0 copper. ground to the Laboratory's' electrical chassis ground. Preceding and one l ,t) 't y
- f. es Okayo
4-l- [i i 16
- following the fire and hose stream tests, the cables will be tested for Insulation
- Resistance, with the circuits configured as follows:
- + ^ -
i- 12 VDC Pwr Sup ]* '5 To Data j 10000 rniund Acquisition i System i .o p ._. .._._._._...h_ysi_ca..lly .-- on top of the_te.. -st deck _.-..... - --- ==; ! o 1 i. l- j -- color = black '. a : : I i color = red ! _- i i color = white i l l color = blue j : ! j-l- _ color = green _j
- i !
-i i i. F 1 ch i. l ground l j _._.- - = - - . __ I: / ' PRE- AND POST-FIRE TESP' g - C // INSUIATION RESISTANCE ' CONFIGURATION
- (Schemes 9 through 14) j e " Extension" Cable from top of deck L to concrete floor for convenience and 1 _ speed (for use by insulation -
1' - 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 * *o , T _m .- - 4AT .~ . _ , _ ca: . - _ . - . . - . . _ ,;,._,..., , - , .._:,._.;_._.. _, un ., a . . _ . , ,,-..--4 i 4 40 1 17 changed to that necessary for following Circuit Integrity during the fire and
- hose stream tests. Following the hose stream test the circuit configuration 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 l minutes of completion of the hose stream test.
7.11 Preburn Inspection l 7.11.1 The Laboratory shall perform insulation resistance testing of all circuits with a 500 y megohmmeter for instrumentation and 1500 y megohmmeter for power and control cables to establish ! reasonable assurance that wiring insulation was not damaged prior to or during installation. .This will determine the i insulation resistance from all conductor to conductor , 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 criteria for each "meggered" cable is based on the following l formula: kV +1 (IMO
- 1000 (R)
IR Acceptance Value (MG) 2 Length (ft) i I 7.11.2 Prior to the commencement of the fire endurance test, a l thorough check of each test assembly and associated l equipment (including data -recording equipment) shall be
- performed and documented by the testing laboratory.-
l 7.11.3 TU Electric shall inspect the Thermo-Lag Fire Barrier System for surface defects, etc. prior ta test. l l 7.11.4 Written approval of the construction, assembly, installation i and instrumentation will be supplied by TU Electric and the ( Laboratory prior to performance of each fire exposure test (a - i sign-off sheet for this purpose .will be supplied lby the l Laboratory), i ! 7.11.5 Fire endurance testing of assemblies _will not commence until l Thermo-Lag Fire Barrier Materials attain a moisture meter - ! reading that does not exceed 20% moisture ' content when using a meter with a scale of 0-100 (with 100 being 20% actual moisture content) such as a Delmhorst Model DP or equivalent. 8.0 PROCEDURE **# 0e 5.onn o / L - __ _ _ . - . . . ,, . - .--., ., --+ - . . c,, 5 ', 18 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.
i 8.1.2 The testing organization shall adapt their testing procedures to assure 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 i requirement shall be documented and properly justified and
- included as a part of the final test report, i
3 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 I 8.3.1 For Schemes 1 through 5, immediately following the fire L 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 i shall be applied for a minimum of two and one half (2-1/2) i minutes. Proper safety precautions shall be exercised. Only - those personnel required to perform the hose stream test shall be allowed in the immediate area, and 'only then with appropriate breathing apparati. 8.3.2 For Scheme 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
- 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 7tessure at the nozzle of 75 psi at a distance of 5 feet, for a 5 minute duration. The minimum flow from the_ noz-le shall be- 75 gpm (in-accordance with Ref. 4.1.21.) 8.4 Protective Envelope Inspection f" Toi oh L . __ * /\ s) ( f 19 8.4.1 Following the Water Hose Stream Test a visual inspection will 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 i 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 shield exposed b) c) conductor insulation exposed, degraded or discolored d) bare copper conhetor exposed e) jacket hardening 9.0 DATA SYSTEMS 9.1 During the fire exposure period, the thermocouples will be scanned at one minute intervals or lass. Deta storage for reporting purposes will be at one minute intervals, although the furnace thermocouples will be scanned every 1.5 seconds, to allow close control of the furnace. . A printer output ard scannir.g of all other themnocouple data will also be done at intervals of one minute or less, but will not be included in the i 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 l or nondestructive quench as applicable. j 10.0 FIRE TEST REPORT 10.1 The Laboratory will submit a report on the 'sults of the test and thermocouple data. 10.2 The Laboratory will assemble the final test report, containing the collected data and required quality control documentation. **"O \ %c ,) a ! e. , as i j 20 i i 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) Qualification and certification for test personnel
. f) Test procedures used l g) Acceptance criteria f h) Provide quality control records for: i
- Test article construction Qualification and certification fhr installation and t inspection personnel _ _
l
- Identification and installation of fire barrier i 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 i 1) Provide a chronological log (Event Log) of all activities from i receipt of materials through final est report i m) Insulation resistance test methodology and documentation.
j n) Post test protective envelope and cable inspection records and results l i f l i-f f l l .[ Report No.12340-94367a November 23,1992 d Texas Utilities Electric APPENDICES Appendix C THERMOCOUPLE LOCATIONS O /AA g , = # T4 ,,/ . . 4 04 AT0 * ~ A j e , i l s s o i s s. u.s If'. s en -- . _ __ __s Y k.'. .r6_ _ __ ____ _ _ _.. _ _ _ _ _ _ _ _ _ _ __[L1g s i i TC #130 6 ( TC #129 l \ q' \ TC #126 \ s N TC #127 : i \ -1: TC 'x s m . , _ TC #128 TC #12C i , w =e .n.. . , , , - - . . . . . , . .- . - - ~ ~ - . - - . - - - . . _ , . D u w 55
- I i 1 i
SI rn i APERTURE C ' i A CARD m ,muyAT 9: l ^ TC #125 : ! 5 r > TC #124 s 4 i TC #123 OMEGA POINT LABORATORIES, INC. l #121 l Project No.- 12340-94367a r TEXAS UTILITES ELECTRIC 8 / \ \ / Fig. 7 Thermocou le Locations 5' e Conduit TC #122 l -f f f 9302160270- ____ ,~ -s .. c C 5 / > n ? J i.W. . . .ssEnn_885_MF s s s . t (% u - _ . _ . e TC #119 e TC #118 TC #117 /
- o. .
TC #115 TC #107 S TC m -- # ~ aa 4r - TC #116 _/. _._. _-- /,a TC #114 TC #1 ~ TC #113 p kW A " ____,._w. - + - - - - - ~ - " ~ ' " ' _ _ _ _ - _ _ - _ _ . _ _ - _ - _ - - - - - - - - - - - - - - - - - - - - [\ f)G l 1 l i l 1 1 5 SI APERTURE CARD Also Available On Aperture Card hi ws khd tu r--- 2 ! TC #112 v' TC #'111 / OMEGA POINT LABORATORIES, INC. Project No. 12340-94367a TC #110
- J108 a. TC #109 -
\!l \ TEXAS UT! LITES ELECTRIC -tr Ih.
- Fig. 8 Thermocouple Locations
\ 3/4' o Conduit 9302160270 - - ? t ) -w i' i l i i i -p l , .s y
- a" f s r : ~ 4 a;o .mm;sm, o
-sx ;- :j$+.p:p a# v i c i i ! . s I s! l + ,' I ^ $i - 21_ _llEeL491][ Llidad
- I I i
- j. 3 TC #105 i
l TC #104 4 i TC #103 TC #100 T@ , \ % m 4 N~ ._ m / * - 4 ~. / / / / TC #102 TC #101 TC #94 TJ #95: 4 e .- y-t l. =- ee y a+ y** vqy e-were . uvgg-e -g* y*-y,a y 4 _.- 9 y 1 4 \ tr-o i SI e wuv a / APERTURE we ' ue , , s t ' , % ,: A w t . sus ] CARD iso Availabic On Aperture Card TC #99 w/ 1 t~ TC #98 iM j' OMEGA POINT LABORATORIES, INC.
- 96 N, Project No.12340-94367a s
a E 7 ) !* -TEXAS UTILITES ELECTRIC ll } _ -- A ~~p Fig. 9 Thermocouple Locations / 3' e Conduit TC #97 9302160270 - 1 / 7/ . \ = \ , ~l ) rl j 5~ - =,,- ..~ hrobesinserted liir~ ugh the---- c ,hy lj i x > l ;.pf i l 4 { [ surface of the steel deck -- u h 4;ia t' i J,a 1, . l e :; ma n- g y n, 3, O ,' ,- k:'n'f 4 i h ' f, ,d
- -4
' 1 - 1 j i, e-l, i' #6 - 3! - $ #'. j &# t t a si l .\imtit .., b ,,, / / J * # 7, ;g g/ -t i... . jkg j', j( ,ggg fQf f #'fa ang jgg3 p ; O i se ," ~, n = a,n - -
- ./1 $$$
,a - - - - + - ~ g4', _*: : s; < ya* g O e --zu - g:, .p =#1 s yr J , ;, u 4 a , 7 3 - =3 pg p 4 i0ij , i<j $ 2 -- ?# /' ..[ j ; 2, m e, x *' q' / ? x %..l4 / i S . / p, "+ i' ";' / ij /L.) } t fs . e, ,$k ) ], se n [I ?E ,e s, ; - h, p : '] >.. , _a y+; k. . t'Nik > %.w n:Et? . %h- . W .R N# :- > 1 / zumummmmmmmme umanummunnusuumaans FRONT } 1 %e-& j 5.o I nam ,/ //sf ( h! "" l l. y - o i / ; i - #7 o n-
- //
p ,, , // k * #@! 3 1 $l ' ' ' .'..fjulul~ , - l Rn, : ;' i Jl ( , O ' o. o s 1 ., - . a o (" SI ! i , T{# 5 ' - l : APERTURE i gt. e !j c : - l{l , CARD 3, :. . o - n~ 6g% sit = _14 i j hSso$ Also Available On ..u ::o$i Aperture Card g; O gg;;7~ irskb / ,. Mi j / /4 + - ,- . . -- a - gj gp g ssi wem 'j; / j is ? / , ?g //- g g o4 :: OMEGA POINT LABORATORIES,INC. iProbes inserted ttiroug the e- _; ['k i Project No.12340-94367A a I of },he furn lj TEXAS UTILITES ELECTRIC kyk}[ ; l} I Fig.10 Furnace Probe Locations g 9 8 0216 0 27 0L - -- 59 THERMOCOUPLE PLACEMENT LOG - PROJECT NO. 94367 NOT t: This Log is to be used to document the precise locabon of the thermccouples located m each test itern The assigned pro;ect number for each of the test assembhes are. ocheme #91: 94367A Scheme #12 2 9436711 Project #: 94367A beheme #9-2: 94367B Scheme # 12- 1 943671 Scheme #10-1: 94367C Scheme #9 3 94367,1 Scheme #. 9-1 Scheme #10-2: 94367D Scheme #10 3 94367K Scheme #11-1: 94367E Scheme #131 913671' Scheme *14-1 94 MTM Item 3" Conduit Scheme #11-2: 94367F Scheme #11-3: 94367G p g 3C/#8 W-023 TC Number De a . iptior: of m t ph .sical lo"ation P1 Center of cable P131 6" right of center __ . _ _ ____ l _ [__i ~ _I ._ - P2 12" right of center __ _. _ _ _ _ _ _ _ __ _ _ . . _ _ _ _ __ _ ,^ P132 18" right of center _ _ ____ _.___ _ _ _ _ _ _ __ P3 24" right of center P133 30" right of center __ _ __. __ _ P4 36" right of center _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ ___ . _ . _ _ _ _ _ _ P134 42" right of center --~ ~~ ~~ ~ j ^ ~ P5 48" right of center ~ ~ ~ -- ~ ~ ~ ~ ~ ~ ~ ~ P135 54" right of center ~~ ~ ~ ~ ~ ~ ~~ ~ ~ ~~ I P6 60" right of center ~~ - ~ ~ ~ ~ ~ ~ ~ ~ ~ -~ i P136 66" right of center ~- - ~ ~ ~ ~ - ~ '~ P7 72" right of center -~ ~-~ ~-~~~ ~ ~ ~ ~ ~ - ~ ~ - ~ P137 6" left of center - ~ ~ ~ ~ ~ ~ ' ~ ~ - ~ ~ ~ ~ ~~~ P8 12" left of center - ~ ~ ~ - ~~~~~ - '~ '~ P138 18" left of center ~~~ ~~~ ' - ~~~ ~~~ ~ - -~'~ -~- P9 24" left of center ~ ~ ~ ~ ~~ ~ ~ ~ ~~' ~ ~~ P139 30" left of center ~ P10 36" left of center-~ ~~ -- ~ ~ ~ - ~ ~ P140 42" left of center ~ ~ ~ ~ ~ ~- -~ ~ ~ ' ~ ~ ~ ~ - ~ ~ ~ ~ ~ ~ ~ P11 48"left of center -~ ~ - - - - ~ ~ - - ~ ~ ~ ~ P141 54" left of center ~~ '- - -- - ~ ~ - ~~~~~~~ P12 60" left of cente- - ~ ~ ~ ~ ' - - ~ ~ ~ P142 66" left of center -~~ ' P13 72" left of center i [L ~ __. ___]~] ))[_~~ = NOTE: TCs shall be numbered sequentially from 1 upwards f or each deck assembly. Pretixes shah ne added as t'nilows P 'oower cable), C (control cable), I(instrumentatinr. cable) and E wngmeenng TCL for metance P1, E35. C46. atc. ' LEASE USE THE BACK OF THIS SHEET FOR DRAWINGS, IF NECESSARY l C0 THERMOCOUPLE PLACEMENT LOG - PROJECT NO. 94367 NOli:: This Log is to be used to document the precise location of the thermocouples located on each test item. The assigned project number for each of the test assemblies are: __ acheme #91: 94367A Scheme #12 2: 943671I Project #: 94367A Scheme #9 2: 94367B Scheme #12-1: 943671 Scheme #10-1: 94367C Scheme #9 3: 94367J Scheme #: 91 Scheme #10-2: 94367D Scheme #10 3: 94367K Scheme #111: 94367E Scheme #131: 94367L em: 3" Conduit Scheme #112: 94367F Scheme #14-1: 94367M Scheme #113: 94367G Control Cable 7C/#12 W-047 TC Number Description of exact physical location C14 Center of cable _ C143 6" right of center C15 12" right of center C144 18" right of center C16 24" right of center i C145 30" right of center C17 36" right of center C146 42" right of center C18 48" cight of center C147 54" right of center C19 60" right of center C148 66" right of center C20 72" right of center C149 6" left of center C21 12" left of center __ C150 18"left of center C22 24" left of center C151 30"left of center _ _ _ _ C23 36"left of center C152 42"left of center C24 48" leR of center C153 54"left of center C25 60"left of center C154 66"left of center C26 72"left of center NUIE: TOs shall be numbered sequentially from 1 upwards tot each deck assembly Prefixes shall be added as tollows: P (oower cabla), C (control cable), I(instrumentation cable) and E (engineering TC), for instance P1, E35, C46, etc, ' LEASE U_SE THE BACK OF THIS SHEET FOR DRAWINGS. IF NECESSARY .01 -THERMOCOUPLE PLACEMENT LOG - PROJECT NO,94367 NU l t:: . . This Log is to be used to document the precise location of the thermocouples located on each test item, The assigned project number for each of the test assemblies are: scheme #91: 94367A Scheme #12 2: 94367H Project #: 94367A Scheme #9 2: 94367B Scheme #121: 943671 Scheme #101: 94367C Scheme #9-3: 94367J Scheme #: 9.:1 Scheme #10-2: 94367D Scheme #10-3: 94367K Scheme #11 1: 94367E Scheme #131: 94367L Scheme #14-1: 94367M Item: 3" Conduit Scheme #112: 94367F Scheme #113: 94367G Instr. Cable SC/#16 W 071 TC Number Deceription of exact physical location , 127 Center of cable 1155 6" right of center 128 12" right of center 1156 18" right of center 129 24" right of center I157 30" right of center 130 36" right of center 1158 42" right of center 131 48" right of center 1159 54" right of center 132 60" right of center 1160 66" right of center 133 72" right of center I161 6" left of center 134 12"left of center 1162 18" left of center 135 24"left of center 1163 30"left of center _ _ 136 36"left of center I164 42"left of center 137 48"left of center 1165 54"left of center I38 60"left of center 1166 66"left of center 139 72" left of center NOTE: TCs shall be numbered sequentially from 1 upwards inr each deck assembly. Pre 6xes shall be added as follows: P ' cower cable), C (control cable),1(instrumentation cable) and E (engineenng TC), for instance P1, E35, C46, ete- ! LEASE USE THE BACK OF THIS SHEET FOR DRAWINGS, IF NECESSARY - . ~ ~. . . - - . . . - . - . . . - . - . ~.. - . - . _. - _ _ . - . ~ G2 s THERMOCOUPLE PLACEMENT LOG - PROJECT NO. 94367 I Nol t: This Log is to be used to document the precise location of the thermocouples located on each test item. The assigned project j number for each of the test assemblies are: l ocheme #9-1: 94367A Scheme #12 2: 943671I Project #: 94367A Scheme #9 2: 94367B Scheme #121: 943671 Scheme #10-1: 94367C Scheme #9 3: 94367J Scheme #: 9-1
- Scheme #10 2: 94367D Scheme #10-3: 94367K l Scheme #11 1: 94367E Scheme #131: 943671' Item: 3/4" Conduit Scheme #11-2: 94367F Scheme #141: 94367M Scheme #113: 94367G Instr. Cable i
5C/#16 W.071 _IlNumber t Description of exact physical location I40 Center of cable
- 1167 6" right of center I41 12"sht of center 1168 18" right of center I42 24" right of center 1169 30" right of center I43 36" right of center 1170 42" right of center
- I44 48" right of center 1171 54" right of center 145 60" right of center 1172 66" right of center 146 72" right of center I173 78" right of center l
153 84" right of center I174 6"left of center 147 12"left of center 1175 18"left of center _ I48 24"left of center I176 30"left of center I49 36"left of center 1177- 42"left of center ISO 48" left of center I178 54"left of center 151 60"left of center I179 66"left of center 152 72"left of center I180 78"left of center 154 84"left of center NOTE: TCs shall be numbered sequentiallyN 1 upwards inr each deck assembly. Pretixes shall be added as tolinws; P (power cable), C (control cable), I(instrume' w i cable) and E (engineering "'C), for instance P1, E35, C46, etc. ) ' LEASE USE THE BACK OF ThiS SHEET FOR DRAWINGS, IF NECESSARY ~ . _. _ . __. . - - _ .___._._ __._.-__.._ G3 THERMOCOUPLE PLACEMENT LOG - PROJECT NO. 94367 NOT t;; This Log is to be used to document the precise location of the thermocouples located on each test item. The assigned project number for each of the test assernblies are: scheme #91 94367A Scheme #12 2: 9436 11 Project #: 94367A Scheme #9-2: 94367B Scheme #121: 943671 Scheme #10-1: 943670 Scheme #9-3: 94367J Scheme #: 9-1 Scheme #10-2: 94367D Scheme #10-3: 94367K Scheme #111: 94367E Scheme #131: 94367L ltem: 5" Conduit Scheme #112: 94367F Scheme #141: 94367M Scheme #113:94367G Power Cable 3C/#8 W-023 TC Number Description of exact physical location P55 Center of cable P181 6" right of center P56 12" right of center P182 18" right of center P57 24" right of center P183 30" right of center P58 36" right of center P184 42" right of center P59 48" right of center P185 54" right of center P60 60" right of center P186 66" right of center P61 72" right of center P187 6" left of center P62 12" left of center P188 18" lett of center P63 24"left of center P189 _ 30"left of c anter ___ _ , , P64 36"left of center P190 42"left of center P65 48" left of center P191 54" left of center P66 60" left of center P192 66"left of center P67 72" left of center l NOTE: TCs a hall be numbered sequentially from 1 upwards inr each deck assembly, Prefixes shall be added as follows: P -' power cable), C (control cable), I(instrumentation cable) and E (engineering TC), for instance Pl. E35, C46, etc. , n' LEASE USE THE BACK OF THIS SHEET FOR DRAWINGS, IF NECESSARY ! ~ h <} THERMOCOUPLE PLACEMENT LOG - PROJECT NO. 94367 NOIE: This Log is to be used to document the precise location of the thermocouples located on each test item. The assigned project number for each of the test assemblies are: .;che.ne #9-1: 94367A Scheme #12 2: 9436711 Project #: 94367A Scheme #9-2: 94367B Scheme #12-1: 943671 Scheme #10-1: 04367C Scheme #9 3: 94367J Scheme #: 91 Scheme #10-2: 94367D Scheme #10-3: 04367K Scheme #11-1: 94367E Scheme #131: 94367L Scheme #11-2: 94367F Scheme #141: 94367M llem: 5" Conduit Scheme #11-3: 04367G Cont rol Cable 7C/#12 W 047 TC Number Description of exactyhysim! location C68 Center of cable C193 6" right of center C69 12" right of center C194 18" right of center C70 24" right of center C195 30" right of center C71 36" right of center C196 42" right of center C72 48" right of center C197 54" right of center C73 60" right of center C198 66" right of center C74 72" right of center C199 6" left of center C75 12" left of center C200 18" left of center C76 24" left of center C201 30" left of center _ _ _ __ C77 36"left of center C202 42" left of center C78 48" left of center C203 54" left of center C79 60"left of center C204 66" left of center C80 72" left of center NOlE: TCs snall be numbered sequentially from 1 upwards for each deck assembly, Pretixes shall be added as fotows: P (power cable), C (control cable), I(instrumentation cable) and E (engineering TC), for instance P1, E35, C46, etc. ? LEASE USE THE BACK OF THIS SHEET FOR DRAWINGS, IF NECESSARY l }l n I ~ 05 i ! l l THERMOCOUPLE PLACEMENT LOG - PROJECT NO. 94367 i NOI6: 1 This Log is to be used to document the precise location of the thermocouples located on each test itent The assigned project number for each of the test assemblies are: i dcheme #9-1: 94367A Scheme #12 2: 9436711 Project #: 94367A ' Scheme #121: 94367I Scheme #9-2: 94367B Scheme #10-1: 94367C Scheme #9 3: 94367J Scheme #: 91 Scheme #10-2: 94367D Scheme #10-3: 94367K j Scheme #111: 04367E Scheme #131: 94367L ltem: 5" Conduit
- Scheme #112: 94367F Scheme #141: 94367M Scheme #113: 94367G Instr. Cable
! 5C/#16 W-071 ! TC Number Description of exactyhysical locatirn __ .m __ .._ ._, _ i I81 Center of cable , 1205 6" right of center ! 182 12" right of center ! I206 18" right of center 183 24" right of center 1207 30" right of center _ 184 36" right of center I208 42" right of center 185 48" right of center
- 1209 54" right of center
- 186 60" right of center I210 66" dght of conter 187 72" right of center 1211 6" left of center
- I88- 12"left of center 1212 18" left of center 189 24"left of center t 1213 30"left of center --
190 36" left of center 1214 42"left of center 191 48" left of center 1215 54" left of center 192 60" left of center 1216 66"left of center 193 72" left of center i NOTE: TCs shall be numbered sequentially trom i upwards int each deck assembly. Prefixes shall be added as follows: P ' power cable), C (control cable), I (instrumentation cable) and E (engmeenng TC), for instance P1, E35, C46, etc. . ? LEASE USE THE BACK OF THIS SHEET FOR DRAWINGS. IF NECESSARY m .. ,_ __ _ _ _ _ m.. _ . . _ - _ _ _ _ _ . - - _ _ . . _ _ . . . . _ _ _ . . . _ _ _ _ . . . _ _ _ _ . _ _ 06 i THERMOCOUPLE PLACEMENT LOG - PROJECT NO. 94367 h0T E: This Log is to be used to document the precise location of the thermocouples located on each test item. The assigned project number for each of the test assemblies are: dcheme #91: 94367A Scheme #12-2: 94367H Project #: 943G7A Scheme #9-2: 94367B Scheme #121: 943671 Scheme #101: 94367C Scheme #9-3: 94367J Scheme #: 9-1 Scheme #10 2: 94367D Scheme #10-3: 94367K Scheme #111: 94367E Scheme #13-1: 94367L Scheme #11-2: 94367F Scheme #141: 94367M ltem: 3" Conduit Scheme #113: 94367G Conduit Steel TC Nuinber 19 : cription of exact physical location E94 10 3/4" to right ofleft support haiiger on top of conduit E95 12" to right of previous TC on top of conduit E96 Centered under right support hanger strap, on top of condtut E97 1" to right oflower condulet bell, on top of condulet E98 Centered on outside of condulet cover E99 5" above top of condulet, on outside of conduit E100 Centered under left support hanger strap, on top of conduit E101 10 3/4" to left of previous TC, on top of conduit E102 12" to left of previous TC, on top of conduit, at start of radial bend E103 12" to left of previous TC, on top of conduit, near inter of radial bend E104 12" above previous TC, on inside of conduit, at top of radial bend E105 12" above previous TC, on inside of conduit _ l l l l l l DOTE: TCs shall be numbered sequentially 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 THERMOCOUPLE PLACEMENT LOG - PROJECT NO. 94367 i Noi t:: , This Log is to be used to document the precise location of the thermocouples located on each test item.- The assigned project i number for each of the test assemblies are: i i Jeheme #91: 94367A Scheme #12-2: 94367H Project #: 94367A j Scheme #9-2: 94367B Scheme #121: 943671 i Scheme #101: 94367C Scheme #9-3: 94367J Scheme #: 9-1
- Scheme #10-2
- 94367D Scheme #10 3: 94367K j Scheme #111: 94367E Scheme #131: 94367L ltem: 3/4" Conduit
; Scheme #112: 94367F Scheme #141: 94367M Scheme #11-3: 94367G Conduit Steel i [ TC Number Description of exact physical location ___ _ j E106 10-3/4" to right ofleft support hanger, on top of conduit i E107 12" to right of previous TC, on top of conduit-- l E108 10-1/4" to right of previous TC, on top of conduit E109 11-1/2" to right of right support hanger, on top of conduit E110 Centered on outside of condulet cover - Elli 10-1/2" above top of condulet, on outside of conduit E112 113/4" above previous TC, on outside of conduit E113 1-1/2" to left ofleft support hanger strap, on top of conduit l E114 10" to left of previous TC, on top of conduit ! E115 12" to left of previous TC, on top of conduit
- E116 12" to left of previous TC, on top of conduit, at start of radial bend l E117 12" above previous TC, on inside of conduit, at top of rad.ial bend l E118 12" above previous TC, on inside of conduit E119 12" above previous TC, on inside of conduit l
i l l i 1 i l DOTE: TCs shall be numbered sequentially from 1 upwards for each deck assembly. Pretixes shall be added as follows: P (power cableh C (control cable), I(instrumentation cable) and E (engmeering TC), for instance Pl. E35, C46, etc. PLEASE USE THE BACK OF THIS SHEET FOR DRAWINGS, IF NECESSARY .-: .r.-.. ,er - . , , , - ,.v , . . - . , . . - , . - - ,. , , ,.,,-1-seey..-,-n.y.....y-y#-...,m. - ,m.--.., ., y-.w. wy-w., ,.-.-..ww-r..,..,-,...,e....,. . -~ ,. .-. . - . . . . --_ .- 08 THERMOCOUPLE PLACEMENT LOG - PROJECT NO. 94367 hvi6: 4 This Log is to be used to document the precise location of the thermocouples located on each test item. The assigned project number for each of the test assembkes are: scheme #91: 94367A Scheme #12 2: 04367H Project #: 94367A Scheme #9 2: 94367B Scheme #121: 943671
- Scheme #101
- 94367C Scheme #9 3: 94367J Scheme #: E-1_"
4 Scheme #10-2: 94367D Scheme #10-3: 94367K Scheme #11 1: 94367E Scheme #13-1: 94367L Scheme #14-1: 94367M ltem 5 Conduit Scheme #112: 94367F Scheme #113: 94367G Conduit Steel TC Number Description of exact physical location _ E120 10 3/4" to right ofleft support hanger on top of conduit E121 12" to right of previous TC on top of conduit E122 Centered under right support hanger strap, on top of conduit E123 1" to right oflower condulet bell, on top of condulet E124 Centered on outside of condulet cover E125 1" below top of condulet, on outside of conduit E126 Centered under left support hanger strap, on top of conduit E127 10 3/4" to left of previous TC, on top of conduit, at start of radial bend E128 12" to left of previous TC, on top of conduit, on radial bend E129 12" to left of previous TC, on top of conduit, on radial bend E130 12" above previous TC, on inside of conduit, near top of radial bend ) i JOTE: 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), fnr instance P1, E35, C46, etc. PLEASE USE THE BACK OF THIS SHEET FOR DRAWINGS, IF NECESSARY l G9 Report No.12340-94367a November 23,1992 Texas Utilities Electric APPENDICES 4 4 4 Appendix D CIRCUIT INTEGRITY DE. :1LS i l v %,4AT O / g TEXAS UTILITIES ELECTRIC c~ ( U PROJECT NO. % %7 A CIRCUIT INTEGRITY CONNECTIONS , i + __ i 12 VDC Pwr Sup g . chassis To Data 1000 O gnund Acquisition System a biruiit Integrity V='\LLL I I00 i 1M V.toon= k b M color = Ne/ _ Vg =
- E D 9[
1000 . color = da.c.K _ 1000 color = on, .e _ color = L./NM 1000 color = 1 v.4. A _ C.dav b o. g 1000 loos SE < y- as .CNw.we Mi Date Instrumented: n ~'l 'I P cf ._ f Technician: Icel SCHEME #: ASSEMBLY #: ITEM: IV W# CABLE FUNCTION: INSTRUMENT CABLE TYPE: W.071 CABLE SIZE: SC/#16 AWG ,. -. . .. =- - . =.-. -- . - i l TEXAS UTILITIES ELECTRIC 71 4 PROJECT NO. 9 4 %7 A ! CIRCUIT INTEGRIT/ CONNECTIONS
- i. !
, + - 12 VDC Pwr Sup g
- chassi' To Data ground Acquisition f1000O System o
Chruit Integrity Vi = M % 6% color = _ 1000 : 100 0 Vc= Y. M 3 Color = AM i f 1000 color = 0 <a y _ color = . 100 0 Color = 9 N E N ( 1000 chassis - ground (ko.wwe Mk Date Instrumented: U-N L T~I Technician: I' # SCHEME #- ASSEMBLY #$ . ITEM: 3Y CABLE FUNCTION: . CONTROL CABLE TYPE: W-048 CABLE SIZE: 5C/#12 AWG i. l ,i ~ TEXAS UTILITIES ELECTRIC PROJECTNO. 1# + M7 A 72I CIRCUlTINTEGRlTY CONNECTIONS + o 12 VDC ! Pwr Sup To Data hoId f1000O Acquisition System 4 f Cimult Integrity e V i = A\50 100 0 y , g , ( gg color = l Vr= A/O 100 0 color = 2_ 100 0 color = 3 1000 mm chassis ground cum-e( e 3 g Date Instrumented: 4-H L Technician: EH SCHEME #: TM ASSEMBLY #: ITEM: I'd M & CABLE FUNCTION:- POWER CABLE TYPE: W.023 , CABLE SIZE: 3C/#8 AWG TEXAS UTILITIES ELECTRIC , -n PROJECT NO *1'+%7 A 84 CIRCUlTINTEGRITY CONNECTIONS + -. o 12 VDC Pwr Sep I O "d qu tion System i t color = Ytg) 1000 color = S4 + ( ,I 1000 color =bb.uc. _ 100 0 CimdtIntegrity color = vL".lq v= i fo.asb 1000 color = o n y,1ggg , S,9 R o 1000 ' color = J"M i 1000 _' color = 1C v-< h _ 1000 color = U N44 1000 c d u 1.- No.a h, toos <.2 -(kb ec[ "OCI @ Date Instrumented: 4- M t. Technician: leir SCHEME #: 9-/ ; - ASSEMBLY #: ITEM: 3 "4 C6d4+ l CABLE FUNCTION: ' INSTRUMENT ' CABLE TYPE: W.063 ' CABLE SIZE: 4 Shielded Twisted Pairs #16 AWG (8 Cond) I . - _. _ t TEXAS UTILITIES ELECTRIC y l PROJECTNO. %%7 A CIRCUITINTEGRITY CONNECTIONS l-l + - . 12 VDC g " chassis To Data ground 1000 O Acquisition i System o ! color = N.e_ - i 1000 l _ color = da C8- , Chruit Integrity 7,f" vi = ! 24 550 1000 Ir= Q " l v1oon= 5.t5o l 100 0 Color = goM Vr= E #~3 F Color = kCC.( _ 1000 color = O / * % 4 ' ,1 ~ 1. i 100 0 i . color = q rq e - 1000 ~ chassis ground i C k c m w .e, Mb Date Instrumented: II- ' SCHEME #: 4 Technician: ASSEMBLY #: ITEM: W N/"# CABLE FUNCTION: CONTROL CABLE TYPE: WM7 CABLE SIZE: 7C/#12 AWG m .-~_,m, - , , < - 1 TEXAS UTILITIES ELECTRIC . PROJECT NO. %%7 A er' 4 CIRCUIT INTEGRITY CONNECTIONS 1 + -
- '12 VDC Pwr Sup g '
, chassia To Data. i ground Acquisition i f.1000O System - o l ~ color = Ne / _ ! b 5 1000 l color = o(a.cX Circuit Integrity I 1000 yi = %, O M EM Color = g M V.1000 = g,}yQ- ~ color = O b - f* $ color = M b kcNi ' 1000 color = O my _ 1000 i _ color = S M % _ ! 1000 chassis . ground C cR-4 e6 O Date Instrumentedi II -Technician: SCHEME #: ASSEMBLY #: - i O"[ ITEM: "' 1 o CABLE FUNCTION: CONTROL- I I . CABLE TYPE: - W 047-CABLE SIZE: 7C/#12 AWG t i i . .:._.. . - . . . , - . . . - . - - - - - - - - ~ - - - TEXAS UTILITIES ELECTRIC ^# 76 PROJECT NO. 9 4 % > A CIRCUlT INTEGRlTY CONNECTIONS i + -
- 12 VDC e'
i --Pwr Sup chassis To Data 1 j ground 1000 O isitie System ' -.o i Circuit Integrity vi= 5141 color = Ned Y-1000 = 4 M O l Vr= T' ( }f 100 0 - color = h\.a.c.g 100 0 color = C v % f _ color = t s C . k 1000 color = k# % 1000 cow - 4 r-00 % e cW4 *7 @ Date Instrumented: Il 3'T2 i-! Technician: Pd SCHEME #: ASSEMBLY #: ITEM:' %" C
- 4'+
CABLE FUNCTION: INSTRUMENT CABLE TYPE: W-071 - CABLE SIZF 5C/#16 AWG d, j TEXAS UTILITIES ELECTRIC (I PROJECT NO, 9'4-%7 h CIRCUIT INTEGRITY CONNECTIONS 12 VDC Pwr Sup g . chassi To Data , 1000 O E'"""d Acquisition . System o ; _= Circuit Integrity o Vr= % 3 A Ol ; 1000 j y 100n= 2@ ~ 'Vr= M 7b . color = 1 l _ 100 0 . color = ) _ 100 0 mm chassis ground cVm-e( *% H Date Instrumented: 'I- 3-9 L Technician: Ed- SCHEME #: - 9'I ASSEMBLY #: - ITEM: 3 ' # AA'* CABLE FUNCTION: POWER-CABLE TYPE: W-020 - CABI2 SIZE: '3C/#6 AWG TEXAS UTILITIES ELECTRIC - -' PROJECT NO. M 3L7 A 7o CIRCUIT INTEGRITY CONNECTIONS + - 12 VDC - Pw Gup [ chassia 1000 O ground To Data Acquisition System 4 o Circuit Integrity V=4N i 100n gj . V.100n = Y' O b Vr= EUI , Color = ACX ' 100n Color = (*) v A. 4 color = L.a/ tk ' 1000 color = A.M M 1000 c<A.cv- b n. A \oo r 2 A < sessinT C_ wwek f Date Instrumented:'ll '}'4* Technician: gg y M -/ ASSEMBLY #: -ITEM: ' 3
- d CM""
CABLE FUNCTION: INSTRUMENT - CABLE TYPE: W 071 CABLE SIZE: 5C/#16 AWG l 4 TEXAS UTILITIES ELECTRIC PROJECTNO. %'C h CIRCUIT INTEGRITY CONNECTIONS + - i' ~ 12 VDC i Pwr Sup chassis To Data gr_ound 1000 O Acquisition System ' i I ' - Chcutt lotegrity 3 I V=i ~3 9 69 100 0 V.toon = LBS A l color = i y, ~3 fTff: , -i color = b 1000 color = 7 , ,e _ 1000 chassis ground i e cb.-ei **= l o @ Date Instrumented: Techtesan: " } ( 'i ' SCHEME #: i'I ASSEMBLY #: ' - ITEM: 3,, # "#". ' CABLE FUNCTION: :.POMR-CABLE TYPE: W-023 CABLE SIZE: 3C/#8 AWG ' P - -yw rv-- e- ,+v f M y $Fu-- T y rr' 00 Report No.12340-f 4367a - Novend>er 23,1992 Texas Utilities Esectric APPENDICES ; l Appendix E INSULATION RESISTANCE DETAILS t-0AP I f %, r 5.Ogggo f g - I 31 TEXAS UTILITIES ELECTRIC I I CACLE INSULATION RESISTANCE MEASUREMENT This individual cable has CODE DATA SHEET been labeled with the letter shown in the box to the right, j\ , to simplify rapid n
- z identification.
PI'OJECT NO: 9 O O " TEST NO: A CABLE LENGTH (PT): -2 h ' 7 Ya IR ACCEPTANCE VALUE: # ## M a P- e-els a. e e' h n , a 1 w< CIRCUIT PRE-TEST TESTED POII' TEST IR x/ IR C1 ACCEPTANCE } T~ _ Black to Pink , & ?J#d . 6, iA l Black to Orance V ! 99 794' I CCk Black to White r I >fo < #iK t' Black to Green I ?Sv 4 ?,o x Black to Ground f Pink to Orance i I 9 r0-k n t aP, fx P f > ro k t,# x i_ Pink to White t ? re ( / i Pink to Green i > se M 6sA I Pink to Ground RoA f Orance to White I to x ! t, o 6 V i >s z7t Orange to Green 9, o u T i i Orange to Ground Ted t F. frA V i 10 K White to Green 4. rx P >J# K 5",_s A White to Ground 2 'i ( V .5, g n f [__.Grgn to Ground __ 2M ' /, , o A f l . I I i L. t Date Pre-Test IRT:. '/M4 r Technician: #
- I- ##2 SCHEME #: 3-l Date Post-Test IRT: v/3/91 ' ' ASSEMBLY #:
Technician: DAW'"##Z ITEM: #,.6 Co ^d CABLE FUNCTION: INSTRUMENT CABLE TYPE: W-071
- IRT = Insulation Resistance Test CABLE SIZE: 5/C #16 AWG
'EC - liy 0 . 5% m sb *-.J ENERGIZE TO: 500 VDC u ea. c.,, b J h 5R4 (23358 reis Dve Gh 'Goyz7 1 09 Uw Pc~go 1 cf 1 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, O M to simplify rapid identification. PROJECT NO: 967 CABLE LENGTH (FT): TEST NO: A IR ACCEPTANCE VALUE: 2 'T &l keods t'u ltt SL l CIRCUIT ! PRE-TEST POST-TEST LTESTED. _ __ _ _. ___IR_ XA _ _ _ IR X3 ^CCEPTANCE I Black to Pink l 7EC K. I ICK. N ! I l ! Black to Orange oc 7TcK !&M W' I P 1 Black to White ! # 7WR i ~1 K 9.Tc M ! ( i Black to Green d 75c A i 9R - ? Ta I f i Black to Ground om Ec K : MCC '50 K l f i Pink to Oranee 7srK t 12 K. +M ! f l Pine to White 75c K TK O TO K I T l Pink to Gr.een 74 t<. 9K .> SO K ! f Pink to Ground TK c; X OnK i r
- 75c < ,
lak ? $ 0 ' '.- j r l__Orance Orance to to White Green 750 K ' 12 K ' N i f I Orance to Ground 50t< > 'kf MO E i f White to Green 7 t it dK W I / White to Ground i ic K toK M i / ! Green to Ground M i 7K M0% i f i i i ! i I i l i j ! ! t I i l I ! i l i i 1 i , l i i ! t i I I i l Date Pre-Test IRT: Ih3'9) 9-/ Technician:
- DKM SCHEME #:
Date Post-Test IRT: IIM-% ASSEMBLY #: - Technician: v TW M ITEM: T'cmd CABLE FUNCTION: CONTROL i CABLE TYPE: W-048 l
- IRT = Insulation Resistance Test CABLE SIZE: 5/C #12 AWG k ENERGIZE TO: 1500 VDC !
%i tc-tm i
- d
@Q saw Gnc Ac ede 9 10 Y t7 TEXAS UTillTIES ELECTRIC Pago 1 cf 1 03 CABLE INSULATION RESISTANCE MEASUREMENT This individual cable has CODE been labeled with the letter DATA SHEET shown in the box to the right, to simplify rapid identification. I PROJECT NO: T' M M N' i TEST NO: A C ABLE LENGTH (FT): IR ACCEPTANCE VALUE: 6#d2 Ren els ti lAA. m-CIRCUIT PRE-TEST TESTED POST-TEST IR IR X3 ACCEPTANCE Sn.ituNol_- - ht R T l< P No.1 to No. 3 I '> So R I AEk V No. I to Ground No. 2 to No. 3 i Jo M i URK P i 750 K. I 3K P No. 2 to Ground - t i s K _, l No. 3 to Ground 1 I .4R f l Iw i I.aK V \ \ l ! -, i i i , i ! I i , i i I . I ! i i ! i i i i l 4 i , I ! l ! I t ! i 1 i l ! l f ! I I i ( " } I i i I i i Date Pre-Tes+. IRT: cH - S d'> Technician: c DK+ SCHEME #: T-I Date Post-Test IRT: IT- b g 2 ASSEMBLY #: Technician: v bk ua " ITEM: y ,, , CABLE FUNCTION. vun ...vu it#r,i CABLE TYPE: W-023
- IRT = Insulation Resistance Test CABLE SIZE: 3/C #8 AWG ENERGIZE TO:
6 H37 A%- 1500 VDC s R.+ G7 7g. M At utny @M m W ___ _ - _ _ _ _ _ _ _ _ - _ _ _ _ _ _ _ _ _ _ _ _ - _ _ _ _ _ TEXAS UTILITIES ELECTRIC Pcgo 1 ef 2 et ri CABLE INSULATION RESISTANCE MEASUREMENT This individual cable has CODE DATA SHEET been labeled with the letter o shown in the box to the right, s to simplify rapid l_ dU , identification. I PROJECT NO: 9O@ CABLE LENGTH (FT): #7'2'A" TEST NO: A l. 4 S n./2 IR ACCEPTANCE VALUE: _ R e ele o r e. h no p k.s CIRCUlT PRE-TEST TESTED POST TEST i IR e/ IR xI ACCEPTANCE ,~ L_ Red tctWhite (rot 7J## CIk I Red to Black > I# k ! Red to White (black) I / . E'k 7 >J/ X 'f. SW / l Red to Green >ror a, M ! Red to White (green) Y > fa i< 9, sr 7 ! Red to Orance >soK l_ Red to White (orange) ! 257 x %cxP, r>< r t! Red to Shield ! Jr# R V A' Shield to Ground
- 4. o x V I t o R. 90c Y
[ White f red) to Black 2ro r ! White fred) to White (black) A0k f >ro X - R rA f I White fred) to Green >f0 k 44k . I Y ' White (red) to White (ereen) pror / d ,0 1-5 White (red) to Orange P >rox /0. o w Y ! White (red) to White (orange) i >rvt 9, 5'A M White (red) to Shield f 7.rv t. V, s-j< v ! Black to White (black) 7f#R 4 i Black to Green 9. e A f ' > SOK '/. S/< i Black tn White (creen) f > fo r 9<,o x r Black to Orange ~ > f# it '7,5 h r Black to White (orange) > Jcx i # _ Black to Shield </. c r Y l I# t. .:2, i k y White (black) to Green /EvM //, c A - i r White (black) to White (rreen) ->ro A - l-White (black) tn Oranne /2. s X r -1 White (black) to WhitA(orange) p rP t ArvR / 4.o A ( i ~ //,o A y ; White (black) to Shield ror (,.o n Green to White (rreen) y i Pror //, c A Green to Orange T- i rso R n2. o X r (MORE ON NEXT SHEET) i Date Pre-Test IRT: 1/hh z - Technician: h .r. /#1 SCHEME #: 9 Date Post-Test IRT: ///3/92 " ASSEMBLY #: Technician:/ A,M #4 . ITEM: 3,,d C6"d " ' ~ . CABLE FUNCTION: INSTRUMENT CABLE TYPE: W-063
- IRT = Insulation Resistance Test CABLE SIZE: 4 pr #16 AWG I c. - 11 4 0 5*.* insb Y ENERGIZE TO: 500 VDC SR4 G335s "#"O Tub H 0**C he< 't$]OQ}
' ~ TEXAS UTILITIES ELECTRIC PCgo 2 cf 2 85 CADLE INSULATION RESISTANCE MEASUREMENT This individual cable has CODE been labeled with the letter DATA SHEET shown in the box to the right, N to simpliff rapid d identification. PROJECT NO: %}O #7'3h~ A CABLE LENGTH (FT): TEST NO: IR ACCEPTANCE VALUE: ' ## "4 . - - R e ois m in macomL, CIRCUIT PRE-TEST TESTED POST TEST IR /I IR r/ ACCEPTANCE .,_ Green to White (nrange) P fd K- # / .P. o .s I Green to Shield >r0R CJ x < White (creen) to Orance >r# R /3.c A ' ) White (creen) to White (orancel > ro x / 2. ( x <- ~ White (zreen) to Shield >rvR 6. .f 4 - Orance to White (orance) > re x /2 o A f ; Orance to Shield >ra k i t, sk f i White (orange) to Shield A rv R _ f.s x . 1 I ' i j # , i i I I i i i I Date Pre-Test IRT: "Nf ' Technician:__!dJ d/2 SCHEME #: 7' / Date Post-Test IRT: /'in 92- ASSEMBLY #: Technician: DAN - dv1 ITEM: 3" d Ch4 CABLE FUNCTION: INSTRUMENT CABLE TYPE: W-063
- IRT = Insulation Resistance Test CABLE SIZE: 4 pr #16 AWG y c _. ;j y o S m h s f,--J ENERGIZE TO: 500 VDC gy vei n hoh Tu f3.
0 % 0 % 93c4:vi TEXAS UTILITIES ELECTRIC POCO 1Of1 SG CABLE INSULATION RESISTANCE MEASUREMENT This individual cable has CODE DATA SHEET been labeled with the letter shown in the box to the right, E to simplify rapid C L. identification. PROJECT NO: 9 * %7 2i7'2" TEST NO: A CABLE LENGTH (PT): _ IR ACCEPTANCE VALUE: 0 4' "1s2 CIRCUIT kecd tx MA ' I PRE TEST POST TEST TESTED ! IR XR , IR D ACCEPTANCE _BlaitidicL 7MK l1K ! Y t Black to Blue 7 5b K-i Black to White 5 1\k I f 1 75e N '
- l. t K f L_ Black to White / Black i McK '
L Black to Orange iSK V ! Blaci. 0 Green 1 7stK_ -9tc i Y i Mcm %To V L Black to Ground ' tS K ' Red to Blue Mc v McK l.4 K V i Red to White * ? sc K. ! Red to White / Black l 'A K i f i Red to Orance 7 sem 1.4 K ! P 750 K- I.1 K i l Red to Green i > Tc K V I Red to Ground 906 I V Blue to White l ISK 4 47o6 v i 75tk_ 1, 1 k' Blue to White / Black ! 7 st k:. f Blue to Oranee t I . 7 K' I / ! i pm l. 3 e Blue to Green i ! / 29 K. 1 , A /< / Blue to Ground 15K White in White! Black ' > So m l4K I White to Orange \ . S~ k T i 7yem i
- 1. s'K Y '
White to Green i 7 scK. White to Ground ! t sK. I l.3k' r __ White / Black to Orange ! I 1, I k' r i Pso K i 1, R K r White / Black to Green I 7sbK-- i Whito/Blncie tn Ground I l A k' F I WK. I Orange to Green I >%K
- 1. 4 le v i Orance to Ground I i
9 CO P isK i 700 P Green to Ground I ism t I 4 00 r i i Date Pre-Test IRT: 1I-A-9 L Technician: 63 bKM SCHEME #: i'/ Date Post Test IRT: II"b O. ASSEMBLY #: - Technician: & " hku ITEM: I ,, G C** d - CABLE FUNCTION: CONTROL ! CABLE TYPE: W-047 h
- IRT = Insulation Resistance Test CABLE SIZE: 7/C #12 AWG MM m e,t T C. - lI 37 ENFRGIZE TO: 1500 VDC btrt h. e sR* G771 0,e o., h co 0 v q
PCgo 1 Cf 1 87 TEXAS UTILITIES ELECTRIC CABLE INSULATIOil RESISTANCE MEASUREMENT This individual cable has CODE DATA SHEET been labeled with the letter shown in the box to the right, to simplify rapid p identiGeatiou. PROJECT NO: % M CABLE LENGTH (FT): " ' ' C/l " TEST NO: A 2 1R ACCEPTANCE VALUE: "O '" 'l 1 1. e aA s t' W V M S1-C1RCU1T ' PRE TEST l TESTED IR ^3 l POST TEST IR X3 ACCEPTANCE l .. Black .tuRed 7' i c n Black to Blue '6tl6 /SCO Y 7MK ! Black to White N 11Co Y >TCK i I4to T t Black to White / Black i > s c K. Black to Orange i 14co V a >5CK .II00 t Black to Green - > se t '. L Yce P V . Black to Ground ' RK _ Red to B!ue foo V 7 9. K igna y Jf_d to_ White 7K MCO ' Red to White / Black Y 7 5C K I 6,6C o Red to Orange '56
- P Red to Green i3eo Y 75L K F50
_ Red to Ground ' Y _ Blue to White (k. i 700 f ,_ Blue to White / Black >$tK aiee / i 7 50 K i 1 er oo Y ! Blue to Orance i >scK i i Blue to Green i i bod f , > TE K i 4 co t Blue to Ground i 2r K r White tn Whitn/Blnek ' 'l 4 co y > SC K . 9l'0C i White to Orange ' P > R ' K. ! bCO T I White to Green f 7 5CK_ I I White to Ground LADO P i I 3c K. ! /000 r i _ White / Black to Ornnae i Mc K _ i i White / Black to Green I600 r i 2 50 K. I i h co r WhitolBlack tn Ground i 4" K I i Orange to Green ilco y' ' ,__Orance to Ground I >Mr.K I Te4sm r ! i Ac K i i>SD r ' ' _ Green to Ground I Y K_ i 1 I a10 ' i i Date Pre Test IRT: h h h e n p.1th h [ 97 Date Pr t Te AS IBL Technician *' ** u h t"~ ITEM. 3,, g g owcz, CABLE FUNCTION: CONTROL CABLE TYPE: W-047
- IRT = Insulation Resistance Test CABLE SIZE: 7/C #12 AWG ENERGIZE TO: 1500 VDC T.C - (13 7
%w%g 670IVj 0 g M %t SE TEXAS UTILITIES ELECTRIC O 1 Cf 1 CABLE INSULATION RESISTANCE MEASUREMENT T d ual abl has CODE el DATA SHEET shown in the box to the right, p to shnplify rapid 9 identification. PROJECT NO: $ D LU CABLE LENGTH (PT): * ' " '/2 " TEST NO: A IR ACCEPTANCE VALUE: 2./r M R cM e cu e 'n i Mm ob e CIRCUIT PRE TEST POST TEST TESTED IR ACCEPTANCE x /- . _ IR x. l x 1 Islack to 1%k dif k 40,c A T L_ Black to Orance Pro / 6,e K l V Black to White > re < /a , c x I V i Black to Green >rdK a :2, o x v i Black to Ground .PO K / /, o A- r Pink to Orance i > rot S/, o A i v Pink to White > to k / y,OA i r Pink to Green > E0 /< JJ O # i r i Pink to Ground ! In /S c A r i Orance to White I > Sa t ! 4 /,e R r ! Orance to Green ! > ra ( #'#,c e < ! Orance to Ground i reK /% e N < White to Green ! > J/ A 30,0 N i < White to Ground ! r0R l /Wo A ! V "'- Green to Ground I fot 4/, c X l r - i + ers ma t i Date Pre-Test IRT: "#/' ' Technician: B " ' d v.2 SCHEME #: 9 ~/ Date Post Test IRT: ah/n V ASSEMBLY #: ITEM: % ,'d Co^d Technician: 6 A " AJ12 CABLE FUNCTION: INSTRUMENT CABLE TYPE: W 071
- IRT = Insulation Resistance Test CABLE SIZE: 5/C #16 AWG yc _ ;jyo b e. I n sbv.+ f ENERGIZE TO: 500 VDC (L%ed, k e both 5 R 9 G33ss rs OnDJc99427
83 Pago i cf 1 TEXAS UTILITIES ELECTRIC OABLE INSULATION RESISTANCE MEASUREMENT be n ODE be witfi ele $r DATA SHEET shown in the box to the right, y to sitnplify rapid n , identification. PROJECT NO: %3O CABLE LENGTH (PT): " 7 ' " '#8 TEST NO: A IR ACCEPTANCE VALUE: 2'"""2 _ hAc tk lk n- ! CIRCUIT ! PRE-TEST POST. TEST I TESTED I IR X3 IR Xg _ ACCEPTANCE ! No.1 tn No. 2 ' / SC K i '7 K V i No. i to No 3 7 ToIs I 9K P 1 No. I to Ground ' Sc R i
- 4. A K r i No. 2 to No. 3 '
Psc/t i CK r L No. 2 to Ground t K. ' 3,. r k f No. 3 to Ground >t r_ 3SM r 1 6 1 4 l i I k I \ l i 4 I i : i ~ l l < i ! l i ; I I i , { i l i i , Date Pre Test IRT: 11
- YD Technician: u D k n) SCHEME #: 7"/
Date Post Test IRT: t l4A -b ASSEMBLY #: - Technician: cA bye ITEM: _3 ,, # c* *", ' CABLE FUNCTION: N T R O L Prv K /, CABLE TYPE: W 020
- IRT = Insulation Resistance Test CABLE SIZE: 3/C #6 AWG ENERGIZE TO: 1500 VDC T.C.-\\5*I %
e- G:772 -m mrn; Acad ww/ _. _-_-___ _-_- - -- _ _- -____-_-__ . 00 TEXAS UTILITIES ELECTRIC PCg31 Cf 1 CABLE INSULATION RESISTANCE MEASUREMENT This individual cable has _ CODE been labeled with the letter i , OATA SHEET shown in the box to the right, 7 l to simplify rapid U ! identification. ! PROJECT NO: 9 '4 % 7 CABLE LENGTH (PT): 4 4 ' E /2 TEST NO: A IR ACCEPTANCE VALUE: 2 'T S t R exd.s ue ,\ m ,_,k.4 C1RCU1T PRE-TEST PO$T TEST TESTED 1R t/ IR N / ACCEPTANCE 1 Black in Pink 2f#k .# / c A E - w_ Black to Orance 75# K #C. O e v l Black to White >n < /'7,5 N P -; Black to Green /se K 30,o N r Black to Ground zs K /R,o N r 7 l 1 Pink to Orance >J# R ! 3A0 k r < - Pink to White > f0 K I J P,o k r* 1 Pink to Green ?rdM 300x y Pink to Ground M J20. O k P Orance to White AI# X ' 3.dr.c x r ! Orance to Green pr# N 4M o x - Orance to Ground $k JR. o k r White to Green >for 4 5;o r r White to Ground 40K / r,0 # t' i Green to Ground 4rA 30,o A r i i i i i l l t A~ Date Pre-Test IRT: '#/JA Technician: B
- I- ##2 SCHEME #: i~/
Date Post Test IRT: //h/1 o V ASSEMBLY #: Technician: <* nWM 2- ITEM: 3"d Cowa-CABLE FUNCTION: INSTRUMENT CABLE TYPE: W-071
- IRT = Insulation Resistance Test CABLE SIZE: 5/C #16 AWG ENERGlZE TO: 500 VDC
.T C - l 19 0 5=me. W h e t 5 R ti G 33St "" f*
- b. n h sis.
-04chAh @)e4R, _ Pago 1 of 1 N 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, gg - to simplify rapid identification. > k 9 PROJECT NO: 9 4M CABLE LENGTH (FT): " ' ' " "' . TEST NO: A 1R ACCEPTANCE VALUE: z . v/ n 4 , .c Qon d s la ll( .SL __ CIRCUlT i PRE TEST i POST TEST TESTED ! IR X.3 ! IR J3._, ACCEPTA;NCE Nn_1 tn No. 2 ' PSC t PK P No.1 to No. 3 ' ? Tt N 4E Y ! No. I to Grotmd ! t K- '
- 3. 7 R P
! No. 2 to No. 3 ' > Gk 9. K K r i No. 2 to Ground it it S. 5 K f ! No. 3 to Ground 3c K_ 3.f K f I i i l 1 i i ' l I l i ! i I ~ I I I I I i i l i I i I ! I i Date Pre Test IRT: Ii ' S l 1 $/ Technician: %#' DIO% SCHEME #: . Date Post Test IRT: It'. 3 - n ASSEMBLY #: Technician: _* u l'>K M, ITEM: 3 , d CD ^ f
- CABLE FUNCTION. m n m uu R,w(f CABLE TYPE: W 023
- IRT = Insulation Resistance Test CABLE S17,E: 3/C #8 AWG E VERGIZE TO: 1500 VDC L C. - ll3 ') -
bw W ht. W W SR*C-171 _ An0kAnw R E L __ _ __ - _ _ __ _ _ __ _ _ - - _ _ _ _ _ = _ ' ( ( r i, e. ; gg l l l ) , Mqc)e Calcs ,fdeme 9- 1 ' kr, 3/4"p coNau t r - .w. o 71 G %vmler.# Colle %% Y7: : i 2d s" +(Ix20Wh54dlWa" 2,l? ! i y i ~ 3 " , ccaca ) T - .k-o2aj u '- G" + (J xdd") = 41-4E" 2il, j .W-02.5 .k is'-6' +(I x2d 4J4") : i1,- 4'4" 1,41 1 '~~ ~ "- ~ 4 . _M4 7 _f_. _._ ~ 15' -T' t (1.Els'-##d') - 31'- 5f2 " 2.4: 1 ._W _046 I ~ 10'-6" 1 6 x6' lo'd ' 40-4Vi U5 l J -Oro.3._D 15'- G" t.(Ents'-ta%'D - hT-de" l.f. ~ ~'w-Wl .8 '10' '7" +- (h15'-1o'4") . id- 5f2 " 1E t s a 5" p con out7 . .. W -o23_C _. ..___. ._ is _ '-G" + (64 25,-iYds 'l%a- 3" ,& i .._4.--OA7_.E . f5'-# + (6;Os'~2fd 7J7 I .7." ,E ~ ~ L1 - @ l A . - _15'-#1(!!(Ez%f. -292 7h".N I i ' 1 ~ I~ ' ' .+ . . . . . . . . _ , . M 880 PAGE - - n, - n. ABB .. = = ,. i ' 323 Iteport No.12340 94367a Noveriihar 23,1992 Texas Utilities Electric 33,PENDICES l l l l l l 1 l l l f l l l i l Appendix G TABULAR TEST DATA j+* * "o-50 4ATO/ l 324I i i Texas Utilities Electric Scheme 091 November 3,1992 1 i t 1
- 1 Time E119 Std Furnace Avg Ckt Int #1 Ckt Int #2 Ckt Int #3 Ckt Int #4 i (min) (*F) (*F) (Volts) (Volts) (Volts) (Volts)
I l 0 68 69 5.095 4.696 2.149 6.244 i 1 254 148 5.095 4.696 2.148 6.244 l 2 440 570 5.094 4.695 2.148 6.243 i- 3 627 873 5.094 4.695 2.148 6.243 j 4 813 889 5.095 4.695 2.148 6.243 5 1000 830 5.094 4.695 2.148 6.243 i [ 6 1060 812 5.095 4.695 2.148 6.243
- 7 1120 1044 5.094 4.695 2.148 - 0.243 j 8 1180 1267 5.094 4.695 2.148 6.243 j 9 1240 1250 5.094 4.695 2.148 6.243
{ 10 1300 1221 5.095 4.695- 2.148 6.243 i 11 1327 1337 5.095 4.695 2.148 6.243-12 1346 1441 5.095 4.695 2.148 6.243 l 2 13 1364 1393 5.095 4.696 2.148 6.243-14 1380 1322 5,095 4.696 ~ 2.148 6.243 i 15 1395 1306 5.095 4.696 2.148 6.243 l 16 1410 1384 5.095 4.696 2.148 6.243 l 17 1423 1457 5.095 4.695 2.148 6.243 ! 18 1436 1459 5.095 4.695 2.148 6.243 19 1448 1442 5.094 4.695 2.148 6.243 20 1459 1434 5.095 4.695 2.148 6.243 ! 21 1470 1426 5.095 4.695 2.148 6.242 ! 22 1480 1449 '5.094 4.695 2.147 6.242 23 1490 1497 5.094 4.695 2.147 6.242 [ 24 1499 1529 5.094 4.695 2.147 6.242 ! 25 1508 1519 5.094 4.694 2.147 6.242 i 26 1517 1504 5.094 4.694 2.147 6.242 j 27 1525 1487 5.094 4.694 2.147 6.241
- 28 1533 1477 5.094 4.694 2.147 8.241 l 29 1541 1491 5.094 4.695 2.147 6.242, 30 1548 1528 5.094 4.694 2.147 6.242 31 1555 1555 5.095 4.695 2.147 6.242 32 -1562 1581 5.095 4.695 2.147- 6.242 33- '1569 1599 5.095 4.695 2.147 -6.242 34- 1576 1606 35
- 1582 1605 36 1588- 1599 +
37 -1594 1595 38 1600- 1591 39 1606 1587 5,099 4.698 ~ 2.148 6.246 40 1612 1585. 5.097-- 4.697 2.148 6.245 Q}o sg . ' 325 Texas Utilities Electric Scheme 091 November 3,1992 l 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) ; 41 1817 1583 5.097 4.696 2.14/ 6.244 j 42 1622 1585 5.096 4.695 2.147 6.243 i 43 1627 1595 5.096 4.695 2.147 6.242 l 44 1633 1606 5.096 4.695' 2.147 6.242 ) 45 1638 1614 5.096 4.695 2.147 6.242 i 46 1642 1616 5.095 4.695 2.147 6.241 i 47 1647 1620 5.095 4.695 2.146 6.241 { 48 1652 1622 5.096 4.695 2.147 6.242 j' 49 1656 1626 5.095 4.695 2.147 6.241 j 50 1661 1628 5.095- 4.69.4 2.146 6.240 l 51 1665 _ 1636 5.096 4.695 2.146 6.241 1 52 1669 1658 5.096 4.694 2.146 6.242 l 53- 1674 1674 5.096 4.695 2,146 6.242 ; j 54 1678 1688 5.096 4.695 2.146 -6.242 l i 55 1682 1698 5.097 4.695 2.146 6.242 56 1686 1706 5.097 4.695 2.147 6.242 l 5/ 1690 1714 5.097 4.695 2.146 6.242 1 58 1693 1721 5.097 4.695 2.146 6.242 i 59 1697 1727 5.097 4.695 2.146 6.242 l 60 1701 1730 5.096 .4.694 2.146 6.242 j 61 5.096 4.694 2.146 6.242
- - 62 5.096 4.694 2.146 6.241-
! 63 5.096 4,694 2.146 6.241 64 5.097 4.695 2.143 6.244 1 65 -5.097 4.697 2.140 6.245 !; 66 5.096 4.694 2.146 6.243 j 67 5.096 '4.694- 2.148_ 6.242 i' 68 5.096 4.694 2.148 6.242 ; 69 5.096 4.694 2.148 6.242 l 70 5.096 4.694- 2.148 6.242 { 71 5.096 4.695 2.148 6.242' 72 5.096 4.695 2.148 6.242
- 73-5.097 .4.695 2.149 6.242
- 74 5.097. 4.694 2.149 6.243 1 76 5.097 4.694 2.148 6,243 i
Max-(/ , j 326 Texas Utikties Electric Schemo #91 November 3.1992 Time Ckt Int #5 Ckt Int #6 Ckt Int #7 Ckt Int #8 Ckt Int #9 Ckt Int #10 (min) (Volts) (Volts) (Volts) (Volts) (Volts) (Volts) 0 5.537 5.553 5.138 3.597 5.115 3.555 1 5.537 5.553 5.138 3.598 5.115 3.556 2 5.537 5.553 5.138 3.597 5.115 3.556 3 5.537 5.553 5.137 3.597 5.114 3.555 4 5.537 5.553 5.138 3.598 5.115 3.556 5 5.537 5.552 5.137 3.597 5.114 3.555 6 5.537 5.553 5.137 3.597 5.115 3.556 7 5.537 5.552 5.137 3.597 5.114 3.555 8 5.536 5.552 5.137 3.597 5.114 3.555 9 5.536 5.552 5.137 3.5 ~ 7 5.114 3.555 10 5.537 5.552 5.137 3.597 5.114 3.556 11 5.537 5.552 5.137 3.597 5.114 3.555 12 5.537 5.552 5.138 3.597 5.114 3.556 13 5.537 5.552 5.138 3.598 5.114 3.556 14 5.537 5.552 5.138 3.597 5.114 3.556 15 5.537 5.552 5.133 3.598 5.114 3.557 16 5.537 5.552 5.138 3.597 5.114 3.556 17 5.537 5.552 5.138 3.597 5.113 3.556 18 5.537 5.552 5.138 3.597 5.113 3.556 10 5.536 5.552 5.137 3.597 5.113 3.555 20 5.536 5.552 5.137 3.597 5.113 3.556 21 5.536 5.551 5.137 3.597 5.113 3.556 22 5.536 5.551 5.137 3.597 5.113 3.555 23 5.536 5.551 5.137 3.597 5.113 3.f 55 24 5.536 5.551 5.137 3.596 5.113 3.555 25 5.536 5.551 5.137 3.596 5.112 3.555 26 5.535 5.550 5.137 3.596 5.112 3.555 27 5.535 5.550 5.136 3.595 5.112 3.555 28 5.535 5.550 5.137 3.596 5.112 3.555 29 5.535 5.551 5.137 3.596 5.112 3.555 30 5.536 5.551 5.137 3.596 5.112 3.555 31 5.536 6.551 5.137 3.596 5.113 3.555 32 5.536 5.551 5.137 3.596 5.113 3.555 33 5.536 5.550 5.137 3.596 5.112 3.555 34 35 36 37 38 39 5.540 5.555 5.141 3.599 5.116 3.558 40 5.538 5.553 5.140 3.598 5.115 3.557 %) 327 Texas Utilities Electric Schemo 091 November 3,1992 Time Ckt Int #5 Ckt Int #6 Ckt Int #7 Ckt Int #8 Ckt Int #9 Ckt Int #10 (min) (Volts) (Volts) (Volts) (Volts) (Volts) (Volts) 41 5.537 5.551 5.139 3.597 5.114 3.557 42 5.537 5.551 5.138 3.597 5.114 3.557 43 5.536 5.551 5.138 3.597 5.113 3.556 44 5.536 5.550 5.138 3.597 5.113 3.556 45 5.536 5.550 5.138 3.596 5.113 3.556 46 5.535 5.549 5.137 3.595 5.112 3.555 47 5.535 5.549 6.137 3.595 5 .1 F 3 65 48 5.535 5.549 5.138 3.595 5.112 3.556 49 5.535 5.549 5.137 3.595 5.112 3.555 50 5.534 5.549 5.137 3.595 5.112 3.555 51 5.535 5.549 5.137 3.595 5.112 3.555 52 5.535 5.549 5.137 3.595 5.112 3.555 53 5.535 5.549 5.137 3.595 5.112 3.555 54 5.536 5.549 5.138 3.596 5.112 3.556 55 5.536 5.549 5.138 3.597 5.112 3.556 56 5.536 5.550 5.138 3.597 5.112 3.E 56 57 5.536 5.549 5.138 3.596 5.112 3.555 58 5.536 5.549 5.138 3.597 5.112 3.555 59 5.536 5.550 5.137 3.596 5.112 3.555 60 5.536 5.549 5.137 3.596 5.112 3.555 61 5.536 5.549 5.137 3.596 5.112 3.555 62 5.535 5.549 5.137 3.595 5.112 3.555 63 5.535 5.549 5.137 3.595 5.112 3.555 64 5.537 5.547 5.140 3.597 5.110 3.557 65 5.537 5.543 5.142 3.597 5.106 3.558 66 5.536 5.548 5.137 3.596 5.112 3.556 67 5.536 5.551 5.136 3.596 5.114 3.555 ' 68 5.536 5.552 5.13 C- 3.596 5.115 3.555 69 5.536 5.553 5.136 3.597 5.115 3.555 70 5.536 5.552 5.136 3.597 5.115 3.555 71 5.536 5.553 5.136 3.597 5.116 3.555 72 5.536 5.553 5.136 3.596 5.115 3.554 73 5.536 5.553 5.136 3.597 5.115 3.554 74 5.537 5.552 5.136 3.597 5.116 3.555 75 5.536 5.552 5.136 3.597 5.115 3.554 Max t / (/ ___-_ _a ! 398 ' g Texas Utilities Electric Schemo 091 November 3,1992 i 3/4" Conduit 3/4" Condult 3/4" Condult 3/4" Conduit
- i Time Instrument Cable Instrument Cable Steel Average Steel Max j (min) Ave ('F) Max ('F) (*F) (* F) i
! 0 71 72 71 72 ), 1 71 72 71 74 d 2 71 72 71 77 j 3 71 72 71 77
- 4 71 72 71 77 2 5 71 72 71 77
} 6 71 72 72 77 7 71 72 72 76 8 71 72 73 76 ) 9 72- 72 75 76
- 10 72 73 77 79
, 11 73 74 79 82 L 12 74 76 82 85 ]- 13 75 78 85 89 , 14 77 80 88 93 15 84 92 104 114
- 16 86 93 107 117 l 17 87 95 109 120 18 88 97 '112 126 I
19 89 98 116 137 20 I 21 95 105 132 179 22 98 109 145 212 f 23 102 114- 156- 218 24 106 118 178 257 25 110 123 -201 315 26 114' 129 233 403 27 119 134 -289 685 28 123 141 336 926 29 128 148 394 1038 30 134 155 441 1147 31 139 163 480 1248-32 144' 169 519 -1337 33 150 174 550 1366 .34 156 179 570 1380 1 35 161 183 584 1392 36 166. 187 603' 1415- -171 190 610 1392 38- 176 193 602 1333 39 180 196 585 1255 40 -184 199 556 1156 Y O . ~- - -. - _ - _ . ... -_ 7______._..___..__..___.._._..._.___ 4 1 i 329 l Texas Utilities Electric Schemo 091 November 3,1992 I I 3/4" Conduit 3/4" Conduit 3/4" Condult 3/4" Conduit Time Instrument cable Instrument Cable Steel Average Steel Max i-(rnin) Ave (*F) Max (>F) (*F) (* F) - I l 41 188 203 536 1075 42 192 206 515 989 i 43 195 208 497 914 l 44 198 210 479 847 j 45 200 214 465 793 l 46 203 217 453 735 47 POC 221 448 695 ! 48 208 225 442 663 2 49 211 230 440 633 50 213 235 442 616 51 216 240 445 615 52 218 246 441 611 53 221 251 436 587 54 224 256 434 584 55 227 261 430 575 56 230 266 428 584 57 234 271 433 615 58 237 277 434 623 59 241 283 435 631 60 244 290 433 614 61 62 63 64 ! 65 66 67 68 69 70 71-72 73 74 75 Max. 244 290- '610 . '1415 otIr- 'NoggaN$ I .-_a,-,.-,..-..-, - ~ .,., .- - .... - - - ,_ , - -.. -._ ,_. . . = - ._ a I i Texas Utilities Electric Schenee #91 November 3,1992 330 ) l 3" Conduit 3" Condult 3" Conduit 3" Conduit i Time Power Cable Power Cable Control Cable Control Cable ! (min) Ave ('F) Max ('F) Ave (*F) Max ('F) 1 0 72 73 -72 73 1 1 72 73 72 73 ! 2 72 73 72 73 3 72 73 72 73
- 4 72 73 72 73 j 5 72 73 72 73 1 0 79 73 72 73 l 7 72 73 73 74
, 8 72 73 73 75 i 9 72 73 73 76 ! 10 72 73 74 77 ] 11 72 73 74 79 i 12 73 73 75 81 j 13 73 74 75 83 5 14 73 74 76 85 l 15 74 76 81 97 16 74 77 81 99 l 17 74 77 82 101 } 18 75 78 83 102 l 19 75 78 84 104
- l. 20
- 21 76 79 86 111 l 22 76 81 88 116 23 77 82 90 121 24 78 83 92 126
! 25 79 84 '95 '130 -26 80 -86 97 134 27 81- 87 99 -138 28 83 89 101 141 29- 84 91 104 145 30 85 93 106- -148 31 87 94 108- 150 32 88 96- 110 153 33 90 98 113 155-34 91 100 115 158 35' 93 102 118 160 36= 95 105 120 :162-37 96 107 122 165 38 98 109 125 167-39 100' 111 127 168' 40- 102' -113 - 130 .170 F- %s %) _ . . _ _ _ _ . _ _ m________ i 1 331 ' Texas Utilities Electric Scheme #91 November 3,1992 3" Condult 3" Conduit 3" Conduit 3" Condult Time Power Cable Power Cable Control Cable Control cable j (min) Ave (*F) Max ('F) Ave ('F) Max ('F) l d- 41 104 110 .133 172 l 42 106 118 135 173 l 43 108 121 138 175 I 44 110 124 140 176 l j 45 112 127 -143- 179 l
- 46 114 130 146 183 j 47 117 33 146 10'i 48 119 136 151 192 3 49 121 139 154- 190
! 50 123 142 157 201
- 51 126 146 160 206 52 128 149 102 210 53 131 153 165 214 l 54 134 157 168 219 l- 55 136 161 171 223 4
56 139 165 174 228 i- 57 142 169 177 233
- 58 144 173 181 239 i 59 147 177 184 244 60' 150 181 187 250 i 61 62 63 l 64 ,
- 65 4
66 67 i 68 69 70 l 71 72 73 74 75 Max 150 181 ~ 187_- - 250l ?" e %s i 332, - Toxes Utilities Electric Scheme 091 November 3,1992 ! l 3" Conduit 3" Condult 3" Condult 3" Conduit l Time Instrument Cable Instrument Cable Steel Average Steel Max j (min) Ave (*F) Max ('F) ('F) ("F) 0 72 73 71 73 { 1 72 73 72 73 l 2 72 73 72 75 3 72 73 72 74 )- 76 i 4 72 73 73 5 72 73 75 81 6 72 /J 77 80 l ! 7 73 75 79 93 - 8 73 77 83 100 l 9 73 79 87 109 10 74 81 92 121 i 11 75 84 98 133 12 76 87 103 143 j 13 77 90 109 151 ! 14 -78 93 118 172 [ 15 84 105 162 342 1 16 85 107 171 389 I 17 86 109- 181 436 4 18 86 110 192 482 19 87 112 203 525 20 21 91 118 246 698 l
- j. 22 93 122 276 803 l 23 96 126 316 965
! 24 98 130 361 1132 ! 25 101 135- -390 1198 l 26 104 i39 401 1134 _ 4 27 106 143 408 1122- ! 109 147- 429 28 1178 i 29 112 151 473 1237 30 114 154 539- 1390 i , 31' 117~ 158 576- 1480 l 32 119 161 571 '1413 33 122 164 566 1295= 34- 125' 167- 566 '1222 35 127- 171 572i 1193 36- 130- 175- 590 -1190
- 37 -180' 602'
~ 133 1200-
- 135 184 603 1174-39 138 188- 595 1132 ,
-40 141- 193 590 1121 af *,J , , - - , , - .. , - - - - - . - - . . . ...._, - --..-.. , _ ,_.. _. ____, -. .._ _, -._ . .. _ __-..-_ ,._ . ..m,___...j i Toxna Utilities Electric Scheme 091 November 3,1992 3" Condult 3" Conduit 3" Conduit 3" Conduit Time Instrument Cable Instrument Cable Steel Average Steel Max (min) Ave ('F) Max ('F) ('F) ('F) 41 144 197 584 1069 42 143 202 580 1055 43 149 206 566 1006 44 152 211 552 927 45 155 216 540 878 46 158 222 524 828 47 16i P20 504 /69 48 164 233 493 728 49 167 239 481 689 50 170 245 474 659' 51 173 251 468 650 52 176 '257 462 631 53 179 263 452 605 54 182 269 448 598 55 186 276 436 -573 56 189 282 424 547-57- 193 289 417 530 58 197 295 410 520 59 200 302 403- 516 60 204 309 398 516 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 Max: 204 309 603 , -1480 f1.% 4 of :o# ! 334 l Texas Utilities Electric Schemo 091 November 3,1992 i 5" Conduit 5" Conduit 5" Condult 5" Condult Time Power Cable Power Cable control Cable . Control Cable t (min) Ave (*F) Max (*F) Ave ('F) Max (*F)
- l l 0 74 74 73 74
" 1 73 74 73 74 2 74 74 73 74 ; = 3 74 74 74 74 I n 4 74 74 73 74 , j 5 73 74 73 74 i ! f) 73 74 73 74 ! 7 74 74 73 74 : 8 73 74 73- 74 9 73 74 73 74 10 73 74 74 74 11 73 .7 4 - 74 74 ; 12 73 74 74 75 I I 13 73 74 73 75~ 14 74 74 74 70 15 74 75 74 79 i 16 74 75 75 79 17 74 75 75- 80 18 74 75 -75 80 ' 19 74 76 76 81 20 > 21 74 77 77 83 t 22 74 77 77- 84 4 23 75 78 78 86 24 75 79 .79 87 25 75 80 79 89 26 76 81 80 91 27 76 82 81 -93 28 77 83 82 -95
- 29. 77 84 83 .97 i 30 78 85 84 -99 31- 78 '86 C6 .101 32 79 87 87 103 33 80 89 88- 106-34 80 90 ~89 108 .
35 81 -91' 90 -110 36 82 93 -92 113 37 83 94 -94 115 38 83 95 95 117 . i 39 84 97 07 120 40 85 -98 98' 122-i ' (; AdN# i u . _ .. a .___..m..m.____ . . _ _ _ . _ _ _ _ _ . _ _ . . _ . _ . _ _ . _ _ _ _ _ _ _ _ _ _ _ - . . . . _ . _ . . _ _ _ . _ . . i 335. Texas Utilities Electric Scheme #91 November 3,1992 } 5" Conduit 5" Condult 5" Condult 5" Conduit ! Time Power Cable Power Cable control Cable Control Cable ' (min) Ave (*F) Max ('F) Ave (*F) Max ('F)
- 41 86 100 100 124
{ 42 87 101 101 127 43 88- 103 103 -129 ] 44 90 104 105 132 ! 45 91 106 106 134 I 46 92 107 108 137
- 47 '43 100 110 ISO
] 48 94 111 111 142 l 49 95 112 113 145 ! SC 97 114 115- 147 51 98 116 117 150 l 52 99 118 119 153 { 53 101 119 121- 155 64 102 121 123 158 ! 55 103 123 124 161 ; 56 105 125 127 164 57 106 127 .128 167 ; l 58 108 129 131 170 l 59 110 132 133 173 i 60 111 134 135 176 61 ! i 62 63
- 64 i 66 66 i
67 j 68 ! 69 70
- - 71 72 73 74 75-3 Max 111 134 135 176 i
l c : .- . - . - . - . = - - _ _ . - _ . . _ _ - _ - - - i i' Texas Utilities Electric Scheme 091 November 3,1992 336 , i i 5" Conduit 5" Conduit 5" Conduit 5" Conduit l Time Instrument Cable Instrument cable Steel Average Steel Max TC # 1 (min) Ave ('F) Max PF) ('F) ('F) ('F) { ! 0 73 74 72 73 72 I 1 73 74 72 73 72 i 2 73 74 72 73 72 l 3 73 74 72 73 72 l 4 73 74 73 74 72 l 5 73 74 74 78 72 G 73 71 70 F2 /2 ,
- 7 73 74 79 86 72 8 73 79 82 92 72
{ 9 73 74 86 100 72 ! 10 73 75 92 110 72 l 11 73 75 99 147 72 1- 12 74 76 '106 163 72 14 74 77 115 200 72 14 74 78 123 231 73 4 15 7G 83 146 -300 74 16 76 84 149 307 75 17 77 84 152 318 75 18 77 83 156 338 75 19 78 86 162 363 76 20 21 80 89 220 629- 77 22 81 90 262 805 78 23 82 92 295 957 79 24 83 95 326 1022 80 25 84 97 365 1190 82 26 -86 - 99 -402 1271 -83
- 27. 87 101 416- -1286- 85 28 89 104 420 1245~ 86 29 90 106 411 1134 88 30 92 109- 408 1016 89 31 94 111 394 917 91 32 96 114 374 '837 93 33 98 117 351 743 95 34 99 120 340 689 97-35 101 -122 337 663 -99 36 103 125 340 668 101-
-37 105 128 346 701 103 38 -107- 131 -355 <748 .105-33 109 133 365 791 1071 40 111 136__ 370 802 '109 V "6 kuho# 1 1 I J 337 Texas Utilities El6ctric Schemo 091 November 3,1992 l 5" Condult 5" Conduit 5" Condult 5" Conduit Time instrument Cable Instrument Cable Steel Average Steel Max TC # 1 (m!n) Ave ('F) Max ('F) ('F) (*F) (* F) i ) 41 114 139 374 824 til j 42 116 141 378 835 114 l 43 118 144 _ 383 848 116 ! 44 120 147 383 833 119 d 45 122 149 385 810 121
- 46 124 152 388 815 124 j 47 1/0 151 341 "!6 IF7 48 128 157_ 393 801 130 3 49 130 159 397 786 133 50 132 161 400 773 136 f 51 135 -164 399 742 139
, 52 137 166 401 724 142 ) 53- 139 169 402 715 145 1 54 142 172 403 699_ _140 i SS 144 174 405 702 153 ] 56 146 177 400 674 156- , 57 149 180 403 670 160 a 56 151 183 '402 656 164 j 59 154 187 402 643 167 j 60 156 191 401 615 171 61 62 63 64 65 66 67 66 69 70 71 72 l 73 74 75 , Max 156 191 420 12861 171- _oi ?f (,o/ .. -- - - - . _ . . - - - . - _ -- . . - _ - - - - -_ . - .~ - . - i I Texas Utilities Electric Schomo 091 Novomber 3,1992 I 1 i ! Time TC # 2 TC # 3 TC # 4 TC # 5 TC#6 TC # 7 TC # 8 TC # 9 TC # 10 l (mln) (*F) (*F) (*F) (*F) (*F) (*F) (*F) ('F) (*F) I ] 0 72 72 73 73 73 72 72 72 72 1 72 72 73 73 73 72 72 72 72 2 72 72 73 73 73 72 72 72 72 3 72 72 73 73 73 72 72 72 72 .f l 4 72 72 73 73 73 72 72 72 72 ;
- fi 72 72 73 73 73 72 72 72 72 !
j 0 72 7 'i 73 73 73 7P 72 72 72 7 72 72 73 73 73 72 72 72 72 l 8 72 72 73 73 73 72 72 72 72 l 9 72 72 73 73 73 72 72 72 72 i 10 72 72 73 73 73 72 72 72 72 , 11 72 72 73 73 73 72 72 72 72
- 12 72 72 73 73 73 72 72 73 72 13 72 72 73 73 73 72 72 73 72 i 14- 72 73 73 73 73 72 72 74 72 1 15 74 73 74 73 73 73 73 76 73 16 74 74 74 73 73 73 73 76 73
~ 17 74 74 75 7' 73 73 73 73 18 74 74 75 74 74 73 74 -77 74 19 74 74 75 74 74 73 74 77 74 ! 20 . . 21 75 75 76 74 74 74 75 79 74 22 76 76 76 75 75 74- 75 80 75 l 23 77 77 77 75 75 75 76 81 76 24 78 77 77 76 76 76 77 83 77 25 79 78 78 76 76 76 78- 84 78. , 26 80 79 79 77 77 77 '78 86 70 27 81 81 80 77 78 78 80 87 80 , 28 82 82 81 78 79 79 81 89 81 29 63 83 82 79 80 79 82 91 83 30 85 84 82 80 81 80 83 93' 84 31 86 86 84 81 82 81~ =85 94 86 32 87 88 85 82 83 82 -86 '96 87 33 89- 89 86 83 84 83 88 98 89, 34 91 91 87 84 85 84 89 100 90 35 92 93 89 85 87 85 91 102 92 36' 94 95 91- 87 88 87 93 ,1.05 94 37 96 96 92 88 90 88 95 107 96 38 98 98 94- 90 91 89 97. 109 98 I 39 99 100 96 92 93 91- 99 111 99 40 101- 102 98 93 94' 92 101 113- 101 I L .k [ i _ - . ._ . _ __ f Texas Utilities Electric Schemo 091 November 3,1992 339 Timo TC # 2 TC # 3 TC # 4 TC # 5 TC # 6 TC # 7 TC # 8 TC # 9 TC # 10 (min) ('F) ('F) (' F) ('F) ( F) ( F) ('F) ("F) ('F) 41 103 104 100 95 96 93 103 116 103 42 105 106 101 97 97 95 105 118 105 43 107 108 103 99 99 96 107 121 107 44 110 111 105 101 101 98 109 124 109 45 112 113 107 103 103 99 111 127 111 46 114 115 109 105 104 101 113 130 113 47 116 1 1 ~' 11P 07 100 102 1 .', 193 1 1 !. 48 119 119 114 109 108 104 117 136 118 49 121 122 116 111 110 106 120 139 120 50 124 124 118 113 112 107 122 142 122 l 51 127 126 120 116 114 109 125 146 124 52 130 129 122 118 116 ill 127 149 126 53 133 131 125 120 118 113 130 153 129 1 54 136 134 127 122 120 115 132 157 131 55 139 137 129 124 122 117 136 161 134 56 142 139 132 126 124 119 139 165 136 57 145 142 134 128 126 121 142 169 139 58 149 145 137 131 129 124 145 173 141 59 152 148 139 133 131 126 148 177 144 60 155 151 142 135 133 128 151 181 146 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 Max 155 1!i1 142 135 133 128 151 181 146 #0 +0" %J i I p < 4 Tens Utilities Electric Scheme #91 November 3,1992 s l l ) Time TC # 11 TC # 12 TC # 13 TC # 14 TC#15 TC # 16 TC # 17 TC # 18 l (min) (*F) (*F) (* F) ("F) (*F) (*F) (*F) (*F) ! 0 72 72 72 72 72 73 73 73 l 1 72 72 72 72 72 73 73 73 l 2 72 72 72 72 72 72 73 73 ! 3 72 72 72 72 72 72 73 73 4 4 72 72 72 72 72 72 73 73 ] 6 72 72 72 72 72 73 73 73 i 6 72 72 72 72 72 73 73 73 7 72 72 72 72 73 72 73 73 8 72 72 72 72 73 73 73 73 i 9 72 72 72 72 74 73 73 73 I 10 72 72 72 73 75 73 74 73 l 11 72 -72 72 73 76 73 74 73 l 12 72 72 -72 73 78 73- 7_5 73 ! 13 72 72 72 74 80 74 75 73 I 14 72 72 72 74 81 74 76 73 l 15 73 73 74 78 90 78 79 74 l 16 73 73 74 78 91 78 79 74 l 17 73 73 74 79 92 7 9 -- 80 74 i 18 73 73 74 79 93 79 80 74 l 19 73 73 74 80 94 80 81- 74-
- 20 21 74 74 75- 82 99 82 82 75 22 74 75 76 83 101 84 84 75 23 75 75 77 85 104 85 85 76 24 76 76 78 87 107 87 86 76 25 77 77 79 89 111 89 88 77 26 -78 78 80 90 113 91- 89 78 27- 79 79 81 92 116 93 91 79 28 80 80 82 94 119 95 93 80 29- 81 82 83 -97 122: 97 94 81 30 83 83 85 99 124 99 96 82 31 '84 -85 -86 101 127 102 98 83 32 85 -.86 88 103 130 104 101 85 33 87 88- 89- 105 133 106 103 86 34 88 89 90 107- -137 109 106 87
-35 90 91.- 92- 110 140 111 108 89 36 92 '93 94 112 144 113 111- 91' 37 93- 94' 95 .115 147 116 113 93 38 95 .96 97 117- 151- '118- 116- 95 39 97 98 99- 120 154 120 --118 97-40 -99 100 - 101 122 -158- 123 121 '99 f %) > 341 : Texas Utilities El2ctric Schemo 091 November 3,1992 . l f Time TC # 11 TC # 12 TC # 13 TC # 14 TC # 15 TC # 16 TC # 17 TC # 18 (min) ('F) ('F) ('F) (*F)- (*F) ("F) (*F) ('F) 41 100~ 102 103 125 162 125 124 102 ) 42 102 104 105 127 166- 128 126 104 43 104 105 107 130 170 130 129 106 . 44 106 107 108 133 174 133 131 108 l 4 45 108 109 111 136 179 135 131 111 , 46 110 111 113 138 103 138 137 113 47 112 113 115 141 187 141 139 115 48 114 115 117 144 192 143 142 117 49 116 118 119 148 196 146 145 120 50 118 120 122 151 201 149 148 122 51 120 122 124 154 206 152 150 124 52 121 125 126 157 210 155 153 126 53 123 127 129 161 214 158 156 128 54 125 129 131 164 219 161 159 130 55 127 132- 134- 168 223 -104 162 132 56 130 134 136 171 227 168 165 134 57 132 136 139 174 232 171 168 136 58 134 138 142 178 236 174 171 138 59 136 140 144 181 240 178 174 140 - 60 'i38 142 147 185 245 181- 177 143 -61 , 62 63 64 , 65 -66 67 68-69 70 71 1 72 73 74 -75 Max: 138 -1_42 147 185 245- 181 177- '_143 - ;nh '% %/ I
- Texas Utilities Electric Schemo 091 November 3,1992 3 p"
! I j ! l Time TC # 19 TC # 20 TC # 21 TC # 22 TC # 23 TC # 24 TC # 25 TC # 26 , l (min) (* F) (*F) (*F) (*F) (*F) (*F) (*F) (* F) i , 0 73' 72 72 72 72 72 72 1 73 72 72 72 72 72 72 72 2 73 72 72 72 72 72 72 71 ; 3 72 72 72 72 72 72 72 72 i 4 73 72 72 72 72 72 72 72 i 5 73 72 72 72 72 72 72 72 > i 0 73 /3 72 72 72 72 72 72 i 7 73 74 72 73 V2 72 72 72 i 8 73 75 73 73 72 72 72 72- ! 9 73 -76 73 74 73 72 72 73 10 73 77 74 75 73 73 73 73 ! 11 74 79 74 77 74 73 73 74, 12 74 75 78 74 73 I l- 81 74 74 13 75 83 76 60 75 74 74 75 14 76 85 77 82 77 74 75 76 15 80 P4 81 90 83 78 81 80 16 81 96 82 91 84 79 81 80-17 81 97 83 92 65 79 82 81 18 82 98 83 93 86 80 83 32 19 83 99 84 94 88 81 84 82 20 l 21 85 104 87 99. 92- 84 88 85 22 87 107 89 102 95 86 91- 87 23 89 111- 90 105 99 -88 94- 88 24 91 114 92 108 102 90 97 90 25 94 117 95 111 105 93 100 92 26 96 120 98 113 108 95 103 94 27 98 123 101 -116 - 111 98 106 96 -28 101 126 104 119 114 100 109 98
- 29. 103 129 107 122 117 102 112 100 30 106 131 109 125 119 105- 114 102 31- 108 '134 .112~ 128 122 107 117.. 104 32 -111 136- 114 131 124 109 119 106 33 -113 139 116 134 127 112 122 108 34 116 142 118 137 129 114 125 111 35 119 144 121 140 .131 116 127 113.
36 121: 147 123- 144 134 119 129 115 37 124- 150' 126 .147 -135. 121- 131L 117 -l 38 -127< -153- 128- .150 138 123 -134 120 i -39 130- 155 131 154' 140 125- 136 122 l '40 133 158 134 158 142 -127- 138 124 '{ $?% 1 3 Ado - -.. .=,--- n .. . - - . ~ - .a 343 Texas Utilities Electric Schemo 091 November 3,1992 Time TC # 19 TC # 20 TC # 21 TC # 22 TC # 23 TC # 24 TC # 25 TC # 26 (min) (*F) (*F) ('F) ('F) (*F) -(*F) -(*F) -('F) 41 135 161 136 162 144 129 140 126 42 138 165 139 165 146 131 142 129 43 140 168 142- 169 147 133 144 132 44 143 171 145 174 149. 135 146 135 45 146 174 148 178 151 137 148 137 46 148 178 151- 182 153 139 149 140 4/ 151 182 155 186 155 111 1M 143 48 154 185 158 191 157 143 153 146 49 157 189 161 195 159 144 155 148 50 159 193 165 200 161 146 157 151 51 162 197 168 205 163 148 160 154 52 165 201 172 209 165 149 162 157 53 167 205 176 214 168 151: -104 -155 54 170 210 179 219 170 153 167 153 55 173 214 183 223 173 155 169 155 56 176 218 187 228- 175- 157-- 172 156 57 179 '23 191 233 178 158 175 157 58 182 227 -195 239 181 160 178 159 59 185 231 199 244 184 162 181 162 60 188 236 204 250 188 165 185 169 61 62 63 64 , 65-66 67 68 69 70 71 72 73 74 75 Max 188 236 204 250 188 165- 185 169 n# %, %,) I 344 Texas Utilities Electric Scheme 091 November 3,1992 Time TC # 27 TC # 28 TC # 29 TC # 30 TC # 31 TC # 32 TC # 33 TC # 34 (min) (*F) ('F) ('F) ("F) ('F) ('F) ('F) (* F) 0 72- 72 72 73 73 73 72 72 1 72 72 72 73 73 73 72 72 2 72 72 72 73 73 73 72 72 3 72 72 72 73 73 73 72 72 4 72 72 72 73 73 72 72 72 5 72 72 72 73 73 72 72 72 6 72 72 72 73 73 73 72 72 , 7 72 72 72 73 73 73 72 72 8 72 72 72 73 73 73 72 73 9 73 73 73 73 73 73 73 74 10 73 73 73 74 73 73 73 75 11 73 74 -73 74 73 73 73 76 12 73 74 73 75 73 74 74- 77-13 74 75- 74 75 73 74 75 78 14 75 76 74 76 74 75 75 80 15 78 81 77 79- 75 78 79 87 16 79 -82 77 -80 76- 79 80- 88 17 80 82 78 80 76 80 80 89 18 80 83 78 80 76 80 81 90 19 81 84 78 81 77 81 82 91 20 25 83 87 81- 83 78 84 84 95 22 85 89 82 84 79 85 86 97 23 87 91 84 85 80 87 87 100 24 88 93 85 87 81 89 89 103 25 90 96 87 88 83 91- 91 106 26 92 98 89 9,0 .84 94 93 109 27 94 101 92- 91 86- 96' 95 - 115 28 97 103 94 93 88 98 97 .122 29 98 106 96- 95 89 100 99 127 30 101 108 99 97 91 103 101 131 31 103 111 102 99 93 105- 103 134 .32. 105 113 104- 101 '95 107 106 .136 33 107 116 107 104 97 110- - 108 139 34 110 119 .110 107 100 112 109 141 35 112 121 112 110 102. 115 112 143 ~36 114 124 115 113 104 -117 , 114 145 37 -117 127 117- 115 -107 120 116 148 38 119 130 120 118 110 122 - 118- 150- -39 122- 133 122 121 113 125. 120 - 153 40- 124 136 125 123 - 115. 128 122 - 155 Of %J es-W 7-e++waiS-'m=9y ev~ f ^- d -*-y*--,--e.et ?g g- *i-pgyya r- p pi mwug ?ew gg 3 r gy mew-g% rye wy- 9t--T-fy* . , - , . . . .. .. - . . - . - , . . - - . - . . ~ - . - . - . - - _ _. _ Texas Utilities Electric Scheme 09-1 November 3,1992
- Time TC # 27 TC # 28 TC # 29 TC # 30 TC # 31 TC #. 32 - TC # 33 TC # 34 (min) (*F) (*F) ('F). (*F) ('F) (* F) ('F) (*F) ;
, 41 127' 139 127 126 118 130 124 158 ! 42 130 143 129 129 120 133 126- 161 ! 43 133 .146 132 131 123 135 129 164 i 44 136 150 134 134 126 138 131 166 l 45 139 153 137 137 128 140 134 170 ' [ 46 142 157 139 140 130 142 136 173 47 145 161 142 142 133 145- 139 176 48 148 165 144 145 135 147 142 179
- 49 152 169 147 148 138 .149 -145 '483
! 50 155 173 150 151 140 151 148 .186 51 159 178 152 153 142 154 151 190-l 52 1C2 182 155 156 145 157 154- 194 } 53 166 187 158 159 .148 159 157 198. 54 170 191 161 162 150 162- 160 201 55 173 195 164 165 152: 165 164 '205- ! 56 177 200 168 168 155 167 167 209:
- 57 181 204 171 '171 107 170 171 213 j 58 185 209 174 174 160 173 174 217--
I 59 188 213 177 177 163 176 178 221 j 60 192 218 181 180 165 179- 182 225 [ 61 I 62 63 64 j- 65 66 L 67 ! 68-69 j 70
- 71 72
} '73 4 74 l 75 Max- 192 218 '181 180' 165~ 179 182 '225 [ j i g, a Ojpgjo . 4 k Texas Utilities Electric Scheme .#91 November 3,1992 Timo TC # 35 TC # 36 TC # 37 TC # 38 TC # 39 TC # 40 TC # 41 TC # 42 (min) (*F) ('F) .(*F) (*F) ('F) (*F) (*F) -(*F)- 0 72' 72 72 72 71 70 71 71 i 1 71 72 72 72 71- 70 71 71 2 72 72 72 72 72 70 71 -71 3 72 72 72 72 .71 70 71 71 4 72 72 72. 72 72 70 71 71 3 5- 72 72 72 72 72 70 71 71 i '6 73 72 72 72 '73 70 71 71 1 7 74 72 72 72 75 70 71 71 } 8 76 72 72- 72 .77 71 71 72 l 9 77. 72 72 72 79 71 71 72
- _ _10 80 72 73 73 81 .72 72 73 l 11 82 73 73 73 84 73 72 74 j 12 85 73 74 .74 87 -74 73 75 j 13 88 74 74 75 90 75 75 76-1 14 91 75 75 .77 93- 7 7-- 76- 78
- 15-- 103 80 80 84 105 86 85 87 l 16 105 81 .81 85 107 87 8 6 -- 88 17__ 107 82 82 -86 109 89 87 89 i 18' 108- 83 83 87 110 90 89 91 l 19 110 84 84 89 112- 92 90 92 i 20 j' 21 116 88 88 93 118 97 96 97
! 22 120 90 91 97 122 101- 100- -101 [' a3 124 93 94- -100 126 105~ 104- 104
- 24 128 96 96 103 130 , 109 108 108 25 133 99 99 107. 135- 113. . 113- 113-f- 26- - 137- 103 102. 111 139- 118 118 : 117 27- 140 106 105-- 114 143 124 123 122 I--
28 143 109 108 117' 147 129 128- 128 j- l2 9' 146 112 111 120 151 -135- .134 -133 I 30 1149 115 114- -123- 154 . 141 140- -139
- 31 152 - 118- '117- 126 158' 147 147 145-
{ 32 . 155 121 119 129 -16i 154 154- -153
- - 33- - 159 124 122 - 132- -164' . 160- .- 161 1161-
.- 34 _163 127: -12 5 ~- . 135- 167 - 166 167 169- ): 35- :167 129 127 137. 171 172 172. 175' != .36 171 132 130 140 175 - 177~ - 177- 180- [ 37 . 175. 180 134 132 142 :180 - 182- '181- 183 -38 137 '135 - 145 184 187 186- - 187-
- 39-
- 184 - 139 137- 147- 188: : 191 190 190 40 190 142~ 139 149 193 195 193 - 192
, .o 1 %f .,, y ,- .r,_',,. -- .k m.,.-.~.4- ,,,. - ,.-., ,..,,.- ,-,-o ,-,, -...m.+,. , r ,# v,,,_.~_.... - y -m.,e mw-..,..
- i 347 ,
Texas Utilities Electric Scheme 091 November 3,1992 Time TC # 35 - TC # 36 . TC # 37 TC # 38 TC # 39 TC # 40 TC # 41 TC # 42 i- (min) (*F) (* F) (*F) (*F) (* F) (*F) (* F) (*F) > i . . 41 195' 144 141 151 197- 199 197 195- ! 42 200 147 143 153 202 202 200 198 ! 43 205 149 145 155 206 205 203 200 i 44 211 151 147 157 211 207' 206 202 i 45 216- 153 149 159 216 210 209 204
- 46 222 156 151 161 221 213 212 206 47 228 158- 153 163 226 216 215 208 48 233 160 154 165 231 220 219 210 49 239 162 156 -167 235- 223 222 212 i 50 245 165 158 168 240 226 226 214-l 51 251 167 159 170 244 230 .230 216 52 257 170 161 172 249 235 235 218 53 263 '172 163 173 253 239- 240 220 54 269 174- 164 175 255 244 245 223 55 276 177 166 177- 258 249 249 226
- 56 282 180 168 179 262 254 254 229
^ 57 289 183 170 181 270 258 -259 232 58 295 186 172- 184 279- 263- 264 235
- 59 302 189 174 186 288 268 270 239 60 309 192 176 189 294- 274' 277' 243 61 6 2 --
63 64 65 66 67 68 69 70 71 72 73 74 75 > Max 309 192 176 189 294 -274 277 243 .j t ? ATO Texas Utilities Electric Scheme #91 November 3,1992 .348-Time TC # 43 TC # 44 TC # 45 TC # 46 TC # 47 TC # 48 TC # 49 TC # 50 (min) (*F) (*F) ('F) -(*F) (*F) (*F) (*F) (*F) 0 72 71 71 71 71 71 71 1 71 72 71 71 71 71 71 71-2 71 72 71 71 71 71 71 71 3 71 72 71 71 71 7-1 71 71 4 71 72 71 71 71 71 71 71 5 71 72 71 71 71 71 71 71 6 71 71 71 71 71 7* 71 71 7 72 72 72 72 71 7 71 -71 8 72 72 72 71 71 71 71 71 9 72 72 72 72 71 71 71 71 10 73 72 72 72 72 72 72 72 11 74 72- 73 73 72 73 73 72 11 75 72- 74 74 73 74 74 73 13 76 73 75 75 74 75 76 74' 14 78 74 77 76 75- 77 78 76 15 86 77 85 84 81 86 87 83 16 88 78 86 86 82 88 89 84 17 89 79 88 87 83- 89 90 85 18 90 79 -89 88 84 90 92 86 19 92 80 - 91 90 85 92 93 87 20 21 97- 83 96 95 89 98 99 92 22 100 85 100 99 92 102 103 96 23 104 88 105 103 95 106 107- 29 24 108 91 109 107 98 111 112' 103-25 112 94 114 111 102 115 116 107 26 116 97 118 116 -105 120' 121 -111 27 120 101 123' 121 -109 125 126 115 28 125 105 .128 126 114 131 131 119 _ 29- 129 109 133 131 118 136 136 123-30 '133 113 139 136 122 142 142 127-31 138 118- 145 142 127 147 148 132 32 143- 123 151 147- 133- 153 154 136-33 147 129 157 153 139 159- ~160 141 34 152 135 163 159 :145 165 166 146 35- 157 142. -169 164~ 151 170 172 151 36 =162 148 174- .170 -158 175 177 157 37 166 153 178 -174 164 180- :182- 162-- 38 171 159-- :183 -.17 9 '- 169 -185 187 168-39 176 165 186 -184 174 189 191 175 40 180 170 190 187 179 193 195 180 t.f *o %owof Texas Utilities Electric Scheme 091 November 3,1992 Time TC # 43 TC # 44 TC # 45 TC # 46 TC # 47 TC # 48 TC#40 TC # 50 (min) (*F) (*F) (*F) (*F) -(*F) (*F) (*F) (* F) - 41 184' 175 193 191 183 196 198 185 42 188 179 196 195 187 199 202 189 43 191 183 198 198 191 202 205 193 44 195 186 201 201 194 205-- 207 197 45 198 189 203 206 197 208 210 200-46 201 191 206 207 200 210 212 202 47 205 194 208 210 202 213 216 205 48 208 196 210 214 204 215 218 207-- 49 211 198 212 216 206- 218 220 209 50 214 200 215 220 208 220 223 210 51 217- 202 217 223 210 223- 227 212 52 221 204 220 227 212 227-- 231 214-53 224 206 223 231 214 230- 235 215 54 228- 207 226 236- 216 234 039 217 55 232 208 230 240- 217- 238 244 218 56 235 210 233 244 219 242 248 220 57 240 211 237 249: 222 247 252 222-58- 243 212- 240 253 224- 251 256 223 59, 247 214 244 257 227 255 261 226 60 251 216 248 262 230 260 266 228 61-62 63 64 65 66-67 68 69 ~7 0 71 72 73 74 75 Max 251 216 248: -'262 ;230' 260 266 228 ., Q %l/ Texas Utilities Electric Scheme 091 November 3,1992 Time TC # 51 TC # 52 TC # 53 TC # 54 TC # 55 TC # 56 TC # 57 TC # 58 (min) (*F) ('F) (*F) ('F) (*F) (* F) (*F) (*F) 0 71' 71 71 72 74 74 74 74 1 71 71 71 72 74 74 74 74 2 71 71 71 72 74 74 74 74 3 71 71 71 72 74 74 74 74 4 71 71 71 72 74 74 74 74 5 71 71 71 72 74 74 74 74 6 71 71 71 72 74 74 74 74 7 71 71 71 72 73 73 74 74 8 72 72 71 72 74 74 74 74 9 72 72 71 72 74 74 74 74 10 73 72 72 73 74 74 74 74 11 74 73 72 73 73 73 74 74 12 76 73 72 73 73 73 74 74 13 78 75 72 74 74 74 74 74 14 80 76 73 75 74 74 74 74 15 90 83 76 79 74 74 74 74 16 91 84 76 80 74 74 74 74 17 93 85 77 80 74 74 74 74 18 94 87 78 81 74 74 74 74 19 96 88 78 82 74 74 74 74 20 21 102 93 81 85 74 74 74 74 22 106 96 83 87 74 74 74 74 23 110 101 85 89 74 75 74 74 24 115 106 87 91 74 75 74 74 25 119 111 90 94 74 75 75 74 26 124 117 92 96 75 76 75 75 27 129 122 95 99 75 76 75 75 28 134 128 98 102 75 76 75 75 29 139 134 101 105 76 77 76 75 30 144 139 104 108 76 77 76 75 31 149 145 107 111 76 78 76 75 32 155 '150 111 115 77 79 75 75 33 160 156 115 119 77 79 77 76 34 165 161 119 123 78 80 77 76 35 170 166 123 127 78 81 78 76 36 175 171 127 131 79 81 79 77 37 180 176 132 135 80 83 79 77 38 184 180 136 139 80 83 80 78 39 189 183 140 143 81 84 81 78 40 193 186 145 147 82 85 81 79 %) ~_. _. __ _. .. _ _ . . . _ . _._ _ __. _ _ . _ _ . . . . _ - _ . . . _ _ _ _ _ . . _ . _ _ __ j i i 331 Texas Utilities Electric Scheme 091. November 3,1992 J Time TC # 51 TC # 52 TC # 53 TC # 54 TC # 55 TC # 56 TC # 57 TC # 58
- -(min) (*F) (*F) (*F) (*F) (*F). (* F) ('F) ('F) j- 41 196- 190 149-- 151 83 86 82 80 42 200 193 153 154 84 88 183 80 43 203 196 157 103 85 89 84 81
, 44 206 198 161 162 86 90 85 -81 j 45 208 200 165 165 87 91 86 82
- 46 210 202 168 168 88 92 87 83 j 47 213 204 172- 171 89 93 88 84 j 48 215 206- 175 174 90 95 89 84 49 217 209 177 177 92 96 90 85 1
50 219 210 180 179 93 98 91 86 } 51 221 211 181 182- 94 99 92 87 [ 52 223 211 183 .186 96. 101 94 88 53 -226 211 185 189 97 102 95 89 ( 54 229 212 187 193 99 104 96 90' 55 232 213 189 195 100 106 97 91 56 235 213 192 197 102 -107 99 92' 57 238 214 194 203 103 109 100' -94 }.
- 58 242 215 196 208 104 111 101 94 j 59 245 216' 198 209. 106. 113 103 96
! 60 248 218 200 210 108 114 104 97 ! 61 i 62 1 63 p 64 65 l 66
- 67 68 69'
- 70 71 j 72
! 73 , 74 i 75-2 Max 248 218 200 210 108- 114 104 ' 9 7. . 1 O : o;go[ . . - . . - . . .. - .=. . .- 4 Texas Utilities Electric Scheme #91 November 3,1992 352 ) ! i Time TC # 59 TC # 60 TC # 61 TC # 62 TC # 63 TC # 64 TC # 65 TC # 66 j (min) ('F) (*F) ('F) (* F) ( F) ('F) ('F) ('F) - f 0 74' 74 74 74 74 74 74 73-j 1 74 74 73 73 73 73 73 72 2 74 74 74 74 74 74 74 74 l 3 74 74 74 74 74- 74 74. 74 ,
- 4 74 74 74 73 73 73 73 73 1 5 74 74 73 73 73 73 73. 73 6 74 74 73 73 73 73 73 72 7 74 74 74 74 74 74 74 73
! 8 74 74 73 73 73 73 72 72 3 9 74 74 73 73 73 73 73 73 i j 10 74 74 73 73 73 73 73 73 ! 11 74 74 73 73 73 73 73 72 l' 12 74 74 73 73 73 73 72 72 4 13 74 74 73 73 73 73 73 73
- 14 74 74 73 73 73 73 73 73 4
15 74 74 73 73 73 73 73 -73 i 16 74 74 74 74 74 74- 74 74 f 17 74 74 74 74 74 74- 74 74 I 18 74 74 73 73 73 - 74 73 73-19 74 74 73 73 73 74 73' -74. . 20 j 21 74 75 74 74 74 75 74 75 , l 22 74 74 73 73 73 75 74 74 I 23 74 75 74 73 74 75 74 75 ) 24 74 75 74 74 74 76 75- 76 , 25 75 75 74 74 75 7 7-- 75. 77 l 26 75 75 74 74 75 77 75 77 27 75 75 75 75- 76 78 76- 78-5 28 -75 75 75 74 76 78 76- 78
- 29. 75 76 76 76 77 -80 77 79 30 75 76- 76 76 76- 80 77 ~80
- _ 31 75 76 76 77 78 81 79 81 i 32 75- 76 77 77 78 82 79 82 i 33 76~ 77' 77 -77 78 83 80 83 j 34
- 76 77 78 78' 79 84 80 84 35 76 77 78 78- 80 85 81 84 36 76 78 79 79 81- 8 6-. '82 86'
. 37 77 78 79 80 82 87 83 87 38 77 79 80 83- 88 84 -88 1: 39 77 -79 81 182 84 90' 86 90 40 78 80 82 -83 85 -91 86- 90 of %/ 1 333-Texas - Utilities Electric Scheme 091 -November 3,- 1992 l Time TC # 59 TC # 60 TC # 61 TC # 62 TC #'63 TC # 64 TC#65 TC # 66
- (min) (*F) ('F) (*F) '('F) (*F) (*F) (*F) .(*F).
- l. 41 78- 81 82 83 86 92 87 92 l 42 79 81 83 84 87 93 88 93 43 79 82 84 85 88 -94 8s 94 i 44 80 83 85 87 89 96 91 96
- i 45 80 83 86 88 90 97 92 97-j 46 81 84 87 89 91 98 93 98
!- 47 82 85 88 90 93 100 94 100 5- 48 89 94 95-82 86 91 101 101 !- 49 83 87 90 93 96 103 97 103
- 50 84 88 91 95 97 105 99 105 51 85 89 92 96 99 107 100. .106-j' 52 86 90 93, 97 .100 108 101 108-i 53 87 91 94 98 101 109 102 109 j 54 G8- 92 96 101 103 112 .104 111
! 55 89 93 96 -101' 103 113 .105 112 56 90 94 98 104 106 115 '107 115 ) 57 91 95 98 '104 106 116 108 116. l 58 92 96 100 106 109 119 110. 118 5 59 93 97 101 107 110 -121 112 120 l' 60 94 98 102 109 111 122 113 122 61 62 63 64 65- . 66 67 i 68 69 70 71~ 72 , 73 - 74 75 4 i Max 94 98- 102- 109 '111 122 113' 122 ! 1 l o h % %) ..__._ _ .= _ _ _ .__ _ . _ _ . . _ . _ _ _ _ _ . . _ _ . . _ Texas Utilities Electric Scheme 091 November 3,1992 3 ! Time TC # 67 TC # 68 TC # 69 TC # 70 TC # 71 TC # 72 - TC # 73 TC # 74
- (min) (*F) (*F) (*F) (*F) (*F) -(*F) (*F) (*F)
- 0 73 74 74 74 74 74 74 74
- 1 72 73 73 73 74 74 74 74 i 2 73 74 74 74 74 74 74 74 3 73 74 74 74 74 74 74 74 4 73 73 73 74 74 74 74 74 5 72 73 73 74 74 74 74 74 i 6 72 73 73 73 73 73 73 73 l 7 73 74 74 74 74 74 74 73 8 72 73 73 73 74 74 74 74 l 9 72 73 73 74 74 74 -74 73 10 72 73 73 74 74 74 74 74 l
73 73 74 74 74 74 11 72 73. i 12 72 73- 73 73 74 74 74- 74 } 13 '72 73 73 -74 74 73 73 73-l 14 72 74 74 74 74 74 74 74 l- 15 72 75 75 75 74 74 73 73 16 73 76 76 76 74 75' 74 74 j 17 73 76 77 76 75 75 75 74 1 18 72 76 76 76 74 74 74 73 l 19 73 77 7/ 76 75 75 75 75
- 20 21 73 78 79 78 75 75 75 75-1 22 73 73 79' 77 75 75 75 75
- - 23 73 79 80 78 75 76 75 76 l' 24 -74 80 81 80 76 76 76 76 25 74 81 83 81 76 76 76 77 a 26 74 82 83 81 76' 77 77 78 27 75 84 85 83 77 77 77 78 '
f 28 74 84 86- 84 77 77 77 79 . 29 75 86 88 86 78 78 78 80 30 75 87 89 87 78 78 78 -80 31 -76 89 91 89 79 79 -79 81 32 76 90 91 80 ,79 80- 82 l 33 77 92 94 92 80- 79 79 8 2 -. -34 77 94 96 94 81 80 80 83 35- ~78' 95 98- 95 82 '80 81- 84. 36 78' 97 99 97 84 82 -83 87 I 37 '79 99 101 99 1 85- -83 84 88 ! i 38 80 101 103. 101 86- 84 85 '89 l 39 81 104 106 -103 - 87 85- 86- 90 40 81 105 108 105 88 85 86 -91 i: 1 ,. %/ l l . ,-- .m, , ,, .- m . .-. , _ _ , _ , , - , . . . , . , , , , . , - . . . . . . , _ , -355-i -. Texas Utilities Electric Scheme 091 November 3,- 1992 Time TC # 67 TC # 68 TC # 69 TC # 70 TC # 71 TC # 72 TC # 73 TC-# 74. , (min) ('F)- ('F) ('F) (* F) . (*F) ( F) ("F) (*F) i 41 82. 107 110 106 89 86 88 93 4 42 83 109 112 108 90- 87 89 94 i 43 84 111 114 110 91 88- 89 94 j 44 85 114 117 112 93 89 91 97. t 45 85 115 118 114 93 90 91 97 j 46 86 117 121 116 95 91 93 99 l- 47 87 120 123 118 97 93. 95 101 48 88 122 126 120 98 95 96 103
- 49 90 125 129 122 100 96 98 104 i 50 91 127 132 125 101 97 99 105 l 51 92 130 134 127 102 98 100- 106-52 93 132 137 129 104 100 102 108 53 93 134- 139 130 105 101 103- 109
- 54 95 137' 142 133 107 103- 105 . 111' i 55 95 139 144 135 107 103 105 111 I 56 98 143 148 138 109 106 108 114 4 57- 98 144 150 139 110 106 -109 114 j 58 100 148 154 142 112: 109 112 117 59 101 150 156 144 114 110 .113 119 l -
60 102 153 159 146 115. 112 115 '120 , 61 62
- 63 i 64
- 65 j 66 67
+ 68 t: 69 , 1 70 71- , 72-4 73 74 75 ? Max 102 153 159 146- 115 112 115' 120 ) -l 3 O A e ; n .. . . -_ _ , . . _ . _ . - _ _ . - - . _ . . _ . . - - . . _ . .. _._... .-_ _.a _. 1-Texas Utilities Electric Scheme 091 November 3,1992 a-Time TC # 75 TC # 76 TC # 77 TC # 78 TC # 79 TC # 80 TC # 81 TC # 82 i (min) (*F) (*F) (*F) (*F) (*F)_ (* F) (* F) (*F) ) 0 73' 74 73 73 73 73 73 73 f 1 74 74 74 74 73 73 73 73 2 74 74 73 73 73 73 73 73 3 74 74 74 74 73 73 73 73 l 4 74 74 74 74 73 73 73 73 l 5 74 74 73 73- 73 73 73 73 6 73 73 73 72 72 72 73 73 l 7 73 73 '73 73 73 72 73 73 i 8 73 73 73 73 73 72 73 73 i 9 73 73 75 73 73 72 73 73-l 10 74 74 74 74 73 73 73 73 11' 74 74 74 74 74 73 73 73 12 74 73 74 73 73 72 74 74 13 73 73 74 73 73 72 74 74 l 14 74 74 75 74 74 73 74 74 j 15 74 73 76 73 74 72 76 76 16 75 74 77 75 75 73 76 76 i 17 75 74 78 75 76 74 77 76 l 18 74 73 77 74 75- 73 77' 77 1 19 76 74- 79 75 .76 74 77 77 20 21 76 74 80 76 77 74 79 78 ' l 22 77 75 81 76 73 75' 79- 79 23 77 75 82 77 78 75 80 80 $ 24 78 75 83 78 -79 -- 7 5 82 81 25 79 76 84 78 80 76 :83 82 26 80 76 85 79 .81 76- 84 .83 27 81 77 86 80- 82 77- 85- 84 '28 83- 77 '88 81 83 77 87 86 } 29. 84- 78 89 82 84 -78 88 87 30 85- 78 89 82 84 78 90 89
- _ 31 87 79 92 84 86- 80' 92 9 0 ~
32 89 80 93 85 88- 80 94 92 33 89 80 93 85 88 80- 96 94 34 91 80 95 87 .89 81 97 96 35 93 81 96 ~88- 9 0 :' ~ 8 2. 99 97 36 96 83- 99 .90 93 84 102 99-i- 37 97 84 -100 91 94 85 104. 102 38 99- 86- 102- 93: 96 86- '106 103 100 -87 104 ._9 4 97 87- 108 106 40- 101 87 105 95 -9 7 - 87 110 108' o . 5.gf 7 r - - ._ __ . _- .. _ _ . _ _ _ . ._ _ _. _. ._ t ' 357-1 i Texas Utilities Electric Scheme #91-- Novembsr 3,1992 l Time TC # 75 TC # 76' TC # 77- TC # 78 TC # 79 -TC # 80 : TC # 81 TC # 82 - i (min) ('F) ('F) ('F) ("F) '('F) (*F) ('F) (* F) l 41 104. 89 107 97 99 89- 112 110 l_ 42 105 90 108 99 101- 90 115 112 ; 43 106 90 109 99 101 90 117-- 114 I 44 108 92 112 102 104 92 119- 116 i 45 109 93 113 103 104 92 -121 119 {: 46 111 94 114 104 .106 94 124 121 , j- 47 113 96 117 107 108 95 126 123 } 48 115 98 119 109 -110 97 128- 126 ' ) 49 117 99 121 110' 112 98 131 128 50 118 123 112 114 100 133 131 101. l 51 120- 102 125 114 115 101 136 133 ' l 52 122 104 127 115 117 102 138 136 i 53 123 105 130 117 119 104 141' 138 1 54 125 107 132 119- 121 105 143 141 i 55 126 107 134 120 123 106 146 144
- 56 129 110 137 123 126 108 149 147
? 57 129 111 -139 125- 127. 109 152 149 58 132 113 143 .128 131- 112 154 152 59 134 115 145 130 133 113 157 155
- 60 136 117 149 133 135 115 160- 158 2
61
- 62 63 64 <
65 66 j 67 68 69 l' 70 71 72 73 74 75 L Max 136 117 148 '133 135- 115. ,160 1158 l ._k . .., oWho V . o 358- ! Texas Utilities Electric Scheme 091 November'3,' 1992 f- Time TC # 83 TC # 84 - TC # 85 TC # 86 TC # 87 TC # 88 TC # 89 TC # 90 !~ (min) (*F) (*F) (*F) (*F) (*F) (*F) ('F) (*F) i 0 74- 74 74 74 73 73 73 73 1 74 74 74 74 73 73 73 73
- - 2 74 74 74 74 73 73 73 73_
l 3 74 74 74 74 73 73 73 73 i 4 74 74 74 73 73 73 73 73 ! 5 74 74 74 73 73 73 73 73 [ G 74 74 74 73 73 73 73 73
- _7 74 74 74 74 73 73 73 73 i 8 74 74 74 -74 73 73 73 73
{ 9 74 74 74 74 73 73 73 -73 l 10 74 74 74 75 73 73 73 73 11 74 74 74 75 73 73 73- 73 l 12 74 74 74 76- 74 73 73 74 i 13 74 74 74 - 74' 73 73 74 l 14 74 74 74 78 74 73 74 75 l- -15 _75 .75 75 83 76 74 74 -78 16 75 75 75 84 -76 74 75 78 g- 17 75 75 75 84 76 74 75 79
- 18 76 75 76 85 77 75 =75 79 19 76 -76 7. 6 86 77 75 75 80 i j 20 21 77 76 76 89 78 76 76 82
, 22 77 77 77 90 79 76 76 83 . 23 78 77 78 92 81 77 77 84- 1 i 24 78 78 95 82 78 '78-86 -! h 25 80 78 79 97 83 78 : 7 9 .- 88 26 81 79 80 99 85- 79- 79' '89
- - 27' 82 80 81- 101 86 80 80- 91
. 28 83 =81 81 104- -88 82 f81 93 29 85 - 8 2- 82 106 90 83- 82 -94 30 86- 83 83 109 91 85 83 96 88- .8 4 ' = 8 4- 111 93 86 .85 98: l- 32 ,8 9 - 85- 85 .114- 95 88 :86 100-I 33 9 1.. 87 387- 117- 97- 89- 87 102 , 34 93 88- 88 -120' 99" I 91 ' 89 104. '{ '35 -94 90. :89 .122 101' =93' 90 106 ~36 96 9 11 91- -125- 103 195 -- 91 -108-
- - '37 -
98- 93 92~ 128~ 105 96 -- 9 3 _110 i 38- 1100 95 94 131' 107 98 '94 .112 .)
- 39 102- 97- 96 133- .110 100 96' 114- g
- 40 -103: 99 97 136 112~ 101 98 116 4
%) 1 359' Texas Utilities Electric Scheme 091 Novernber 3,1992 Time TC # 83 - TC # 84 TC # 85 TC # 86 TC # 87 TC # 88 TC # 89 TC # 90 ~ (min) ('F) ('F) (*F) (* F) ~('F) (*F) (*F)- (* F) 41 105 100 99 139 114~ 103 99 118 42 107 102 101 141 116 105 101 120 43 109 104 103 144 118 107 '103 122-44 111 106 104 147 120 109 104 124 45 113 108 106 149 122 110 106- 126 46 115 110 108 152 125 112 108 128 47 -116 111 110 154 1P7 114 '109 130 48 118 113 112 157 129 116 111 132-49 120- -115 114 159 131 117- -113 135 50 122 .117- 116 161 133- 119- -115 137 51 124 119 118 164 135' 121 117 139 52 126 120 119 166 137 123 118 142 53 128 122 121 169 139 124 121 144 54 130- 124 123 172 141 126 -122 147-55 133 126 125 -174 144 128 124 150 , 56 135 128 127 177 146' 130 126 153 57 137- 130- 129 180 148- 132 128 156 58 -139 132 131 182 150 .134 130 159 ) 59 141 133 133 185 152 -136 :133 162 60 143 135 134 188 154 '138 135 165 61 1 62 63 64 65 66 67 68 -69 - 70 71 72' 73 '74 ~75-Max. :143 135 134 _188 154 138- 135 165 i f-Chagh 4 1 Texas Utilities Electric Scheme #91 November 3,1992 300 - ' i-.- Time TC # 91 TC # 92 TC # 93 TC # 94 TC # 95 TC # 96 TC # 97 TC # 98 (min) (*F) (*F) (*F) ( F) (*F) ('F) (*F) (*F) . 0 73- 73 72 71_ 71 71 73 72 1 1 73 73- 72 71- 71 73 73 72 2 73 73- 72 71 71 75 73 73 -
- 3 73 73 72 72 72 74 73 73 4 73 73 72 73 74 74 73 74 5 73 73 72 76 77 74 73 75-6 73 73 72 79 82 74 73 77
- 7 /3 73 72 84 87 74 73 79
}' 8 73 73 72 89 92 74 73 81 l' 9 73 73 72 95 '98 75 74 83 2 10 73 73 72 102 104 76 75 86 4 11 73 73 72 108 110- 76 76 88 j 12 73 73 72 115 116- 78 78 90-13 74 74 72 121 123 80 80 87 , 14 74 74 73 129 130 83 82 89 t 15- -77 77 74 158 162 95 92 .101 i = 16 77 77 74 161 166 97 93 103 17 78 78 74 167. 172 99- 95 105
- 18. 78 78 74 175 182 101 97 106
] 19 78 79 74 187 187 102 98 108 20 l 21 80 81 75 211 212 110 105 115' j- 22 81 82 76 232 225 115 109 118
- l. 23 83 84 76 256 241 120 114 123
-24 84 85 77 278 256 125 120 128 25 85 87 77- 295 269 132 123 132 3 26 87 88 78 311 300 140 _ 130 138-27 88 90 79 323 322 149 137 142 f 28_ 90- 92 80 345_ 386 166_ 143 - 145
- 29 91 93 81 379 489 191 157 151 l 30 93 95 82 425 589- -2511 168 155
- 31 95 ~97 83 449- 623- 288 177. 162
, 32 97 99 84 457 623 288- '189 170-33 98 101 85 462 .651 277 208 185 j< 34 100 103 _86 456 627 272 233 199 -l 35 102 104 87 460 622 275- 249 213 36 104 106 88 486 615 283 271- 240 37 105 108 89 498 604 291 299 ~ 261 38 107 -110 91 508 637. 294 315- 275
- 39 109 -112. 92 500_ 640 -304 325 280 40 111: 114 93 _.493 .653 316 355' 281
? Q 301-Texas Utilities Electric Scheme #91 November 3,1992'- .i Time TC # 91 TC # 92 TC # 93 TC # 94 TC # 95 TC # 96 TC # 97 TC # 98 (min) (*F) ('F) (*F). (*F) ('F) (*F) ('F) (*F) 41 113 116 - 9 4.- 486 674 330 375 '284 42 115 118 96 484 682 339 401 288-43 117 120' 97 485 672 344. 413 294 44 119 122 98 499 ~657 351 406 - 297 45 121 124 100 490 640 354 407 302 46 123 126 101 483 614 351 395 305 47 125 128 10? 478 60? 354 374 306 48 127 130 104 477 591 352 367 315 49 129- 132 105 476 -578 347 355 318 50 131 134 107 477 573 347 348- 318 51 -133 137 109 480 566 345 340 320 4 52 135 -139 110 481 558 340 332 319 l 53 137 142 112 478- ~555- 335- 323 319 54 140 145 113 476- 551 333 320 321 55 142 147 115 469 542 330 315 322 56 144 150 117 465 532 324 ?09 323-57 147 153 119 462 516 321 302- 323' 58 150 156 120 461 507 320" 296 326 59 152 159 -122 462 498 318 292 327 60 155 162 124 463 489 316 288 328 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 Max. 155 '162 124 508 682 354 413 328 n+ 't 'Acam o / - . - - - . - . - . . - . _ _ . - . . - - . . - - . - . . .- - - ~-- . _- .~ - . .
- 362-
. Texas Utilities Electric Scheme 091 1 Novembar 3,1992 i: Time TC-# 99 TC # 100 TC # 101 TC # -102 TC # -103 TC # ~ 104 - TC # 105-(min) . (*F)' (*F) (*F) (*F) (* F) ( F) (*F) 0 72- 71 71 71 .71 71 71 1 72 71 71' 71 71 71 71 2 72 71 71 71 71 71 71 3 72 71 73 71 71' 71 '72 4 72 71 76 71 72 71 75 5 73 71 81 72 74 72 79 6 75 72 86 73 77 72 83 7 77 72 93 -74 74 -88 8 80 73 100 76- 86 75 93 9 84 74 109 78 98 77 99 10 88 76 121 80 115 80 104 11 92 78 133 84 127 84' 117 12 97 80 143 _ 8 7. 135 88 -131 i 13 102 83 151 92 150 94 148 14 107 86 162 101 169- 100 172 15 124 101: 240 148 -230 -147. 342 16 127 103 259 156 240 -157 389 17 129 105 -281 165~ 252 167 ,436 18 132 107 300 173 264 180 482 19 134 109 328 180 278- .194 525 20 21 143 118 447 212 335- 249 698' 22 149 124 507- 244 '385 302 803- ! 23 154 130 571- 284 444' 392 965 i 24 160- 137 '647- 317 527 508- '1132 l 25 166 144 670 339 -562 653 -1198 l 26 171 153 675 364- 563 728 1134 27 174 163 677. 403 534I 749 -1122 l 28- 179 r178- 705- -437 -538 751. :1178~ l 2 91 182 189 747- 488 '663 803- 1237- t 30 185 .196 851 569 802 886- 1390- I 31 188 201 887- 651 844 964 1480 32- -104- 208:- 851 665- 832 961. .1413-33 .199 217 834' 621 858 1988- 1295 .34 205 228- 840 578- 919 1013 - -1222 35 214 231 850 -585- 918 1055' =1193~ , 36 '230 239- 875 611 927. 1108 -1190 37- 244' 242 1892 640. 902-- 1146 -1200 38 251 244 885- 638 868- _1150 1174 i
- 39 255 250 881 620 832 1122 1132' !
- 40 258 ~247 863 614 799 _1074 1121
+b %d" l i Texas Utilities Electric Scheme 091 November 3,1992 363 L i Time TC # 99 TC # 100 TC # 101 TC # 102 TC # 103- TC # 104 TC # 105 (mln) ('F) ('F) ' (* F) (* F) -('F) (*F) (*F) ! 41 262- 237 846 651 781 1018 1069 , 42 266 232 818 661 753 980 1055 1 43 268 231 778 687 722 893 1006 i 44 270 245 732 705 697 838 927
- 45 273 250 709 734 674 774 878
- _ 46 277 252 679 718 642 745 828 47 279 P40 645 700 SO2- '893 769 48- 282 245 631 696 578- 654 728 l 49 285 245 614 671 551 640 689 50 288 249 605 657 538 629 659 51 292 253 597 650 530 606 644 l_ 52 295 257 590 627 517 595 631 i 53 299 260 573 605 507 567 603 54 303- 262 565 598 502 556 587-l 55 306 269 550 573 -490 516 554 i
56 308 274 531 547 474 _ 475 532 -453 513 57 312 279 526 530 460 58 315 285 520 510 449 ~429 498 l 59 318 289 516 487 438 412 479 i 60. 323 294 516 471- 429 396' 468 ! 61 62 ! 63 i 64 ! 65 l 66 67 ! 68 69 70 l l 71 72 g 73 p 74 V 75 323 734 Max 294 892 927 1150 1480 l o+ 't *o uo [ , v- , ,-~ _ +#- . r.w,--- , ,r ,.w ., ,,-,...+rv .,-.---er,,, , 364 Texas Utilities Electric- Scheme 091 November 3,1992 1 4 l Time 'TC # 106 TC ' # -10*/ TC # 108 TC # 109 TC # 110 TC # 111 TC # 112
- (min) (*F) (*F) ('F) ('F)_ (*F)_ (*F) (* F) 0 70 70 71 71 71- 71 71 1 70 70 71 74 71 71 71 2 70 70- 71 77 '71 71 71 3 70 70 71- 77 71 71 71 4 70 70 71 77 71 71 71 5 70 70 71 77 -72 71 71 6 71 71 71 77 72 71 72 7 71 72 71 76 73 72 73 8 72 73 72- 76 73 73 74 9 74 75 73 76 75 75 76 10 70 77 73 77 76 78 79 11 79 80 75 78 78 81 82-12 82 83 76 79 80 85 85-13 85 86 78 80 82 89 89.
14 89 90 80 82 84 93 93 15 106 108 91 96 96 111 111 16 '109 110 92 98 98 113 113 17 111 113 94 101 100 115 116 18 113 115 95 104 102 117 118 19 116 118 97 107 105 120 .120 20 21 125 143 103 123 120- 128 129 22 128 157 105 147 132 -139 134 23 140 166 115 :151 161 145. 140 24 158 179 127 182 198 152 146 -25 179 193- 148 185 PP3 158 153 26 206 223 172 '194 247 165 159 27 242 260 193 223 263 172 167 28 278 284 223 253 227 181 175 29 342 326 289 286 -206 190 184 30 378 354- 299 316 218 198 192 31 403 380 '311 338 226- 206- P01 32 ~428 ~427 344 360 241 211 209 13 3 459 460 364 361 '244 219 217 34 483 '468 379 366 245 224- 222 35- 506 484 394 384- 255 232 225 36 524 - 504 420 406 264, 233 228 37 565 520 '437- 426 276 238 235: 38 578 526 432 434- 277. 236 237' 39 575- 513 448 429 268 237 ~237 40 SE', 486 437 430 261 238 241 i ~ O lgo ' ~. - . .- -- . - - . - .. ._. .. __ .= .. . - 300 Texas Utilities -Electric' Scheme #91 November 3,1992 i Time TC # 106 TC # 107 TC # 108- TC # 109 TC # 110 - TC -# 111- TC # 112 (min) (*F) ('F) (*F) (*F)- (*F) (* F) (*F) 41' 552 468 435 431 258 240 244 l 42 537 449 427 '420 252 242 245 43 528 438 420 417 247 245 247 {.
- 44 515 435 404 417 244 248 249-45 507 439 392 420 242 252 250 46 496 447 395 426 243 258 253 47 606 460 402 435 248 279 255 48 516 481 394 435 254 283 259.
{ 49 533 512 390 434 263 294 263 50 543 585 379 431 297 306 267 l . 51 564 615 376 429 318 319 272 i 52 586 611 371 424 332 339 -278~ l 53 586 587 363 423 344 344 '283 ! 54 575 584 370 432 354 360 288 , 55 573 575 375 427 354 367 -294 56 584 566 378 435 356 -373 299 57 615 565 396- 450 363- 376 305 58 623 569 414 460- 362 380 310 l= 59 631 571 414- 467 360 386 '315 60 614 569 408 464 357 390 320 i 61 i 62 l 63
- 64
! 65
- 66 l 67 68
- 69 70 i 71
- 72
!' 73 I 74'
- - 75 Max 631 615 448 467- 363 390 320 i-od;E i
i !: 3GG
- j. Texas Utilities Electric Scheme #9-1 November 3,1992 ~
l Time -TC # 113 TC # 114 TC # 115 TC # 116 TC # 117 ' TC # 118 TC # 119 - (min) (*F) (*F) ( F) (*F) (*F) (*F)- ('F) 0 71 70 70 70 71 71 72 i- 1 71 70 70 71 71 71 72 i 2 71 70 70 71 71 71 72 i 3 71 70 70 71 71 71- -- 7 2 l 4 71 70 70 71 71 71 72
- 5 71 71 71 71 71 71 72-6 71 71 /1 71 71 72 72 l- 7 71 72 72 72 72 72 73 8 72 73 73- 73 73 73 7 4 --
l ! 9 72 75- 75 74 74 75 76 4 10 73 78 78 -76 76 78 78 l 11 74 -81 81 79 79 80 81 j_ 12 75 84 84 82 81 d3 84 ) 13 77 88 89 85 '85 87 87 i 14 79 92 93- -89 88 91 90 15 88 .112 114 105 107 108 105 l 16 90- 115- 117 10S 111 - 110 106 ! 17 92 118 120 111 117- 113 108 I 18 94 122 126 115 126 115 110 1 19 97 126 135 119 137 118 112 20 ~ l- 21 110 140 179 135 167 129 '119 22 121 151 200 146 212 .137 -124 !. 23 135 163 218 158 218- 146 128 ! 24 164 205 257 179 243- 165 -132 25 191 237 315- 199 297 202 137. l 26 223 272- 376 226 -403 '246- 145-1: 27 301 319 461- -290 685-- 313 152 I 28: 351 374- 573 313' 926 393 159 29 412 469 773- ~359 1038 479- -166 j- 30 453 528 863 430 1147 613= 190 31 494- 589 891. 512. 1248 729- 197 -32 533 693 ~019- 586- 1337 :773 210. 33- 565. 741 958^ 656 1366 875 2221 34 619 756 940 673 1380- 999- 234 i- 35. 675 759-- 947- 685 1392 991- 245
- -36' '711 786, 964- 710 1415- 1014. c261 i 37 702 810 943- 713. 1392 1015' 273 38 664 852- 897 -721 1333 -965L 276
'39 642 836 -863- 700 .1255 904- 280 f -- 4 0 615- 776- 801 657- 1156 L832L 287-f . %./ Texas- Utilities Electric Scheme 091 November 3,1992 - l l Time TC # 113 TC # 114 TC # 115 TC # 116 TC # 117 TC # 118 TC # 119 (min) -(*F) (*F) (*F) (*F) (*F) (*F) (*F) 41 587 751 759 629 1075 789 281 , 42 561 719 721 603 989 770- 272 43 529 691 685 582 914 74G 264 44 505 658 648 560- 847 720 259 45- 476 636 617 537 793 695 255 46 457 614 592 510 735 666 252
- 47. 437 604 564 491 695 -645 251 48 418 584 544 478 663 634- 250:
49 401 569 526 466 633 626 251 50- 383 547 513 466 605 616 253 51 377- 540 '504 .471 584 613 254 52 -363 522 485 463 -559 592 257 4 53 353 510 470 461 536 580 260 54 347 503 455 465 1510 569 263 55 341- 495 447 465' 488 557 267-56 -332 496 437 460 467 539 275 57 329 502 430 462 454 529 283 58 327 499 .424 .465 439 514 2t1 59 323 500 419 468 430 512 296-60- 319 496 418 473 420 510 304 61 62 63 64' 65 66 67 68 69_ , 70 71 72 73 i' 74 I 75 Max 711 852 -964 721 1415 1015 304 o , fa. 1 . Okho f ] i 3G8 I Texas Utilities Electric Scheme.091 Novem.)er 3,1992 l I
- i Time TC # 120 TC # 121 TC # 122 TC # 123 TC # 124 TC # 125 TC # 126 -
l (min) (*F)- -(*F) (*F)- (* F) (*F) (*F) (*F) 1 0 72 71 72 73 73- 72- 72 1 72 71 72 73 73' 72 72 j 2 72 71 72 73 73 ?? 72 l 3 72 72 72- 73- 73 7 l.' 72 ! 4 74 74 72 73 74 72 72-
- 5 77 78 72 73 76- 73 72
! 6 81 82 73 73 78 73 72 i 7 85 86 =7 3 73 80 74 __ 73 l 8 89 92 - 75 73 83 75 -74 5 9 94 97 76 74- 85 76 75 10 99 103 78 74 88 78 77 ! 11 104 110 81 -75 90 80 79- ! 12 110 116 83 76 93 82 82 < i 13' 115 120 86 77 96 85 -85 ! -14 121 124 90 78 98 87 88 ! 15 141 140 105 85- 102- 96 103 , 16- 144 142 -108- 86. 103 '97- 105~ i: 17 146 144 110 87 105 99 107-18 149- 146 112 88 106 100 109 f' j 19 151 149 115 89 108 102 111
- 20 -
- 21 160 156 134 93- 113 108 119 4
22- 165 162 153 96 116 112 -126 j 23 171 166 172 99 120 116 134 l 24 176 171 184 102 123 120 -1G1 25 183 175 190- -105 127 125 176 26 -188 296 195 108-- 131- 129 180 27 186 284 207 110- --134 134 181= 28- 190 278 -215 114- 138 -138 - 188- !- 29 201 274 232 ,118- 142- 143 197-F 30 299. 274 235 123 146 147 341 31 304 281 '232 129 150 152. 383
- 32 '305- 283 231 137 ~155 -156 -- 3 7 2 =
L 33- 300 :282 230 147- -159 160: 348 L 34 293 285 235 160 164 163 337 35' 294 291 238 176- 170- 168- 327 f 36 296 298 244 190 177- -172, 326' 37 296- 314 249 203 184 176 3 21 -.- -38 296- 336 255- 218 191 179 319:
- 39~ 294 346 258 2321 200- 183 317.
40 301 349 263' 244 206 187 317 f o - 4ATON - . . . . .. . .- - - -. . - . . -- - = . . ... . . 1 I 303 . Texas Utilities Electric Scheme 091- November 3,1992 i U I Time TC # 120 TC # 121 TC # 122 TC # 123 TC # 124 TC # 125 TC # 126 (min) ('F) (* F) (* F) (* F) (*F) (*F) .(*F) 1
- 41 304 351 264 252 213- -194 316 42 306 357 270 257 220 200 314
'4 3 309 368 274 266 226 - 203 317 l 44 312 368 277 269. 230 207 320: i 45 315 372 283 276 229 208 326 j 46- 318 379 286 283 209 211 . 331 1 47 319 376 289 288- 213 213 330 l 48 323 375 290 289 217 214 330 } 49 324 375 289 289 253 218 - 324 j -50 325 394 289 293 265 219 326
- 51 328 ' 413 289 299 257 219 327
- 4. 52 332 421 290 309 272 219 343 I 53 337 425 290 313' 279 217 346-54 344 432 291 323 28b 216 352 55 353 444 293 325 290 215 346 l 56 361 447 296 325 289 215 339 n 57 373 456 304 329 295 216 341 58 385 459 313 324 299 219 349 59- 399 470 326 322 -302 220 359 60 419 473 340 318 305 222 365 61 4 62 l 63 l 64 I 65 3
66 -67 I- 68 , 69-i .70
- 71
- 72 i
73 74' . 75 Max 419 473 340 32.9 305 222 383 4 w w + - - , ,- -w w - .r .----m-,w,ow, ..,,7 %,=,>-,y- ,w~ e -e-v.-w ,rw-eea-ev-y- .-m--, rv v y w e=-w+v ,yvg g g 370 l Texas Utilities Electric Scheme 091. November 3,1992 'p Time TC # 127 TC # 128 TC #.129. TC # 130 TC # 131 TC # 132 TC # 133 (min) (*F) ('F) (* F) ('F) ('F) (*F) (*F) j 0 71 -71 72 72 73 73 73 1 71 71 72 72 73 73 73 2 -71 71 72 72 73 73 73 i 3 72 72 72 72 72 73 73 . 4 73 73 72 73 72 73 73 5 5 75 74 73 74 72 73 73-6 78 77 75 77 72- 7? 73- ]
- 7 82 81 77 80- 72 73 73
- 8 85 90 81. 84 -72 73 73 I 9 89 100 89 93 72 73 73 10 94 105 102 110 72 73 73 11 98 112 114 147 73 73 73 12 103 129 127 163 73 73 73 i 13 109 143- 150 200 73 73 73 j 14 114 151 168 231 73 73 73
. 15 133 180 216 300 74 75 74 16 137 184 224 307 74 75 75 l 17 140 187 231 318 7i 75 75 !' 18 144 192 235 338 75' 76. 75 I 19 149 202 239 363 75 76 75 1 20 21 223 262 424 629 76- 77 76 ! 22 299 326 525 805 77 78 77
- 23 965 379 565- 957 78 79 77 24 438 410 683 1022 78 80 78 2
25- 507 442 798 1190 79 .81 79 26 562 492 ~868 1271' 81 82 80 i 27 568 585 904 1286 82 83 81 3 -28 562 -628 922 =1245 83 85 8 '2 i 29 533 689 856 1134 84 86 83 , 30 497- 635- 780 1016 86 88 84-I 31 495 590 703 917 87- 89 86-I' 32- 459 547 630 837 89 -91 87 33 -431 '512 553- 743- -91 93 89 4 34 :407- 486 '521- 689 92 95- - 9 0' '35 397 473 504- 663 94: 96' 92 36 397 474 494 .668 96 98- 94 fl - 37 38 396 402-476 474-491 485 701 748 98 100 100-102 95 97 - 3 9'- 415- 489 489- 791 102 104- -99 40: -416 491 491- 802' 104 107 101 , I f% g f -- . - . ~ . - _ . . . - . . . - _. . .-. . . . .- - . . . . , 371 Texas Utilities Electric Scheme 091 November 3.- 1992 i l ! Time TC # 127 TC # 128 TC # 129 TC # 130 TC # 131 TC # 132 TC # 133 i- (min) (*F) ('F) ('F) ( F) (*F) ('F) (*F)~ p 500 824 l 41 417 484 106 109 103 , [ 42 424- 500 475 835 108 111 105 43 -435 495 473 848 -110 113 107 4 44 434 497 468 833 112 116 109 3 45 442 512 - 466 810 115 118 111-l 46 451 -515 471 815 117 121 113 l 47- 158- 528 472 816 120 123 -115
- 48 459 535 487 801 122 126 117
{ 49 -455 535 520 786 125 129 119
- 50 448 538 534 773. 128 131 122
! 51 441 541 530 742 131 -134 124 l 52 436 539 524 '724 134 137 126 i 53 432 519 545 715- 137- 140 128-54 420' 505 566 699 141 144- 131~ , 55 412 501 577. 702 144 147- 133 i 56 403 487' 560 674 148 150 136- , 57 404 479 561 670 151 154 138 58 407 470 541 656 155 157 141 ) 59 407 ~458 515 S43 159 161. 144 60 408 449 500 615 162 164 146 ' 61 62 l 63 ! 64 l 65 [ 66 , 6 7. l 68 [ -69 l 70 71 l' 72
- 73 74
- 75 t
-Max. .568 689 .922 1286 162- 164 146 1 i %g$ . __ _ _ _ _ _ a . - . = . .- - -- . . . . - . - , - . - - ._- . . . . - . - - _-- ^ ! 372 ; Texas Utilities Electric Scheme 091 November 3,1992 l t-j Time TC # 134 TC # 135 TC # 136 TC # 137 TC # 138 -TC # 139 TC # 140 - 4 (min) (*F) (*F) ( F) (*F) (*F) (*F) (* F) 0 73 73 73 72 72 72 73 j 1 73 73 73 72 72 72 72= 2 73 73 73 72 72 72 72
- 3 73 73 73 72 72 72 72 4 73 73 73 72 72 72 72 5 73 73 73 72 72 72 72 e 6 73 73 73 72 72- 72 72 i 7 73 73 73 72 72 72 72 l 8 73 73 73 72 72 72 72 9 73 73 73 72 72 72 72
- 10 73 73 73 72 72 72 72 d
11 73 73 73 72 72 72 72 l 12 73 73 73 72 73 73 73 13 73 73 74 72 73 73 73 14 73 73 74 73 -73 73 j 15 74 74 76 73 75 75- 74 16 74 74 77 74 75 76 74 I 17 74 74 77 74 .76 76 74 18 74 74 78 '74 76 76 74 19 74 75 78 74 76 77 75 20 , 21 75 75 79 75 78 78 76 l 22 75 76 81 76 79 79 76 l 23 75 76 82 77 80- 81 77 24 76 77 83 77 81 82 78 , 25 77 78 84 .78 82 84 79 ] 26 77 78 -86 79 84- 85 80 27 78 79 87 80 =85 87 81 . 28 79 80 88 81 87 -88 83 29- 80 -81 90 83 88. 90 84-30 81. 82 92 84 -- 9 0 . - 92 85 31 82 83 93- 86- 92 94 87 , 32 83 85 -95 87- 94 96 88 33 84 86- 97 89- 96 98 90 34 85 87 98 91 98 100 91- ; 35 87 89- -100 92: -100 102- 93 36 89 90. 102 94 102. 104 95 37 90 92 104 96- 104 106 '97 38 92 93: 106- 98 106 '108 98 j 39 94 95- 107- 100 108 111 100- ! 40 96 97 109- 102 111 113 102
- e .
kATO 373 Texas Utilitios Electric Schemo 091 November 3,1992 Time TC # 134 TC # 135 TC # 136 TC # 137 TC # 138 TC # 139 TC # 140 (min) (*F) (*F) (*F) (*F) ("F) ('F) ("F) 41 98 99 111 104 113 115 104 42 100 100 113 106 115 118 106 ! 43 102 102 115 108 118 120 107 44 104 104 117 110 120 122 109 45 106 106 119 112 123 125 111 46 108 108 121 114 126 128 113 47 110 110 123 116 129 130 115 48 112 112 126 110 132 133 117 49 114 114 127 121 135 136 119 50 116 116 130 123 138 139 121 51 118 118 132 126 141 142 123 52 120 120 134 128 144 145 125 53 122 122 136 131 148 148 127 54 124 124 139 134 151 151 129 55 126 127 141 130 155 154 131 56 128 129 144 139 159 158 133 57 130 131 146 142 162 161 135 58 132 133 149 145 166 165 137 59 135 136 151 148 170 168 140 60 137 138 154 151 174 172 142 61 62 63 64 65 66 G7 68 69 70 71 72 73 74 75 Max 137 138 154 151 174 172 142 I 4 O ! %) T i s 374 Texas Utilities Electric Scheme 091 November 3,1992 ) Time TC # 141 TC #- 142 TC # 143 TC # 144 TC # 146 TC # 146 TC # 147 ! (min) ('F) ('F) ('F) (*F) ('F) ('F) ('F) 0 72 72 73 73 73 - 73 73 1 72 72 73 73 73 73 73 2 72 72 72 73 73 73 73 3 72 72 72 73 73 73 73 4 72 72 73 73 73 73 '73 5 72 72 72 73 73 73 73 0 72 72 72 73 73 73 73 7 72 72 72 73 73 73 73 8 72 72 73 73 -73 73 73 9 72 72 73 73 73 73 73 10 72 72 73 73 7;3 73 ?? 11 72 72 73 73 - 74 73 73 1 12 72 72 73- 73 74 73 73 13 73 72 74 74 75 73 74 14 73 73 74 74 75 74 74 16 74 74 78 78 78 75 76 16 74 74 79 -78 79 75 76 17 74 74 79 79 79 75 76 18 75 74 80 79 80 75 77 19 75 74 80 80 81 76 77 20 21 76 75 83 82 '83 77 78 22 77 76 84 84 85 77 79 ' 23 78 77 56 85 86 78 81 24 79 77 88 87 88 79 82 25 80 78 90 89 90 80 83 26 81 79 92 91 92 81 85 27 83 80 94 93 95 82 86 28 84 82 96 95 97 83 88 29 86 83 98 -97 99- 85 90 30 87 84 100 99- -102 86 92 1 31 89 86 102 101- 105 88 94 32 91 -87 105 104 108 90 96 33 92 89 107 106 -110 92- -98 34 94 90- 109 108 113 94 100 36 96 92 111 111 116 103 36 98 94 114 113 118 99' 105 ^37- 99 95 116 116 ~120 ' 102-108 38 101 97 119 118 123 105 110 39 103 99 121 121 125 107 1.13 40 105 101 1124- 123 -127 110 115 %) , Texas Utilities Electric Scheme 091 November 3,1992 1 Time TC # 141 TC # 142 TC # 143 TC # 144 TC # 145 TC # 146 TC # 147 (min) ('F) (*F) (*F) (' F) (*F) ("F) (*F) 41 107 102 127 126 130 113 118 42 108 104 130 129 132 115 121 , 43 110 106 132 132 134 118 123 44 112 108 135 134 137 120 126 l 45 114 110 138 137 139 122 128 46 116 112 142 140 141 125 130 l 47 118 114 145 144 144 1?7 133 48 120 116 148 147 147 129 135 49 122 118 152 150 149 132 138 50 124 120 155 153 152 134 140 51 127 122 159 157 154 136 142 l 52 129 124 162 160 157 138 145 l 53 131 127 166 164 160 140 147 l 54 133 129 169 167 163 142 150 55 136 131 173 171 165 144 152 56 138 134 176 174 168 146 155 57 140 136 180 178 171 149 157 58 142 139 183 182 175 151 160 59 143 141 187 185 178 153 163 60 145 144 191 189 181 155 165 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 Max 145 144 191 189 181 155 165 gF****9,. 5 *onco$ 7 376 Texas Utilities Electric Schcrae #91 Noverwer 3,1992 i f Time TC # 148 TC # 149 TC # 150 TC # 151 TC # 152 TC # 153 TC # 154 (min) (*F) (*F) (*F) (*F) ('F) (*F) (*F) 0 73 73 72 72 72 72 72 j 1 73 73 72 72 72 72 72 . 2 73 73 72 72 72 72 72 l 3 73 73 72 72 72 72 72 j 4 73 73 72 72 72 72 72 l 5 73 72 72 72 72 72 72 6 73 72 72 72 72 72 72 i l i 7 73 72 72 72 72 73 73 l 8 73 72 73 72 72 74 73 j- 9 73 72 73 73 72 75 74
- 10 73 72- 73 73 72 76 75 j" 11 73 73 74 73 73 77 76 12 74 73 74 74 73 79 77 i 13 74 73 75 74 73 82 78 l 14 75 73 76 -75 74 84 80 i 15 78 74 80 78 77 97 86
- j. 16 78 74 81 79 77 99 87 l- 17 79 75- 81 79 78 101 88
- 18 79 75 82 80 79 102 89 l 19 80 75 83 81 79 104 89
! 20 I 21 82 76 85 E3 82 111 93 l 22 83 77 87 85 84 116 '95 l 23 84 -78 89 87 .86 121 98 l 24 86 79 91 89 88 126 100 ' I I E E U l U U lE lE
- 27 91 83 97 95 95 138 108 ,
28 93 84 100 97 97 141 111 ' i- 29 95 86 102- 99 100 145 113 i 30 97 87 104 101 102' 148= 116 l 31 99- 89 107 104 105 150: 118 32 101 91 109 106 107 .153 '120 n 33 103 92 111 108- 109 -155- -123 ! 34 105 94 114- 110. 112 -158 125 i- 35 107- 96 .116 .113 114 160 128 1 4 36 108 98 119 115- 116 162 '130 37 110 :100 122 118 119 165 132 38 -112 102 125 120 121 167- 135 .39 114 104 127 123 123 --168 - 137 40 116. 106 130 125 125 170 140-i- * * "of . %on45o/ ; - - _ . - . = - . - -; .- -,:-.=..--..-., -.--..---...-,..-...A ~ Texas Utilities Electric Scherne 091 November 3,1992 377 Time TC # 148 TC # 149 TC # 150 TC # 151 TC # 152 TC # 153 TC # 154 l , (min) (*F) ('F) ('F) (*F) (*F) ('F , (*F) l l 41 119 108 133 128 127 172 142 l 42 121 110 136 130 129 173 145 i 43 123 112 139 133 131 175 148 44 125 114 143 135 133 176 150 45 127 117 146 138 135 177 153 46 129 119 149 141 137 179 150 l 47 131 121 153 144 139 '180 159 l 48 134 123 157 147' 140 181 162
- 49 136 125 160 150 -142 182 166 4 50 138 128 164 153- 144 183 169 51 141 130' 168 156 146 185 173
' 62 143 133 172 160 148 186 176 53 146 136 176 163 150 187 180
- 54 148 139 181 166 152 189- 183
- 55 151 141 185 170 153 190 187
}- 56 154 144 189 173 156 192 191- ! 57 156 147 193 176 158 194 195 j 58 159 150 198 180 160 196 199 ! 59 162 153 203 184 162- 198 203 60 165 156 208 187 164 201 207
- - 61
[ 62 63 ! 64 l 65 66 67 68 69 70 71 72 73 74 75 Max 165 156 208 187 164 201 207 5 w,/ 373 Toxu Utilities Electric Scheme 001 November 3,1992 Time TC # 155 TC # 156 TC # 157 TC # 158 TC # 159 TC # 160 TC # 161 (min) ('F) (*F) (' F) ("F) ('F) (*F) (*F) 0 72 73 73 73 73 73 72 1 72 73 73 73 73 73 72 2 72 73 73 73 73 73 72 3 72 73 73 73 73 73 72 4 72 73 73 73 73 73 72 5 72 72 73 73 73 73 72 0 72 73 73 73 73 73 72 7 72 73 73 73 73 73 72 8 73 73 73 73 73 74 72 9 73 73 73 73 73 74 72 10 73 73 73 73 73 75 72 11 74 73 74 73 74 75 72 12 74 74 74 73 74 76 73 13 75 74 75 73 74 77 73 14 76 75 75 74 75 78 74 15 80 79 78 75 77 83 76 16 80 80 79 75 78 84 76 17 81 80 79 75 78 84 77 18 82 81 79 75 79 85 77 19 82 82 80 76 79 86 78 20 21 85 84 82 77 81 89 80 22 87 86 83 77 82 90 81 23 89 88 85 78 84 92 83 24 91 90 86 79 86 94 84 25 93 92 88 80 87 96 86 26 95 94 89 81 89 99 87 2.7 97 96 91 83 91 101 89 28 100 98 93 84 93 103 91 29 '102 101 95 85 95 105 93 30 104 103 98 87 97 108 96 31 106 106 100 89 100 110 98 32 109 108 103 90 102 112 101 33 111 111 105 92 104 114 104 34 114 113 108 94 106 116 106 35 116 116 111 97 109 119 109 36 119 119 113 99 ill 121 111 37 121 121 116 102 114 123 113 38 124 124 118 105 116 125 116 39 127 126 121 107 119 127 118 40 130 129 123 110 121 130 120 4"% 0 (/ _. u l 379 Texas Utilities Electric Scheme #91 November 3,1992 i Time TC # 155 TC # 156 TC # 157 TC # 158 TC # 159 TC # 160 TC # 161 ' (min) ('F) (*F) (*F) (*F) (*F) (*F) ('F) l 41 133 132 125 113 124 132 123 42 136 135 128 116 126 134 125 43 139 138 130 118 129 137 127 44 143 141 133 121 131 140 130 45 146 144 135 123 134 142 132 46 150 147 138 126 136 145 135 47 153 150 140 128 130 14f1 137 48 157 154 143 131 141 151 140 49 161 157 146 133 143 154 142 50 165 161 148 135 146 157 145 51 169 164 151 138 148 100 148 52 173 168 154 140 151 163 151 53 177 172 156 142 153 167 154 54 182 175 159 145 156 170 157 55 186 179 162 147 158 173 160 56 190 183 165 149 161 177 163 57 195 187 168 151 163 181 166 58 199 191 171 154 166 184 169 59 203 195 174 156 169 188 172 60 208 199 177 158 171 192 175 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 Max 208 199 177 158 171 192 175 $* * "Os b/ 300 : Texas Utilities Electric Schemo 091 November 3,1992 L i Time TC # 162 TC # 163 TC # 164 TC # 165 TC # 166 TC # 167 TC # 168 (min) (*F) (*F) (*F) (*F) (*F) (*F) (*F) 0 72 72 72 72 72 70 70 i 1 72 72 72 72 72 70 71 2 72 72 72 72 72 70 71 3 72 72 72 72 72 70 70 4 72 72 72 72 72 70 70 5 72 72 72 72 72 70 70 6 72 72 7? 72 72 70 71 7 73 73 72 72 72 70 71 8 74- 74 73 72 73 71 71 9 75 76 74 73 74 71 72-10 76 77 75 73 75 72 73 11- 78 79 76 74 76 73 74 12 79 82 78 75 78 75 76 13- 81 84 80 76 80 76 78 14 83 87 82 77 83 79 80 15 91 99 93 84 94- 89 92 16 92 100 95 85 95- 91 93 17 93 102 97 86 97 93 95 18 94 '104 98 88 99 94 97 19 95 105 100 89 100 96 98 20 21 99 112 108 94 106 103 105-22 102 116 113 97- 110 107 109 23 105 120 118 101 114 112 114 24 108- 124 123- -104- 118- -- 1 17 - 118- f 25' 111 127 128 107. 1:22 122- 123 26 115 131 132 110 126- 128- 129 27- -118 135 136- 113- 129 134 134 28 121 138 140 -116 133- 141 140 29 124 1 41 '143 119 137 148 146 30 126 144- --147 122 -140 155- '152 31- - 129- 147 150- -124 143 163 159 32 132- 150 153 127 -146 169 -165-33 134: :152 156 129 149 174 171 34 137 155- 159- 132- 152- 179- 177 35 140 158' 161 -134 155- 183. 182-36- 143 161 164- -137. 157 187. 186-37 -147- 164 166 139 159 -190' :190 38 150 168 168 141- -162 193 -193' 39~ -154 171- 170' 143 164- 196 196 40 157 1175- 172- 145 166- 199 199-0 A *o, '$...../ _ e 301 Texas Utilities Electric Scheme 091 November 3,1992 Time -TC # 162 TC # 163 TC # 164 TC # 165 TC # 166 TC -# 167 TC # 166 (mln) ('F) ('F) (*F) ('F) (*F) ('F) (* F) l 41 161 178 174 147 168 201 202 42- 165 182 175 149 171 204 205 43 169 186 177 151 173 207 207 44 174- 100 178 153 175 210 210 45 178 194 180 155- 178 214 212-4 6 -- 183 198 181 157 181 217 215 47 187 203 182 !S8 183 221 218 46 192 207 184 160- 186 225 220 49 196 211 185- 162 190: 230 223 50 201 216 187 164 193 235 227 51 206 220 188 165 196 240 231 52 211 225 190 167 197 . . 246 235 53 216 230 192 168 '199- 251 240 i 54- 221 234 194- 170- 203 256 245 55 227 239 196 172 207 - 261 249- ! 56 232 245 198 173 212 266 254 57 237 250 201- 175 216 271 :259 56 242 255 204 177 221 277 264 59 248 261 207 178 226 283 269 _60 254 260 210 180 231 290 275 61 62 63 84 65 66 67 66 , 69 .70 71 72 73 74 75 Max 254 266 210- :100 231 290 275 * * "Os * .,) ! 332 Texas Utilitico Electric Schemo 091 November 3,1992 l, l Time TC # 169 TC # 170 TC # 171 TC # 172 TC # 173 TC # 174 TC # 175 I- (min) (* F) (*F) (*F) (* F) (*F) (*F) (*F) l 0 71 71 71 71 71 71 71 l 1 71 71 71 71 71 71 70 ! 2 71 71 71 71 71 71 70 3 71 71 71 71 71 71 70 4 71 71 71 71 71 71 70 i 5 71 71 71 71 71 71 70 ! 6 71 71 71 71 71 71 70 l 7 71 71 71 71 71 71 71 l 8 71 71 -71 -71 72 71 71 J 72 72 72 72 71 -71 [ 10 9 71 72 72 73 72 l ! 72 72 71 , 3 11 72 73 72 73 73' 72 73 l l 12 73 74 73 -74 74 72 74 l- 13 74 75 74 75 76 73- 75 14 75 77 75 77 77 74 76 4 15 82 84 80 87 86 79 85 4 16 83 85 81 88 87- 79 86 l 17 84 87 82 90 89 80 87 j 18 85 88 83 91 90 81 89 i 19 86 89 84 93 92 82 90 [F 20 21 91 94 89 99 97 86 96 -22 94 97 92 103 100 -88 99 l 23 97 100 95 107 104 91 103 i 24 100 103 - 99 111 108 94 -107 F 25 104 107 103 116 112 97 112 , ! 26 108 111 107 121 117 101 116 l 27 -113 115 111 126 121- 105 121 28 117 120 115- 131 126 109 126 29 122 ' 12 4 ~ 120 136 131 114 132 30 128 129 125 141 136 119 137 31 133 133 131 147 141 -124 143 32 138 138 '136 153 146 129 149 33 144 143 142 158' 151 135 155 34 149; 147 - 147- 164 157- 141 . 160. 35 155 152 153 170 162 148 165 36 160 157 159 ~176 3168 155- 170 37 166 -162. 166 181 -173 161 174 38- 171 167 174 186 177 167 179 39 -176 171 180 190 --182- 172 182. 4 0 -- .180 176- 185= 194 185' 177. -186 _f +,, \o. / 4 333 Texas Utilities Electric Schemo 091 November 3,1992 Time TC # 169 TC # 170 TC # 171 TC # 172 TC # 173 TC # 174 TC # 175 (min) ('F) ('F) (cF) ('F) (*F) ('F) ('F) 41 184 180 189 198 189 181 189 42 188 184 192 201 192 185 193 43 191 188 195 204 195 189 -196 44 194 192 197 206 198 192 198 45 197 195 199 209 201 195 201 46 199 198 201 211 203 197 204 47 202 201 202 214 206 200 206-48 204 204 204 216 209 202 209 49 206 207 205 219 212 203 211 50 208 210 206 221 215 205 214 51 210 212 207 224 218 207 217 52 211 215 209 228 221 209 219 53 213 218 210 232 225- 210 222 54 215 221 211 236 229 212 226 55 217 224 212 240 233 214 229 56 219 227 213- 245 238 216 233 57 221 231 214 249 242 218 238 58 224 235 215 253 246 220- 242 59 227 239 216 258 250 222 246 60 230 242 218 264 254 225. 250-61' 62 63 64 65-66 67 ' 6,8 69 70- -71 72 73' 74 75 Max 230 242 218 ~264 - 254 225- 250 ***0s 'Ogggo 334
- Texas Utilities Electric Scheme #91 November 3,1992 l
l Time TC # 176 TC # 177 TC # 178 TC # 179 TC # 180 TC # 181 TC # 182 - (min) (*F) (*F) (*F) ('F) ('F) - (*F) (*F) l 0 70 71 71 71 71 73 74 i 1 70 71 71 71 71 73 74 2 70 71 71 71 71 73 74 ! 3 70 71 71 71 71 73 74 ' 4 70 71 71 71 71 73 74 5 70 71 71 71 71 73 74 ! 6 70 7i 7i 71 71 73 74 l 7 71 71 71 71 71 73 74 l 8 71 71 71 71 72 73 -74 ! 9 71 71 71 72 72 73-- 74- ! i 10 72 72 71 72 72 73 74 I '11 73 72 72 73 73 73 74 ! 12 74 73 73 74 74 73 74 !_ 13 76 75 74 76 76 73 74 4 14 78 76 75 77 77 73 74 l 15- 88 84 82 86 85 74 74
- 16 90 86 83 88 80' 74 74 l 17 92 87 84 89 88~ 74 74
- 18 93 89 86 91 89 74 75 j 19 95 90 87 92 90- 74 75 l 20 j 21 101 96 92 98 95 74 75 l 22 106 99 96 102 99 74 75 l 23 110 103 99 106 102 74 76
- 24 115 107 103 110 106 -75 76
! 25 119 111 107 114 110 75 77 l 26 124 116 111 , 119 114 75 77 i 27 129 120 115 124. 118 76 78 l 28 135 125 119 129 122 76- 78 !. 29 140 130 123 134 127 77- 79 30 146 135 128 140 131 77 80 31 152 140- .132 145 136 78 80 l 32 158 145 137 151 141 78 81 ! 33- 164 -151 142 157 146 79 82 > 34- 170 157 148 .162 151 80 83 1 -35 _ 176 162 153 168 155 80 84 i i- 3 8 -- 182 168 160- 1_73 160 , 81 - ; 8 5_ , 37 187 174- 166 178 165 82- 86' j 38 192 179 172- 183 170 83~ 87 l' 39 '196. 183 178 -187 174 84- 88 .40 -109 188 183 191 .178 85- 89-( %., a wa$ . - - - - - . ~ . - - _ . . . - . _ - - - . - _ - . . . - - . - . - . - - 4 I Texas Utilities Electric Scheme 091 November 3,1992 0 i l l Time TC # 176 TC # 177 TC # 178 TC # 179 TC # 180 TC # 181 TC # 182 4 (mln) ('F) ('F) ('F) (* F) (*F) (*F) (*F) i i- 41 203 192 187 194 183 86 90 l- 42 206 195 191 198 186 87 91 l l 43 208 199 195 201 190 88 93 } 44 210 202 198 203 193 89 94 ! 45 213 204 201 206 196 -91 95 1 46 215 207- 203 208 198 92 97 ' j 47 217 209 205 210 201 93 98 i 48 219 211 207 212 203 95 99 > 1 49 221 214 209 214 206 96 101 ; i 50 224 216 210 216 208 97 - 102 ! 51 227 219 211 218 211 99 104 I 52 230 221 213 219 213 101 105 ] 53 234 224 214 221 215 102 107 j 54 238 227- 215 223 217 104 108 55 242 231 216 226 219 105 110 56 246 235 217 229 221 107 112 ' t 57 250 238 218 232 223 109 113 l 58 254 242 220 235- 226 110 115 ; i- 59 259 246 221 239 229 112 117 l 60 265 200 223 242 232 114 119 j 61 -62 63 3 64 65 - 66 67 68 ' i 69 /
- . 70 71 72 73 74 75 4
Max '265 250 223 242; 232 114; --119 ~ OA *o 396 Texas Utilities Electric Scheme 091 November 3.1992 Time TC # 183 TC # 184 TC # 185 TC # 186 TC # 187 TC # 188 TC # 189 (min) (*F) (*F) (*F) (*F) (*F) (*F) ('F) 0 74 74 74 74 73 73 73 1 74 74 74 74 73 73 73 I 74 73 73 2 74 74 74 -73 3 74 74 74 74 73 73 73 4 74 74 74 74 73 73 73 5 74 74 74 74 73 73 73 6 74 74 74 74 73 73 73 7 74 74 74 74 73 73 73 8 74 74 74 74 73 73 73 9 74 74 74 74 73 73 73 10 74 74 74 74 73 73 73 11 74 74 74 74 73 73 73-12 74 74 74 74 73 73 73 13 74 74 74 74 73 73 73 14 74 74 74 74 73 73 73 15 74 74 74 74 73 74 74 16 74 74 74 74 74 74 74 17 74 74 74 74 74 75 74 18 74 74 74- 74 74 75 74 19 74 74 74 74 74 75 74 20 21 74 74 74 74 74 75 75 22 74 74 74 74 74 -76 -75 23 74 74 74 75 74 76 76 24 74 74 74 75 74 77 76 25 74- 74 74 -75 75- 78--- 26 75 74 75 76 75- 78 78 -27 75 75 75 76 75 79 78 28 75 75 75 =76 76 80 79 29 75 75 -75 77 '77 81 80-30 76 75 75 77 7/ 82 81 31- 76 75 76 78 78 83 82 '32- 76 '75- 76 79- 79- 84 33 77 76 76 79 79 85- 84 34 77 76 77 80 80 86 85. 3 5 __ _78 76 77_ 81 ;81 87. 86 36 -77 77 92 82- -88 87L 37 '79 77 78 82_ 83 90 88 38 -79 '7 8 - 78- 83 84 91 90 39 .80- 78 -79 84 85: 92 91 4 0 -- 81 .79 79 85 86- 94 92. GA' *of 5 ..,/ 1 Texas Ut;;ities Electric Scheme #91 November 3,1992 4 0 ~I VJ Time TC # 183 TC # 184 TC # 185 TC # 186 TC # 187 TC # 188 TC # 189 (min) (*F) ('F) (*F) (*F) (*F) ('F) ('F) 41 82 79 80 86 87 95 93 42 83 80 81 87 88 97 95 43 83 81 81 88 89 98 96 44 84 81 82 89 91 100 97. 45 85 82 83 90 92 101 99 46 86 83 83 91 93 103 100 47 07 84 84 93 44 104 102 48 88 85 85 94 96 106 103 49 89 86 86 95 97 108 105 50 91 87 87 96 99 109 100 51 02 88 88 97 100 111 -108 52 93 89 89 99 102 113 110 53 .94 90 90 100- 103 114 -111 54 95_ 91 91 101 .105 116 1.13 55 96 92 92 102 106 118 115 56 98 93 93 104 108 120 116 57 99 94 94 105 109 121 118-58 100- 95 95 107- 1.11 123 120; 59 102 96 96 108 113 125 122 60 103 98 98 109 114 127 124 61 62 63 64 65 66 67 ' 68 69 70 71 72 73 74 75 Max 103 98 98 109- 114 1277 :124 .+I 4, . '%./ \ .. Texas Utilities Electric Scheme 091 November 3,1992 398 Time TC # 190 TC # 191 TC # 192 TC # 193 TC # 194 TC # 196 TC # 196 (min) ('F) (*F) (*F) ('F) ('F) ('F) ('F) 0 73 73 73 73 73 74 74 1 73 73 73 73 7 3 -- 74 74 2 73 73 73 73 73 74 74 3 73 73 73 73 73 74 74 4 73 73 73 73 73 74 74 6 73 73 73 73 73 74 74 6 73 73 73 73 73 74 74 7 73 73 73 73 74 74 74 8- 73 73 73 73 74 74 74 9 73 73 73 73 74 74 74 10 73 73 73 74 74 74 74 11 73 73 73 74 74 74 74-12 73 73 73 74 75 74 74 13 73 73 73 74 75 74 74 14 74 73 73 75 76- 74 7 4 --
- 15. 75 74 74 77 79 76 -74 16 75 74 74 77 79 76 74 17 75 74 74 78 80 76 74
-18 75 74 74 78 80 76 74 19 76 74 74 78 81 76 74 20 21 77 74 75 80 83- 77 75 22 77 75 76 81 84 78 -75 23 78 75 76 82 86 79 75 24 '79 76 77 83 87 80 75 26 80 76 77 85 89- 81 76 . 26 81 77 78 86 91 82 76 2,7 82 77 79 87 93 83 76 28 83 78 80 89 95 85 77 29 84 79 80 91 97' 86 77 30 85 80- 81 92 99- 88 78 31 86 80 82 94 101 90 78 32 87 81 83 96 103 91= 79 33 89-- 82 84 98 106- 93 80 34 90 83 85 100 108- 95 80 35 91 84- 86 102 110 97 81 36 93 85 88 104 113 98 82 - 37 94 86 89 106 115 100- 83 ' 38 95 88 90 108 117- 102 84 ' 3 9. 97 89 110 120 104- 85 40- 98 90 92 112 122 105 86 [ 'g %J __ __ ____ ___n Texas Utilities Electric Scheme 091 November 3,1992 3S9 Time TC # 190 TC # 191 TC # 192 TC # 193 TC # 194 TC # 195 TC # 196 (min) ('F) (*F) ('F) (*F) (*F) ('F) (*F) 41 100 91 94 115 124 107 88 42 101 92 95 117 127 109 89 43 103 94 96 119 129 111 90 44 104 95 98 122 132 112 92 45 106 96 99 124 134 114 93 46 107 98 100 126 137 116 94 47 109 99 102 129 139 118 96 48 111 101 103 131 142 119 97 49 112 102 105- 134 145 121 99. , 50 114 104 106 137 147 123 100 51 116- 105 108- 139 150 125 102 i 52 118 107 109 142 153 127 103 53 119 108 111 145 155 129 105 54 121 110 112 148 158 131 106 SS 123 111 114 151 161 133 108 56 125 113 116 154 164 135 110 57 127 115 118 157 167 136 111 58 129 117 120 160 170 138 113 59 132 118 121 103 173 140 114 60 134 120 123 166 176 142 116 61 62 63 64 65 66 67 68 69 70 71 72 73 ; =74 75 Max 134 120 123 166 176 142 116 ***0s 4... ./ ---u Texae Utilities Electric Scheme #91 November 3,1992 3.'s 0 Time TC # 197 TC # 196 TC # 199 TC #200 TC # 201 TC # 202 TC # 203 (min) ('F) ('F) (*F) ('F) (*F) ('F) (*F) 0 74 74 73 73 73 73 73 1 74 74 73 73 73 73 73 2 74 74 73 73 73 73 73 3 74 74 73 73 73 73 73 4 74 74 73 73 73 73 73 5 74- 74 73 73 73 73 73 6 74 74 73 73 73 73 73 7 74 74 73 73 73 73 73 8 74 74 73 73 73 73 73 9 74 74 73 73- 73 73 -73 10 74 74 73 73 73 73 73-11 74 74 73 73 73 73 73 12 74 74 74 73 7? 73 73 13 74 74 74 74 73 73 73 14 74 74 -74 74 73 73 73 15 75 75 75 75 73 74 73 16 75 75 76 75 74 74 73 17 76 75 76 75 74 74 74 18 76 75 76 75 74 75 74 19 76 76 76 75 75 75 75 20 75 76 75 21 77 76 78 76 76 76 76 22 77 77 78 76 76 77 76 23 78 78 79 77 77- 78 77 24 78 78 80 78 78 79 78 ' 25 79 79 81 78 79 80 79 26 80 80 83 79 80 81- 80 27 81 81 84 80 81 82 -81 28 81 82 86 81 82 83 82 29 82 83 87 82 83 84 83 30 83 85 89 .84 84 85 84 - 31- 84 86 91 85 85 87 86-32 85- 8,7 ' 93 '86 86 88 87 33 86 8L 9 - 95 87 88 89- 88 '34 87 90= 96 89 89 91- 90 35 88 92 98 90- 91- 92. 91 -36 90 93 100 92 92 94 92 37 91 95 102 93 93 95 94-38 92 -96 104 95 95 97 95 39 93 98 -106- 96 97 98. 97 40 95 99 108 :98 98 100 -99 g %,J 331 Texas Utilitios Electric Scheme 091 November 3,1992 Time TC # 197 TC # 198 TC # 199 TC #200 TC # 201 TC # 202 TC # 203 (min) ('F) ('F) (*F) ( ' F '. (*F) (* F) (*F) 41 S6 101 11C 99 100 101 100 42 98 103 112 101 101 103 102 43 99 104 114 103 103 105 103 44 101 100 116 105 104 106 105 45 102 108 118 106 106 108 107 46 104 109 120 108 108 109 108 47 105 111 122 110 110 ill 110 48 107 113 124 111 111 113 112 49 109 115 120 113 113 115 113 50 110 116 128 115 115 116 115 51 112 118 130 117 117 118 117 52 114 120 132 119 118 120 119 53 115 122 135 120 120 122 121 54 117 124 137 122 122 124 123 55 119 126 139 124 124 126 125 56 121 128 141 126 126 128 127 57 123 130 144 128 129 131 129 58 124 132 146 130 131 133 132 59 126 134 148 132 133 135 134 60 128 136 151 134 135 138 137 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 Max 128 136 151 134 135 138 137 #"#0e %J [ ! 392 i Texas Utilities Electric Schomo 091 November 3,1992 I l Time TC # 204 TC # 206 TC # 206 TC # 207 TC # 208 TC # 209 TC # 210 ( (min) (*F) ('F) (* F) (*F) (*F) ('F) ('F) } 0 72 73 73 73 73 73 73 l ! 1 72 73 73 73 73 73 73 , I ! 2 72 73 73 73 73 73 73 , 3 72 73 73 73 73 73 73 ! 4 72 73 73 73 73 73 73 i 5 72 73 73 73 73 73 73 l 6 72 73 73 73 73 73 73 i 7 72 73 73 73 73 73 73 3 8 72 73 73 73 73 73 73 9 72 73 73 74 73 73 73 j
- 10 72 74 74 74 73 74 73 74 74 74 74 73 -
11 72 74 { 75 74 75 74 74 74 12 72 13 72 75 74 75 74 74 74 { 14 72 '/ 6 75 76 74 75- 74 l 16 73 77 75 77 74 75 75 l 16 73- 78 76 77 74 76 75 i 17 73 79 77 78 75 77 76 i 18 73 80 77 79 75 77 76 - ! 19 73 82 78 81 75 78 77 ! 20 74 83 79 82 76 79 78 l 21 74 84 80 83 76 80 79 ! 22 74 86 81 85 77 81 _ 80 l 23 75 88- 82 88 77 82 81 l 24 75 89 83 90 78 84 83 ' 25 76 91 85 93 79 85 84
- 26 76 -93 86 95 80 86 86 27 77 95 88 98 81 88 87 .
c 28 78 98 89 101 82 89 89 l 29 78 100 91 103 83 91 91 1 30 79 102 93 106 84 92 93
- 31 80 105 95 108 85 94 95 32 81 107 97 110 87- 96 97 i
33 82 110 99 113 88 98 99 . 90 i ! 34 82 112 101 115 99 102 i 36 83 115 103 ~117- 92 101 104 36 84- -117 105 119 93 103 106 i 37 ~85 120 107 122- 95 106- 108 38 86 122 109 124 -97 '108 111 39 88 125 111 -126. 99L 110 113
- 40 -89 128 114 128 101 -112 116 f* * **g _
04ATO 393 Texas U?ilities Electric Scheme #91 November 3,1992 i i . I j Time TC # 204 TC # 205 TC # 206 TC # 207 TC # 208 TC # 209 TC # 210 (min) ('F) (*F) (* F) ("F) (*F) (*F) (*F) l 1 41 90 130 116 130 103 114 118 42 91 133 118 132 105 116 120 j 43 92 136 121 135 107 119 123 44 93 139 123 137 109 121 125 45 95 142 125 139 111 123 127
- 46 98 144 128 141 113 125 130
! 17 97 147 130 143 116 127 132 ! 48 98 150 133 145 118 129 134 49 100 153 135 148 120 132 -137
- 50 101 156 137 150 122 134 139
- 51 103 160 140- 152 124 136 141 -)
52 104 163 143 154- 126 138 144 ! ! 53 106 166 145 157 128 140 146 l 54 107 169 148 150 129 142 149 j 55 109 173 151 161 131 144 151- ! 56 110 176 153 164 133 -146 '154 57 112 180 156 166 135 149 156- ,
- 58 113 183 159 169 137 151- 159 59 115 187 162 171 139- 153 161 60 117 191 165 174 140 155__ 164 e 61 62
- 63 l 64 65 l 66 67 68 69 70 71 72 -
73 74 75 . Max 117 191 165 1.74 140 -155 164) l g,o * *o, o' .4 *ogago+ 1.- - . - - - - - - . - -. _ ._ Texas Ut;lities Electric Scheme 091 November 3,1992 Time TC # 211 TC # 212 TC # 213 TC # 214 TC # 216 TC # 216 (mln) ('F) (*F) (* F) ('F) (*F) ('F) . 0 73 73 72 72 72 72 1 73 72 72 72 72 72 2 72 72 72 72 72 72 3 72 72 72 72 72 72 4 72 72 72 72 72 72 6 72 72 72 72 72 72 6 73 72 72 72 72 72 7 73 72 72 72 72 72 8 73 73 72 72 72 72 9 73 73 73 73 72 72 10 73 73 73 73 73 72 11 73 73 73 73 73 73 12 73 73 73 74- 73 73 13 74 74 '73 74 74 73 14 74 74 74 75 74 74 16- 75- 74 74- -76 74-16 - 7 5- 75 75 76 76 75 17 76 75 76 78 77 75 18 77 76 77 79 78 -76 19 77 77 78 80 80 77 20 78 78 79 81 81 78 21 79 78 80 83 83 79 22 80 79 81 85 84 80 23 82 80 83 86 86 81 24 83 82 84 88: 88 82 26 84 83 86 90 90 83 26 86 84 87 92 92 85 27 88- 86 89 ' 94 94 86 28 90 87 91 96 96 87' 29 93 89 93 98 98 89 30' 95 90 94 100 100 90 31- 97- 92 96 102 102 92 32 99 94 98 104 104- 93 33 101- 96 100 106 106 95 34 104 97 102 108 108- 96
- 36. 106 99 104 110 111 98-36 108 101 106 112 113 100-37- 110- 103 108 115- 115 102 38 112 106 110 117 117 103 39 114 108 112 119 119 105 40- 117 110' 114- 121 122 107 f *%,
Oggo Texas Utilitics Electric Schome 091 November 3,1992 395 Time TC # 211 TC # 212 TC # 213 TC # 214 TC # 215 TC # 216 (min) ('F) ('F) (*F) ('F) (* F) ('F) 41 119 112 116 123 124 108 42 121 114 118 125 126 110 43 123 116 120 128 128 112 44- 125 118 122 130 130 114 45 127 120 124 132 132 115 46 129 122 126 134 134 117 47 132 124 128 136 136 119 46 134 126 131 139 139 121 49 136 129- 133 141 141 123 50 138 131 135 144 143 125 51 140 133 137 146 146 127 52 142 135 140 149 148 129 53 145 137- 142 152 151 131 54 147 139 145 155 154 134 55 149 142 147 157 156 136 56 152- 144 150- 161- 159 138 57 154 146 153 164 162 141 56 157 148 156 167 165 143 59 159 151 159 _170 169 146 60 162 153 161 174 172 148 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 Max 162 153 161 174 172 148 + h.,) . hum i'su o - o - - ! UvU Texas Utilitioe Electric Scheme 091 Novonbor 3,1992 Time Ambient Furnace # 1 Furnace # 2 Furnace # 3 Furnace # 4 Furnace # 5 (min) (*F) ('F) (*F) (*F) ( F) (* F) 0 67- 69 69 69 69 68 1 66 178 142 181 159 til 2 66 775 621 659 687 392 3 66 995 1026 937 989 821 4 65 948 1007 932 979 890 5 63 869 928 873 908 848 6 64 843 880 858 868 821 > 7 64 1155 1134 1153 1105 1002 8 63 1339 1368 1322 1341 1261 9 64 1273 1376 1275 1302 1283 10 64 1224 1357 1229 1259 -1269 11 63 1346 1477 1345 1354 1350 12 63 1444 1595 1458 1477 1427 13 63 1378 1539 1391 1421 1418 14- 64- 1291 1483 1310 1346 1367 15- 63 1285 1444 1291 1318 1356 16 63 1371 1509 -1376 1392 1420 17 64 1447 1562 1468 1483 1488 18 64 1433 1577 1451 1476 1497 ' 19 95 1409 1570 1421 1455 1483 20 63 1398 1539 1448' 1461 1468 21 64 1390 1521 1456 1462 1457 22 63 1415 1527 1489 1487 1481 23 64 -1471 1565 1544 1538 1522 24 64 1502 1586 1577 1574 1550 - 25 63 1489 1584 1562 1561 1544 26 63 1473 1575 '540 . 1541 1530 27 63 1457 1556 1522 1522 1515 28 63 1448 1547 1508 1510 1507 29 63 1465 1550 1519 1525 1521 30 65 1507 1582 1554 1559 1551 61 63 1537 1607 1582 1588 1578 32 63 1563 1630 '1606 1616 1604 33 63 1583 1648 1623- 1633 1621 34 65 1589 1652 1628 1642 1629 35 64 1586 1649 1625 1641 1629 36 63 1580 1645 1620 1634 1625 37 64 1576 1640 1615 -- 1630 '1622 38 62 1572 "1634 1609 1624 1617 39 62 1568 1631= 1604 1619 -1613 40- 63 1566 1628 1600 1616 1612 p* * 'o, *owof .___________m . . . _ _ _ _ . _ _ _ _ _ _ _ _ . . _. . _ _ . . _ . _ . . _ . _ . _ _ . _ _ . _ _ _ J Texas Utilities Electric Schemo #91 Novenbor 3,1992 Time Ambient Furnace # 1 Furnace # 2 Furnace # 3 Furnace # 4 Furnace # 5 (min) ('F) ('F) (*F) (*F) ('F) (*F) 41 63- 1564. 1628 1597 1612 1609 42 62 1569 1630 1600 1612 1611- + 43 63 1580 1640 1607 1620 1618 ! 44 63 1594 1651 1618 1628 1628 45 63 1602 1658 1627 1636 1636 ; 46 63 1604 1659 1627 1639 1638 47 62 1608 1664 1630 1642 1643 48 64 1610 1664 1632 1641 1644 49 63 1616 1666 1635 1646 1646 50 63 1619 1670 1638 1648 1649 51 63 1630 1678 1645 1654. 1654 52 62 1655 1697 1666 1675 1673 53 61 1672 1711 1682 1693 1689 54 61 1688 1725 1696 1708 1702 55 60 1699 1735 1706 1718 1714 56 61 1707 1743 1715 1726 1721 57 60 1716 1751 1722 1734 1725 58 60 1727 1723 1758 1742 1733 59 -60 1730 1762 1734 1747- 1736 - 60 61 1732 1764 1737 1749 1742 61 62 63 64-65 66 67 66 69 70 71 72 73 74 75 l 1 l l / 5.',4AT O p l ,- , . _ , _ _ . _ . , , . . _ _ . . . , . . _ _ _ , . , ,_;,,.,_, ,_,,g_,_,,,_._,._,,_,___,. . ;, l 395 Texas Utilitios Electric Schemo 091 Novenber 3,1992 Time Furnace # 6 Furnace # 7 Fittnace # 8 Furnace # 9 Furnace # 10 (min) -('F) ('F) ('F) (*F) ('F) 0 69 69 69 68 69 1 106 171 99 120 216 2 330 758 298 393 785 3 623 1077 631 673 961 4 719 1044 738 722 906 5 714 956 729 704 827 6 708 809 7PO 700 82P 7 840 1161 669 858 1167 8 1079 1398 1131 1113 1319 9 1125 1355 1162 1109 1235 10 1130 1298 1172 1092 1178 11 1264 1385 1303 1226 1320 12 1369 1515 1391 1336 1398 13 1347 1457 1370 1295 1315 14 1283 1380- 1309 1226 1228 15 -1271 1349 1307 1217 1219 16 1340 1414 1382 1310 1333 -17 1405 1504 1449 1376 1392 18 1412 1533 1463 1376 1370 19 1396 1543 1451 1353 1342 20 1383 1544 1442 1333 1326 21 1371 1531 1429 1322 1319 22 1390 1543 1451 1352 1358 23 1436 1578 1493 1403 1421 24 1472 1634 1524 1441 1459 25 1466 1597 1514 1435 1441 26 1452 1582 1500 1422 1424 27 1439 1555 1487 1407 1405 28 1431 1545 1478 1401- 1398 29 1444 1549 1493 1418 1423 30 1481 1583 1524 1460 1475 31 1509 1600 1547 1489 1511 32 1533 1631 1569 1518 1541 33 1553 1648 1589 1536 1559 34 1563 1655 1598 1546 1561 35 1564 1655 1502 1545 1553 36- 1560 1647- 1599 1541 1542 37 1559 1641 1596- 1537 1537 38 1557 1637 1592 1534 1532 39 1552 1633 1589 1531 1528-40 1551 1630 1586 1530 1527 f* * *0s *o,,co # , i i Texas Utilities Electric Scheme #91 Novenber 3,1992 390 l i
- Time Furnace # 6 Furnace # 7 Furnace # 8 Furnace # 9 Furnace # 10 l i
8 (min) (*F) (* F) ('F) ('F) (*F) 41 1550 1628 1585 1528 1526 42 1553 1629 1588 1531 1532 ) i 43 1561 1636 1596 1541 1547 l 44 1572 1647 1604 1554 1565 j 45 1581 1654 1612 1564 1574 ! 46 1584 1656 1614 1566 1577 l 47 1588 1658 1818 1571 1681 } 48 1591 1660 1620 1573 1585-l 49 1595 1665- 1624 1580 1588 1 -50 1597 1667 1627 1582 1589 ' } 51 1604 1( /4 1633 1589 1602 i 52 1622 1695 1649 1611 1632 ! 53 1637 1711 1662 1628 1651
- 54 1651 1726- 1673 1641 1668 s j .55 1661 1738 1683 1655 1675 l l 56 1669 1745 1691 1663 1684
- 57 1677 1751' 1697 1672 1694 l 58 1684 1758 1703 1679 1703
! 59 1690 1763 1709 1687 1708 i 60 1693 1765 1714 1690 1710 l 61 ! 62 ! 63 f 64 ! 65 l 66 l 67 j 68 i 69 l 70 71 ' , 72 . 73 74 75-t h a: a Oggt0 () O il Iteport No. 12340 94367a Noverninr 23,1992 Texas Utilities Electric API'ENDICES l l l l ) Appendix H QUALITY ASSURANCE i OA& 4 0 +4 4 50 4ATO/ 1 1 401 Report No. 12340-94367a Novemb2r 23,1992 Texas Utilities Electric APPENDICES Quality Assurance Statement 3 Omega Point Laboratories, Inc. is an independent, wholly owned company f incorporated in the state of Texas, devoted to engineering, 'nspection, quality l assurance and testing of building materials, products au, essemblies. The !) company has developed and implemented a Quality Assurance Program designed to provide its clients with a planned procedure of ordor and document processing for inspection and testing services it provides to assure conformity to requirements, codes, etandards and specifications. The Program is designed to meet the intent of ANSI 45.2 Quality Assurance Program Requirements for ' Nuclear Power Plants, and compiies 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 offared 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 Manc.ger, 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 aro 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 inspec' ion by authorized personnel in the performance of an on site QA Audit. All materids, services and supplies used herein were obtained with appropriate QA Certifications of Compliance, which may be found in the following oages. 6 o p 0A #o f A f 49 04ATo l Report No. 12340-94367a No,emhar 23,1992 40'0 Texas Utilities Electric APPENDICES A d 4 Acceptability Docurnentation i 4 1 5* %oc #e 11 .. - .=. . _ . . - - 403 ACCEPTABILITYDOCUMENTATION 1 1 SCHEME # 91: PROJECT NO. 94367A The following signatures attest to the review and acceptance of each attribute listed regarding the above noted test article: I. CABLE TRAY / CONDUIT ASSEMBLY b l w . 9'/6/92. Omeg'a Point Laboratories, Inc. 17 ate 9-15-9 1 TU Elect /ric (CPSES) Date II. ELECTRICAL CABLE INSTAILATION l 9l/dl92 O oin aboratories, Inc. Date ' ' ( ahA 9-/G -91 fu Electr1 e(CPS $@F Date III. THERMOCOUPLE ISTTALLATION 4 9l$//9A OmegtiPalnt Labora% hies, Inc. Date w& 9 - 2 1 '11 TWElebtri(iQPSES) Date n+ *% , Ebo Acceptability Documentati:n Project 94367A ' 4.hj ' Scheme #91 P:ge 2 cf 2 i IV. FIRE PROIECTIONBARPJER f ehr/n ' l Omegi Point Laboratories, Inc. Da'te ! ,M,4 9 -28 si 2. a TU Electric 4CPSES) Date a l V. FINAL PRE BURN INSPECTION 4 A - OmegtiP int LaborMories, Inc. ohha Date i-(',J2.- cdA i/-3 -?1 TITElbc t.ric(CRS38) Date 2 k s 4 rl b p A QJ q m *c*p- wsur
- w e s+t-- un+-- -w
Report No.12340 94367a November 23,1992 Texas Utilities Electric APPENDICES Appendix I PHOTOGRAPHS s (* * 'o (/ G24 Report No.12340-94367a November 23,1992 Texas Utilities Electric APPENDICES O m Eg . . lg _ I 9 .e . - (?j 4 t 4 1 .l ; l TP ~ i Empty conduit systems installed in test deck. i 1 1 1 SCHEME #9-1: 94367 A Electrical cable installed in the 3/4 in. O condulet. O f ~ %., '%/ G21 Raport No.12340-94307a November 23,1992 Texas Utilities Electric APPENDICES O l l l l i9 . i n .. , l k :1 = - .;;w y* 7: g >, :n i Installing electrical cable into 5 in. o conduit system. SCHEfAE #91* i: 1 Electrical cable installed in the 5 in. o condulet. O p %, %,/ L .._ .- _ _ _ _ _ _ _ _ _ _ _ _ _ - - O2E [ I Report No.12340 94367a November 23,1992 Texas Utilities Electric APPENDICES i O i .. (. m > a ; j _s i-l . g* . f ~' N . ft g.; ( } } / . 3 ! I s. ;~ .. d'
- H x, 1
Installing electrical cable into the 3 in o conduit system. -{ ' , l 1 ; - I . lp I y.a )?Q ~ a' Electrical cable installed in the 3 in. o condulet. O ,e %, i 0 4ATO G2 Report No.12340-94367a November 23,1992 Texas Utilities Electric APPENDICES O 4 4M ,M .. . l is. m: M l1 , a a ~4 # l . .
- m. ' .. Y. !
1 . 1 ,,' \ All cables installed into the conduit systems and condulet covers installed. .~~ r i .- t 3 .; . A__ s : . . l. .
- L
~ Thermocouples installed on all conduit systems. O p %., %J G2e Report No.12340-94367a November 23,1992 Texas Utilities Electric APPENDICES O .*( = , ~ ..< z.- -p 4 S q . s \ 'g . t t --.. ~ f- ;' I- ,r .} ~ . .... , T .,4 3 T 6 r ~^ Lk _l Thermo-Lags Pre shaped Conduit Sections installed on straight conduit runs. V:r4eam 1~ll. , ~~g;;y . nl'% ~' . ;g -1 A _ p, h Installing Thermo-Lag @ flat panel on unistrut support members. O s % .4 O- . Ogg70 OY Report No.12340-04367a November 23,1992 Texas Utilities Electric APPENDICES O , , . m .. b, . , y.
- ._ ,y+ y. 1l w e._ 4 -
pgs.4c- .. . ;- . $. +se $^. 5-N. Installing Thermo-Lag
- Conduit Sections over joint under support meniber,
,. :s $ :b \ J, . l -J: - ,. w . + ,8 . .; . .v ; '.5 . i; - . , . , . . *3 .g . , g .3 [I t --g ,;Q . , . e 3,, Banding installed over pre-shaped conduit sections. O f'% f 4 Oggg G?! Report No.12340-94367a November 23,1992 Texas Utilitics Electric APPENDICES O ,)l E ' d,y . k. , I .U l + f , ;an ,.? . ( y l r . \ Q l Banding installed over miter cut conduit sections on radial bends. l l l l \ x , p . P/ ' f f/ ., .,: f f( %\. : ] ..d Trowel grade material applied over miter-cut sections prior to overlay. O y %, AT 1 b.9 Report No.12340-94367a November 23,1992 Texas Utilities Electric APPENDICES .O i , 1;c ,4 rQMJ g} 4 -" t u 9 =- ,- y y -9 ,- i- :1 't :;y 1 '3] s.. T I M g - .3 ~% ?k3 k,; , . .- w v. ?) -- c7 ::vlt - ,1 + $ l l:.. . - .b i Depth verification of trowel grade material. y ., 4.. ,. t f2 / o > ? , ! ? ' i I .3 .. y , Tie wire installed over miter-cut sections, O f"g (,/ ( I G '0' C I' Report No.12340-94367a November 23,1992 l Texas Utilities Electric APPENDICES l l lO ~~ ~{;4 - .) t ! , :lp _ L
- v l -i:
Wp--~. i ll L .~ , _ ; P* ,, y ~~,, l l 71 g.f " , . ~. y so ' , r ): I Vn h.' Radial bend c vered with miter-cut sections held in niace with tie wire. O n a? c q I t \ '. pl
- p.,
s .t e , #4 . i Stress-skin wraps applied on radial bend.
- O. p~O, A O
I Osyggo _ . _ . . _ . . - . _ _ . _ . . . . _ _ . . . . . _ _ _ _ _ _ . . ~ _ _ _ _ _ _ _ _ Report No.12340-943C7a November 23,1992 GOC '* Texas Utilities Electric APPENDICES l l i !O \ p - [ i I' - ) }v f#4 i . . t' : l l1 p ' l t ;, ;,:.2 i i 1 Installing tie wire to hold stress-skin i: place. hr$ paw.a .==.- 5 -,. .. s %t , l ! ;' l l l l . . l $ 4.. a 1. _.y e' - , l 4 4, Staples further secure the stress-skin wraps. O f'% (/ l C .] Report No.12340-94307a November 23,1992 Texas Utilities Electric APPENDICES O 7R v t ., - 1 ; 1 1 g 1 ' ^' 9..t. d' g ( . L' 5 ,, , Installing 1/4 in, overlay on 3/4 in, o conduit. m-g ~ R 7, -y ,fe l A ! f, t. i g 3 .q ..O IQbSN y .3 ,3 y ,- Installing banding material to secure 1/4 in, overlay to 3/4 in. o conduit O Os~ %.A 0 4ATO G31 Report No. 12340-94307a . November 23,1992 Texas Utilities Electric APPENDICES O aa .e.r ; .- # 0 0; ~~ ~ p- j t . .i ,,v,, LJ ' l: ' \ t ? ', ; vi + _v l 1, t } s, 'y . O S*""'"'i" "r""" "99'i e d """ * * ' r~ c"' ver'"' ""c'i "" "" r"di"' ' "d- { r. 4 ft : 'e , 8 s g s .. > . ~.. $p ;' Trowel grade applied over stress-skin upgrade. O g %., 5*%eo *e ___.,,_m______._..m__. GJ: Peport No. 12340-94307a November 23,1992 i Texas Utilities Electric APPENDICES I i O g~ ;' j , {. . . ; i l > \ l l ! l asas:sas ! l ' / i i
- m' p. .
1 W' ^" """ d " ' ' ' ' * " ' " "' ' e d - O ! i.e- ; l i l l t s s; ? l N 7 f W ~ l ! # O i l Installation of LBD box. .O f %,A l O [f t l -nn,-.,~ G ;1,1 l > I!! ' '8 - I'l 5'.f ft 94.6, - ) I 'I h - }' l} 4'i - 3 j T. xn l!hhtler E irt t r e. il'i'F JI'h ? E' l lO 4 4 .J W ', L, \ l - - 1 1
- 1 '
I . ', . } ., l }i j . l;, W( .. 4 :
- h. M l ,
lO l '"""""""" " " " " " " " " ' " " " " * " " " ' " " ~ . L ! L X j l i . a l 3, - : l '% *W l j .1- c , * ~ ~ 2 y '\ - l ( ., 4 f l I - A ~ k m +. nu, , 0nidt*ltr(j I,l',1) lu ix' .w(*iir't- ;< r'i n i s ( * , (illt,ilgsjjjj(r.igyt.l4;r;g,]i.,gg;;gg(,rigl, ( O. 1 e+ ~ .'s i
- r e O $
a O
- Ff AT O rm--,y y su -- r- .,.m g , p -ww,9+9y.n,-e ..,-m,y. , ,,q----=gge,,- a.*g-e_ .em +w-_m_a_m___- --- --- -
G34
- n. ,n m u nsu,e n , x . + ,# n m Tn a
- l'tilitie - l' h.s t r u A l'i'l ' N i ll t ' F. 4 0
MN r } i- .. x #; k 1 3 5.)
- Ir i
. m 3 ',j ,= --; , Q .'e y #b.. i . Trowel gratie inaterial applie<l aloon e(lee < to im upuntilcel. Y c . }p. b . t , y. \, N[] 1 g ,M Stress-skin I.lil)-to-t oininit t ransition staphul in place. O O p > %. .4 ? M 04 g30 p O.,) Reg,rt No 1231o NE7a S mude 23, qq < .l.esas Utihtw+ Electric Al>PESl)lCLd O ,- - ( y ; y g ^4WW y ~_ . . . in ;,9 _ 3 $M T. s yg -*f*& n, ;_- it wip Q :.; ~ Ndj .w , e g.g % x ,* :n' % - Mh.v[: ars N . 4 j tp f l . ?iM j: : "~>e 'ac2 " - 'h; gg. g 3;o. - g Circumferential wrap over transition piece. 3y .r- _ , W , , .)- .
- l, .
MJ t il g* s- 3 , % i.p. j 5- . . s.{: . ~ q>g+ , M~e
- d.mp
%.u };$ t -g;1 . ... w-
- R -.,
ll ,[t((4 i .,+ . Yk QS$ NE , [qYN., ,y ,( '* . ,g -hpg ~m - . ,,, + y rw , &,;Mb p,mm s - JM; N' ' ; 9:9;c 9 'un. s u 4nto ar,_:. M '-e[A Jq[nd[k}$ ' 'hnae,as; sidanea++ - Circumferential wrap over transition piece on 3/4" o conduit O O r** % A <* M 0443o f IL p rt No. 12:110-91:'67a Novemtv r 23, i!02 i Al'i'ENDICES Texas l'tilitier Electric O i l i i l
- s. _ l
?-l4
- 4. . .
j 3 , 99 ^? M' )1 Qg, , A 'a , , -H .s . y 4 ,[q3[,Q A = m- e / . .u g~a;c _,;3 43 ; f M- ~ m *% , x Transition piece installed on top of LHD box. s it; p -' i $ 9,; , j k.a ... 4 .?k. . t i. j y it - (; h, ., l 'N~f yM g u . g . / ;. g "% /g y g w. 3j4,g.} 4 I & - y . m i . q, .-r -;- gr, Mty-hb%d de, , n.x. s ~~ Y Upgrade ofinside elbow on LBD box. i O O p %. A r e 0 9 330 {, la p,rt h 123 Mu iV,7a ' '"d-? H Teus l'tihtie 1:In t ri N 'i l d ' ' I " l l 4 q;. p ** > im er s= + ,a . ., p: g 'Mth ., - d ..~n j ( *n . N : 4, a 0 . my OM se j W =ht Upgraded areas on 1.!!!) he,v ' c"vi red with tr<m el grarh nuitm ial. O O s * %, A 0 9350 G3: n.,nn enawca s m a .-, 2 : n,, Tem Utihtir.- Eh-ct ru .\ P P t' 1)l4 TS O . . 1- ~ e g ,' i 3,-. . , . = e - Speciliteli awailittu topcottt: filint view, y . y . L _ , ? . t.. , as .. e 1
- m. -
4 -d. - b 5 , O O p %. A r M Oppgy o ,aaam_rmaa..e saw_u .__,.maas.m-*Asem.de-.N -i-Mms..se.,maa e dam /sm e as.- me.de ema+ We m eA.-wa -wtmm An e.m WE4_m,m6w,-p,A_a.m.m.m.A2 EMm&M_p.eM -444e.i.p,. a,.m a Repor: Nc.123 w-9 IftG7a N. . ..nJ r 21 1 m l Texas Utilities Ehtt rie \l'I'EN Di('ES l O gpw y s p '. ~ +97 ww== S.. .- y en , MQy.4Nb'lg _ yss -* " .m ? , " p . l E g en. ' - . c. ,, ~*A., . .: .e-l . s e i e I i e .. ~ W@~ ~ u~*: -g y'7 lj I o kh k k .' ( b eC k k' ( k - */..'* ., ' - w 4 ) i s * . ' .,s . ' ' )_ _l 3 Completed specimen: right end view O o GAA $a ?. 1 Oggyo I l l - -.. . .. . . . . - ._---_-___m i-mu a,.n .s imosna x .aa-ra ru2 Texas l?t ilities Elect ric Al'i'ENI)lCl:S O _ z ._%--- c- -, , , c;C w ., _ y ^ " " W ,_ -, ' ^ . . -w, # g I p, .; W, kh $7 4 , [n I i O """*"'"~'""""'""""~'*"- SW}U g, .% c; .- - _b. b y. .~. . . . 5[ - 1 ., , - ~ . , - -eme y . . . g . g O O p m. A f *s Y O 9h 0n370 e-ma .5 .e,,.<>d--u.wy.ds.,~ 4 4..*a.aa em A +er.-eeu 4mhamama amer -aea smm - ena m m saes- a m-anm.,sesg,sm, s mr a.msa,m.m4..p 44,s.ra..se.,y.-w su. e w,s.a.w awasa e as- us a a 4 a a.ma a,ase... .y%-4,mem-..,,s.a, mea _.,_%_ims.m< wm-4.p.m.ae4 Repcrt No, 12310 91:W7a I' " '"I " ' ' Texas Utilities Elect nc .\ i t E N I H L' E s O , _.. .< .: : wem :. , so aus 4,; $ - ,'..',. g _ ' .l' w - p .3 . 7-, . . . - 0 k. % e , T r i ., j t . - . , ,) 1 e , .-u ; . ns,> Meg,h n , ,4% h a . . . . = , s 4.. fgg .: ng I11 stalling ille sperilliell on llie test ftllmice. = 1' ~ . O \ g e ..,e - 4 . - .~ xg ..,W r 4 V. * , f . . ! = ~ . l g '* s > .N ,f , . , _ l ~
- g er - *. ,
g g,a 's . ;wy& c.:.mn.( , _ * .f, b- , .. . fyd *' ~ 1 ' " ? .'; _ .T '. , Tvpical electrical connectioits for circuit inteerity. ~ O O r %. A f *) O 9 5 Opyggo , 1 (. - - s j G42
- ny,n .wmmo nci .m uaenim Texas Utilities Eh.ct ru Al'I'l:NI)l('ES i
!O i i . e & n S L_ * . r ; a4 E. f .t \' 3.+ =' + .x x o l l O *"' ' ~ " " c i m " " '" ~ ' v ' ' ' ~ ' " r ' " ' " " " ' " * "" " "' ' " ~ ' - l l I [' i i $ r . 4 ! ..'g' - i . , . . e i i 1 ! VIOW Of~ [tirnstre int erior (ll trit)Lr Orc test, i O- .*~ s t O A l i e m 9 . > Og gy o( ! r k-lieport .No.12 31:3 91 iMa N 6. 't t w r J (. 19 U Temn l'tiht u.s 1- h c t r n A l'l'l: N illt 'l 3 0 g-s e * . ., .
- e I' y a gl- .i . .
mamameman. - . . . e / , s ~ . % . k _. J_ 1. .Specilliell int 01)(! Oi 61) tillfillie (*ll'e PXl)OHill'e. 61 .- 9 , j ; . , . 3 ~* ~ , a 9 f ~ l e . y Test speciriieii licitig lif't eri l's Or>> tiie t twt niiii; ice-. O O e~s A t' n , 04ATO f r I i ..-.._.~.n.,. . . . . . . - . . - . . . . . . - . .. . - . _ . . - . . - , . - - - . . ~ . . . . s? < . i n ii , e b ikpert Nu 11110 {il liJ,i 'I l-'i' Texas I?tilities 1:lia t r u .si.j.3 yg g ,g .g s O a'WT M j ,, l h d g +b l 3.. . . a. s l , f. . ,,- h9'. > . 1 ' t c'. ,,m. , ,,,3,, . . ,, Y!j;y, ft f a .a . . 'l-l5','O ;#.>. ' 5 . , , M%.t< ; ' Q* t - , f Fnint view lieliin lume stream test. Q - . . . . . , - 7 .p & ka &^ . 4 9 , , l t 3 - } ~ ~ g . 4 ' I e I r I e i , i , . g' , fN - p;ta--
- 24 ," ,
j s a }Iijdll 0n(l Vien lip {isn. }nige g(n,;nn (psg, f O O ~s A f 49 Y 8 e 04470S , --- -.. m._.._._.._ m.,,,,_,,, . _ _ _ _ , _ , _ ,_ _ _ ****'-w"* '-* ew-16we - a 3-%yw._4, . , . , _ , _ _ _ ___ U la n, p, ,i n 12a mm, . ., ,+ na r 2 1 n " ' Texar l'tilitwe El ctric APPL 3I'I('f' l 0 i . . . ~~ . ~.- + %g 1% ~ ,-, n ~m , _,, y e**. - ipueg ease as-
- i I
l l I,el'( ell (! View l>el' ore }}ose st reit:1! lest. I i r ~ r I. . . .. j u.e i i l ' , j . s .. . LS m iA'k' b lk' }I}) ('.% ( ; O O +~s A f* so 04gyo 01G n, e.,n s<,mn o r, n.:., s . a .. , 2 n ,; ,, Te m l'tilitie Elec t ru .s p l.t ;i,lr-} j O ^4 . , % ,'S em . . e'n-N l g- . w a . . . ,a g t: ; r^ s; I L y ..
- y. . ;.
-l4 s , b) '3. 4 O """'""""'"t-l P 1 IlD4 Dst: Pain test. O. GAA 4 o a f 69 4 gh 04ATO m m,-4s,e.o- m - - - - - - - - - - - .- G.17 un. re o truo.1o oaa u+ ' ee Texas Utihtieg 1:In t r ic \I'I'I NIIIII< O s .~ ;=g=4 m t llose di t (Nitit leW1. ^ * ; T' C ., . ~ 7lk i g* 'Q n. ~ -~n % >.:s . w,.- 4: 4. - , ~' n f g t t a, A v. f f
- k. I ( t k k I k. k k ,
D fO f A t' I 'O0 $n ' 4ATO r G18 n . ,. ., e;., u n . n . , . " n v l T< s co (*tihtu E h i !' "' hO I .a , . n fl/ " ' y. rI l , p.' l I ,' i i O l ! i 1 i vs.m ..r u n n ..s.. # , o>..i>o m in uo n.-i O 0 p'% -4 7 T o On33o+ . - - _ . - . - . . . . . . . . . _ . _ , . _ . . . . . _ _ . . . . _ . , . ~ . . _ _ . - . _ _ . . . . . . _ _ _ . _ . _ _ _ . . . _ . . _ . . - . - . _ _ _ - . . . . ~ . . . _ . . ~ . _ . . . _ I oa i ,;. - . _ . . l 'l + s i- l't d it i - l'l, 'rn .\ l'i'!. J iilt } s i O ; .s, y g h .c . l
- I
(; . l I I !O ( l , i f f n (*\Y (i N IIl)lIf)I'k I'.li f l.f l 't 'l t(l - ll l(']* $ it ' )( 19 (
- y l {'4 '; } } } j lt',\.
i l l lO l 0 e' ' " '+. c n . Ory atO& l & r l l a.h-. 1;, p e t L 1/110 's ,'b.! . d"
- I ' 2
~l e m, l ' hht u - Ili : i t i, 'I ' 'I ' O t o - _, _. t - i , > .. s .h gA ,l,l j,; ' . [. .Q. . ., . n g e,xn., r ,,: a St ." . i . , % (. & p t, ,..# .s .% e J, u -. i -;. e ,3F.A , , . Y .- _j' ... . A< g a ar. e . 4. , YiCW (if Nil])l}()I l Illi'llllH'I' illlPl l!)e !lliSP Mll'Pilfil ItI n - i, ' i 1 / E' 4fif - AW ^ l l l l l l l Yhernel.ag removed froin a horio,ntal wction or ilu r, in o conduit o O p * %, A i f* M 4 Ogg 43 o -..,,, ,,,,-,,.y,_,e---,_-,. ..ewa,.,vr,--a-e-+e*.m-+-v-weoev*--a +ewww+ew-*-+==,vw=*-==,*===-e====- - - - - - - - - - ' " - - - ~ ~ " - ~ ~ ' ' " - - - - - - ~ ~ " ' m- - m-b* f, 4 1:< ;u rt .L ITil"M le' ~ a ' ' ' '
- 1,- x :r, l't iht ic- 1:l< , t :- l ' i ' l ~ l i li . i _ w O
s, O - t 1 1 1 l m .,,,,,, w <.., _ o ..,,, .,,,,nmn, .m.<o, .,,, - n.o r I s I O O r% A r e 0 4ATO t') fg )e **5 ) i. It,p.rt h l'.'lin 9l a ^a L 'l"' Tei a l'r ilit i i l{ln t r . 'l'I1 'l'II ~ \ _d , j 'l $ l; y, . ,e - .- ,) O l
- 5 ,e g w r. o , % '
,4 . . S w- o ~ . .. _ 7 . s 6 a View ol (lli' ilit ervil' of t he .') ili, o reilleltill l.lIl) ln>N-O O r* % A l r et Ogg gzo , - - . . , , , , , _ , - . . , _ . , , _ , - - - - - - . - _ ~ - - , - - . - - , - , . . - - - , - . - - - _ . . . - _ . - - - - - _ _ _ _ _ _ _ _ - - - - - - - - 0 3 '. n p .o s , n omo ..c., . , a e~ lesa- l'tihties l ~ le tri. V I T lll I" O 4 , P % . . y e ** . O "'"""'""""""'"~""'""" O .. . . ,. p .* t- , . .? - = A s ! s 4 - - O O s' % A f &> Opy gg o@ --- ----g.m_-- - - . - - m.m-w-a-m.-ww-w- - ' - - - - - -Oh GM ):4 p r t .','u ITtin #1,o' ', ui r _ i 1 8 - ' .' l i Ti s a- l'til ita ~ lit t i. \ P I 'l ' l ' I' 'l' H f i O i - g , . g ' I l . ! *l . _ l I (' FIN II
- dilj$ I*UlII(IVPI Illlll II If!!'i/!!!!!l % C C! Ill) Il kill' '1 ilI O OTIIl(ill !
l 1 [ , ;_f;. n
- s. .h c a S '
View of tile l,151) lum-to nititittil t r;tri:<istion on llte :l') lli o confittil 0 # o +4 O.A r e 09pO $ -_m ;.4_a _~_m4,m_ --m.,g a _ ()h4- % 1(cp..rt Nu. l '
- l-. 1, ' '. 6 1 ' < , , > 2 L I ' 'l Tnna l't iht ie- l'h,tr' . > i E 'u l 'I' ' E '
O l T l 1 /% i> - . - he
- t, ,- ,
e r
- f 7 ;
( '- T ';. . . 1 a l i s, ) 1 m- . l Thermo Lag renmved fiuin tlw vertical secti<>n i>t tlw a 1 in. o combiit ainive tlw , r,it h.d bond. l l l O o .s ~ s.4 l e e O RATO l 0 3(. a.y n n u no ii v..i a- ' "~ 'l ex.ii li l:ti tic
- lilt * ! ! !- \ Ili ' b I' O
g ~ ' n., . 7 s. e 0 'i O , 4< N Tlic rrno-l til: ~ 1-( rii(>vt,rl fr <iiii tiii i;ieli:il lit rut arul tiie ve:1ir.ilsietiiiiitiluwi-it<iti - li m ll til ti rtilitlllit O O p's A r e 0447o - - - - _ . _ _ _ . m . _ _ _ - _ _ _ _ _ __ _ _ _ . _ _ __. __. __ _. - _ _ _ _-m_m _. - _ _ . _ _ __-___._____m_ . _ _ _ . _ (> ' i 1;cp ,t t L 12:14011 a>7a - -' lJ Tewas l'til: tie
- l;lo t v w Ull EIO O
y g' _4 -d...4 - y* l ; ,,R j n-g ji ' , . . = .a . - , .. p;m. m Therino 1,;it" reinovect froin a liorizontal section of the :s in, o (oiuliiit - I g .<' e\ '.% l 4 Sh'k..,... + .~ . 4, s, .. ,,/ ,. ,4.*p t - *,' 'a ~ --w * , * . * - , *A ' e . y . :: i 'l - 4%, , . W?. .. , y, ** o 'f ' , .f - y . y 2,1 ,, . tt . - 3 A. , / e s .= _ 9;) j {+f)(p ', . * - # j ny a . - -r-- - . , A... . --*,s..- . .s .h ' P ,, y - . . .w, ,,N . 'A ~! I O l'!U O ' ad'd fellh >\ (*( hflill) l4 it il'h /ill)ll4 ! 5('('j ki))) 11[ l l)t) ,'#, lit , O (ill)(lllll . ,O p * %. O A f 4 Og gg o l'ap..rt.Ys l' !' IU 9 I ! .i ' 'J ' Texas l'Ohtie - l'im t f t- \l'I'l N I'h 'II' O .: y, n ,. _- 4 8 , ,in. #' O - 4 L !!110t~14 t t' YlU\\ til l } it' I 11). ('OlHlllil l !$l) lHIN O O /* '% A f M Or,g g o ,wm%-%y.-- a,.em-w-mm.E.-Nw - FN"*-"- ' t m ""; G: n o. .. , , s , u n o m , < - , Te cs l'uht u s 1 h s. fi. \ I'P I I ' h ' I ' i I O .p-l l i )I ,1.' O - 4 \ l l l l l . l l I nt el'ihr \'n'\\ til lin' ! iti. Collfltlil ! .lIII I'o\ 1 J O O s' % A ? % 0 4744 o @ -,,,,,,..n.,.,,,-w. . . , .,, - .,. - . ,,,, - . . - . . . -mm- - ---www_mm - ---- - - --a,- -m_-_-rmagae-wm-w--ma- m--.- --- w --m_-4.---w- -a,,, i . . , . ; . .. li> i:, e -n m e nn :, u a . 'l m e l't ilit w 1:!* * ! # > .i i'li s li h 'i, O l ~ s 4 k, 4 ; , 8 y. . , i > *e f' l $$ .. a. - e ,. s 4 /93', { . t ,> m W; i i 1. I r:s y, 9 o \, ip !O 6 i4 S i , 9 Ng\ - n <. n m.. u, y m.,mmmu .,m o,,. m ,*,u .<o.,m er u m. :n ,, , m.m,im,o,i,mm. o,<. o.tniulet I O O #^ e A , f H &of,43 of ,,mg., . w aw _,----,---.2----_aw .w---- -_% - ------,--__%- -- ----m,--- - _ _ ._ -a mg = . - - - - - GG1 m i...n se u no ,i :s- x ,~ no> To .o U t ihr n--- l' h t r u A i'l N I'It IH i O i i ' l W< , /e . A" - [ . . .?;: . i , . F e .M o 4 l e s Tlieriiio laig reitiove<l l'ruiii t he vert it 2il -ection of the :I in. o enininit ibove the n>liiltll:'l, O 0 r* % A t' s 0933o I e-m w-.4-m-.--mnss-w w w -wwse - --mww ----.a,uneaww---==wwwn- - - - }b.;. rt L 1;!?la ' M < 1 ' I' Te sa* l'tilit ie- 1: h ' t ' n ' I " ' I
- I .'
O l
- a. g:.. , s.
.,;ili ,! I*
- i a
ig v, II l ,.Y ' l 2. 4, l Tlieririo-l.:ig'~ rernovial f roni tiit < oiiritilet eiiti.v on flie .1 in. is conilun up g - ' 7t ; l kg - l l . l - t (~ l _ i *' . i ; . . jg 'w.. N l . 1 View of ;tll three .uwmlilow with Therino l.ar removet! l !O ! o r% a Opp o c i i l _..-.~._w,--._-_ . . . . . . . . _ _ _ _ . _ _ . _ _ _ _ _ . _ _ . . . _ _ . _ - . _ _ _ . _ . _ _ _ . - . , _ _ , . - . . . . _ . _ _ . . __.--.--,._---------------e--------h-~ . . ^ ^ " - - - - * ~ - ~ - I n..i, -,, s.>. n u n m -c ' - - - 1' o P'2 I e' l r ,.. n ,nn. n. o s ":' :'m i l O fWl < r i* i l i i l f i g k ^ ! 4 2 i l O . 0 r' % A r 6t l 0q43 of 4 601 , , e, : n v.o s1 i . n o < n .. -i. . l e s 3.t tihti , 1:les t'it il'I'l I 'll II' O ! ~ 'f t j' i ,, p s . i., 5 is O i View ol'rable in--ol, tio :t in. o reiluluit coiululei i I O O p %,. A r et 0437o
- r. __
1;.-par t S 1.' f l u f i l'h ? s i f # I'#' - l . s.n (
- t ilit ir - f.h trt > \ l ' I 'I ' I ' I( ' I' '
O i k' \ be i s i
- t. , t p;a s f _
,ss. k i 3~ YiOW Ol' C;tl)lt' ilid4l0 IIU' .l' I III. O OlllllIlil l'tilit!ll!PI-j J t - l l - ! ~ , , g ,* , J ,; , .a j4 ~'b - l. .. -q :g > l t - da .. h , ,. l ~ 4 '~ l- ! j w ~ (. - i Yll"N ol' ilt <til:lt itill t'e eis t : litre t est ilpJ t e;un . O O p% A f M , Opggyo f ? - _ _ _ - . - - . . , . _ _ . . - , . . . , . . _ _ . . _ _ _ , , _ . _ _ . . . - _ . . _ . . _ . . . ~ . _ _ . _ -. . . . . . . . . . . . . . GGC Report No. 12340-94307a Novemter 23,1992 Texas Utilities Electric Al'I'ENDICES Appendix J THERMO. LAG
- INSTALLATION DETAILS f * ?oi 6do
-667 I i 1 SCHE 9 1 Ale 9-2 l 5'.3'AND 'DIA CONDUlTS 4 m I z ' x 7 s v ' ' r ~ ~ z JS r=J == fMI ~ of it0 j g;gme ** m = ; JS ]p- J = . Nitte ;tCt... % - J E l!!1fRC" Pnottetto = $ # Pori $ \ =. M M it' ~ J J3 ,,e W,RC w in ia iNo Jg = f5 Z Tl \ J . \ . - 1 j JJ
- ::i j ,
k h d i d ,J ,1 ~ $tt $f0 STRtil $ MIN L, \) \ J' / e/Thos[L Cnaoc BUILO-uP DtiaIL III8INEIII8"L5 J %* Ol A CONOUlf ELEVATION - IST LAYER ISOLATED FRONTAL VIEW N C ~ ) ',M e Ve' ~ s a kh -1 CORED N$ & F$ JJ a e e d: NJ e g t e g e 03::8: i. e a a ? wiftRED 5tCfloN5 jg i i itCURt0 t/fle WIRE i . %' twa 330 1 " = = g ', '. JT .,_ _,J.NS & FS5 >>t.$ MAPL] ,,, _' , , j... m , ... , ......... ..t. .... , a , . ... , . , , . - , um . ' . mim . . 4 .y , .., .. , , ,,.. , , ... , ...., ... ..... .... .... . ... . . , _ , . I Y J. J NS & FS *A k "I ' WTat SAN 0$") % %* Tm 3301 atVP) OvtRLav titPs- %' CON 0Ulf ELEVATION - 22 LAYER ISOLATED FRONTAL YlEW TU ELECTRIC Note, CPSES - no ovtRLav soiNis art orFstt Frow Finst tartR or Te(Ruo-tac. E m M M, TEXAS " FIRE TEST ASSEheLY - m. <e -
- g. .
( 1 l _ . .. .~ . _ - . = . . _ - _ . . . - . . . . _ . ..-. ~ . _ . . _ . _ . - _ _ . . . . . . . , . . -. _ . . _ _ _ _ - - 002 l SCHEldE 91 AND 9-2 j 5' 3' AND h' DI A CON 9UITS I s j f I j ' p %*TRostL CRADE i d t$fRIPl> 5tt $10 ktAll A ,i, StlW C0&f ovtR $tRtll $ntN ! I ; D )4F4'04ACND STRt$$ $RIN $ECURED U$1NC . ._l fit WlRC AND $t APLtl a uttAL BAND t ISOLATED YlEW OF RADI AL BEND STRESS SKIN W/ TROWEL GRADE BUILD UP rh t h' .k: TU ELECTRIC STD DETAll A . cPSEs STRESS SKIN STRIPS AT BENDS- GLEN ROSE, TEXAS DIWEN11041 CivtN ARE FOR #0RWafl0N
- ONLY.dkNGIN to i wo-Lic $terioH AND otW10fMS AutttRs. VARY ACCORDING FIRE TEST ASSEMBLY-ILAf " _l#I
, - , , , , , > . . , . . - - . . . , , .-. ,, , . - - -~ . -. .- ~ , . - - ~ - ~OMU TYPICAL RACEWAY LSD B0X UPCRADE I i ge%, g 1 =4 . If A : l1 1 ; J j , i e i ! . . . Dl . siE Y iR.! L; I! . I gg { -i-. -):$ t m. se i 7 is *- ;F jj ,.1$, <1AL .ANo$ l r i 4:: 1, 1 h2 Ij i r uiN fi: / li Pi g' ......... M.. I -M
- l
, - .l .l -- , I LEE y;1 t= m , = Y+ ...... .. 7" .. . - : , ~ a ; ! ." }l hm:r sjuu iu 3 1 l l t 1 STANDARD DETAIL 5'DIAWETER W/ STRESS SKIN UPGRADE ; (3' 01 AWETER AND %' 01 AWETER LB0 BOXED SHAPED) , I Nort$. t WATCHING NUWSER$ INDICAft CONilNu0U$ $fR[$$ $RIN $ Mitt $. TU ELECTRIC
- 2. NUWBtR$ 1 AND 2 INDICATE JOINT EDCE STRIPS.
CPSES
- 3. NUWBCR$ ) kNO 4 INDICAf[-WHOLE ' CROWN' $HL(T1. GLEN ROSE. TEXAS
- 4. NUW8(R$ 4 AND $ INDICAT[ *NECL'$ TRIP $.
$. Au. ecRAcco tsD 1 art $iWitAR A$ $wo N Asovt.
- 6. $fR($1 $LIN l$ $(CURED TO LBO*$ U$ LNG $f APLES.
FIRE TEST ASSEhBLY esi. m mm m., . INkilN 670 TYPICAL RACEWAY LB0 80X UPGRADE (3' Ol AWETER AND h' DI AWETER) i E u: Stt sip too statss , l l SalN CROWN $4tT i f ' > i A : l l ' l A : E d v,. . 3,0., ,<., ,A<<, ,,,,, N330 1 Thostl CSADC intW COA 1 tith 4 4-7: poijtf,hj*$ x ,'*'s, exggu M g '"* "' "" 5 5 '" ' '....' 7 y,;g,g,i,jg ;,'c>x luJfE2 IEE3~"
- ]e(.tE
- m:: ' - Tx :1:
cr
- LW3 C3; c-mm4 t 2
IFJES ~ ~ - j E- E:- =I- 5 .., ",,.n..
- 4 g \ SECTION 4 4
+-+44::t \ cg 7 wm t,,, ISOLATED RIGHT VIEW
- L0seC SIDE vtRflCAL LB0 BCs W/11 Rill SEIN STO LB0 STRESS SKIN CROWN SHEET e .
5 I 8 e e 7 6 e l l 4 e
- e
. . . . . . . . . . . . ) ., . l .............'...s. , s 5tt St0 LSD STDtt$ Sal 4 CROWN C'4ti 9 SECTION 5-5 TU ELECTRIC ISOLATED LEFT VIEW cPsEs LONG $100 vttfiCAL LBD Box CLEN ROSE.TEXA5 W/$TRtl$ SalH FIRE TEST ASSEWBLY fLAGCWAwAlh . . .......,.....a.........,,a... ...aa. . . - . .,- .. p4-U i ll SCHEWE 9-l AND 9 2 5*,3' AND %* 01 A CONDUlT W/ RAD BDO pJ# - - - ~~ UNPR0ftCTED / ~J' l .
- p. fggitD SUPPORil 1
-9 p -e " F to WiTERED SEcil0N5 I - ~ SECURED s/ itt elRE Q PROTECTED = PR0fttfE0
- J Tit WIRE - SUPPORTS. WCTAL, SANOINO
, [J . J g " 9 ' J7 .._ g3 u_ 2 _,._._; 4 , ,PJ .J%,, $ s J J / J k b J SEESTDSTREf5SA1 e/ TROWEL CRADC J / J (a J SulLO UP DCTAIL 8tLOW .5tt 5fD RActwAv SACE Cy SEND - L 0X UPCRADE DC AIL SCORt0 0 PLC . AL3' AP ART 5' DI A CON 0Ulf ELEVATION - IST LAYER ISOLATED FRONTAL VIEW i '$s p %* TROWEL CRACC QvER IST LATER GR STRIP 5 Sh STD DETAIL A lll l ll SKIM C0AT CVER STRESS SKIN STRESS SaIN SECURED USING ! WCTAL BANDS A m STAPLE 5 l ,w y .~ -a t 5'014 CND .j i l WCTAL BAND " 5 }It'URt!5ol7PLES'""/' ISOLATED VIEW OF STD RADI AL BDO :TU ELECTRIC 1 STRESS SKIN W/ TROWEL GRADE BUILD-UP CPSE5-290 LAYER GLEN ROSE.TEXA5. - TIRE TEST ASSEhSLY Ik ^-- _6,4GN .n n r) O % SCHE 9-1 AND 9 2 5'. 3* AND *DIA CONDUlTS - - - - - - - = . - ~ )*WETAL BAND $ g *g N g [ fyp h # g rJ . (ECil0N$ S #J JN \ .j ifyPt E / Tl J wint Arc 5 BA@$ 7.7J PROTECTED $UPPOAT$ #J Tit slRE / 0 WETAL BAN 0lNC .e b.N =" D " l .. L. . JT ' \ = , ,g f J- ) SEE STO STRE51 $51N w/TR0wCL CRADE SUILD-uP DETAIL BELow J) J -J 3' DI A CONtull ELEVATION - IST t. AYER . IS0iATED FRONTAL VIEW h p %*TRowCL GRADE OvtR ist LAYER lll n llnglln l STRESS SKIN OVER TROWEL GRADE ($fRiPS15EE STD DETAll A $Klu COAT OVER $ IRES $ SKIM ji "k"" $ TRESS $RIN $ECURED USING WETAL BANDS AM) STAPLES t .kf' WETAL BAND STRES$ SKIN SECURED U$1NC TIE WIRE AM) $TAPLES i 3* DI A ISOLATED VIEW OF RADIAL BEND TU EL C RIC STRESS SKIN W/ TROWEL GRADE mad-UP GLEN ROSE.TEXA5 FIRE TEST ASSEMBLY T- ,. G7: Report No.12340 94367a November 23,1992 Texas Utilities Electric APPENDICES Appendix K NUCLEAR REGULATORY COMMISSION LETTER so^ "o, %,s" ~ G74 ue 0 % UNITED STATES 3 i NUCLEAR REGULATORY COMMISSION *
- WASHINGTON. D.C. 3545
\ % . * .* Cetocer 29, 1992 Docket No. 50-446 Mr. William J. Cahill, Jr. Group Vice President, Nuclear TV Electric 400 North Olive Street, L.B. 81 Dallas, Texas 75201
Dear Mr. Cahill:
SUBJECT:
THEM0-LAG ACCEPTANCE METHCCOLOGY FOR CCMANCHE PEAK STEAM ELECTRIC STATION - UNIT 2 The NRC staff has completed a review of TV Electric's submittal dated Secta=ber 24,1992, ' Confirmatory Testing of Ther:o-Lag Fire Barrier Systas at CPSES.' A meeting was held on Octooer 27, 1992 between NRC and TU Electric, where you updated your fire barrier t; sting acceptance criteria. The enclosure to this letter provides the revised acceptance criteria you pr: posed at that meeting. This letter informs you of the results of the staff review of your cricaria. Final NRC staff review of your fire barrier acceptance testing will be documented in a future safety evaluation. Your acceptance criteria including the use of a fog hose stream test in accordance with NURE2-0E00, is acceptacle based on the following c:nditions:
- 1. The NRC maintains that the temperature measured on the external surface of the raceway should not exceed 325'F. Your criteria, submitted in ycur September 24,1992 let maintained below 325'F'ter, states that as measured by cable temperatures thermocouples are to installed at six- be inch intervals on cables close to the inside of the protective envelope.
In your previous tests, the raceway, in addition to the cables, wu instrumented with thermoccu;1es. These thermoc:uples provide a better indication of barrier unexposed side thermal perfor=ance during :ne fire test. You have stated that you will-be sonitoring various raceway locations in these upcoming tests; however, in reviewing your criteria as submitted in your September 24, 1992 letter, we could not determine how you propose to evaluate the barrier's thermal performance using the raceway thermocouples.
' The 325'F temperature condition was established by allowing the internal temperature on the raceway surface to rise 250*F above ambient laboratory air temperature, assumed to be 75'F, during the fire test.
l l
gec n = :: - O-Mr. William J. Cahill, Jr. In the October 27, 1992 r.eeting, we discussed this concern and your staff indicated that the cable tray side rail and the external conduit temperatures would In beaddition, used to determine your staff agreed, the temperature acceptance for cable trays, t: of t,e fire barrier system. also use the cable thermocouple temperature readings to supplement the raceway thermocouples in assessing the thermal performance of the fire barrier system. With respect to determining the tecperature acceptance criteria, the NRC staff considers themocouple averaging acceotable, provided stallar It series of thermocouples (e.g., cable tray side rail) are averaged together. was determined that the temperature performance of the caDie tray fire barrier would be based on temperature averages (i.e., the ther:ccouples :n each side rail, and the therzoccupies on each of the three instrumented cables) and would be independently evaluated against the temperature acceptance criteria. In addition, it was agreed that averaging the s taennocouples on the external conduit surface would be usedIttoisevaluate our the thermal perfor:arce of tne conduit fire barrier system. understanding that your tamperature acceptance criteria w0uld find the test results in deviation if the average temperature of any tnermoccup'e series exceeds the 250'F plus ambient condition or if any single thermocouple exceeds 30 percent above tne maxi um allowable temperatureIf ,is rise (i.e., 250*F + 75'F - 325'F, acove ambient) curing the test. occurs, under your criteria a visual inspection of the cables for signs of thermal damage is required. Any sign of thermal cable damage would be a deviation to the fire barrier requirements which would require the functionality of the cabling to be demonstratad by testing. 24, 1992
- 2. Your barrier inspection criteria, submitted in your Septec er In the i letter, allows burnthrough no greater than one-half square inca.
)' Cetober 27, 1992 meeting, your staff revtsed its position on burnthrougn.
In this meeting your staff indicated that any burnthrougn is now occurs, If burnthrough a
' deviation requiring cable functionality testing.
based upon visual examination and notwithstanding the size of the deftet, the NRC views the fire barrier as deviating frca the fire barrier requirements and would requirt that cable functicnality be descastrated.
- 3. Your visual cable acceptance criteria, submitted in your September 24, 1992 letter, stated that none of the folicwing attributes shculd be or discoloration; shield expcsed; identified: jackat swelling, splitting, determined that the following or jacket hardening. The NRC staff has attributes also indicate thermal degradation: jacket blistering, cracking or melting; conductor insulation exposed, degraded, or discolored; andIt is our bare copper conductor exposed.
for visual cable acceptance will include all of the above attributes. .
- ~---------______m_ , _ _ _ _ _ _ _
- 9.
- n n ;.:.; :: . ..:.I : . . :I' i 3 :- 31. : : -
c-- ne 3c,, 1554 Est?; H.9 -
- G7G 4
i i Mr. William J. Cahill, Jr. !
- 4. Your acceptance methodology calls for a megger test after the cable has-t been installed in the raceway, continuity sensurements during the test, and a subsequent segger test immediately following_ the test. At the
- October 27, 1992 setting, you provided additional details and
- clarification regarding your proposed testing to demonstrate cable-
- functionality. Additionally, you stated that you say use loss-of-coolant- t
! accident (LOCA) cable qualification test-results in evaluating j cable functionality at elevated temperatures.
. At' the October 27,1992 meeting, the NRC staff described tne following
! tests which can be used to demonstrate = functional performance of cables I where there are signs of thermal damage to cables or wnere barrier i burnthrough or openings occur: 4
- The segger tests (pre-fire, during the fire (if l performed), and immediately after- the fire test conditions) should be done conductor-to-conductor for i multiconductor and conductor-to-ground for all cables.
- The minimum. acceptable insulation resistance (IR) value, using the test voltage values for various system voltages l- is determined by using the follcwing expression:
IR (Mega-ohms) 2 U(1 Mega-ohm ser KY) + 11
- 1000fftn
- Length (ft)
I In addition, an AC or DC high potential (Hi-pot) test for l power cables greater than 1000 volts snould be performed after the post- fire zegger tests to assess the dielectric. I strength. This test provides assurance that the cable will withstand the a; piled voltage during and after a l fire. The'high potential test should be performed for a i five sinute duration at 60 percent of either 80 volts /sil
- AC or 240 volts / mil DC (e.g., -125 mil conductor insulation
- thickness X 240 volts DC-X 605 = 18,000 ydc).
- The table below summarizes the-aegger and Hi-Pot test l voltages-wnich, when applied to power, controlo and' instrumentation cables, would constitute:an acceptable cable functionality test.
i CARATING -MEGEEA TEST HIGH POTENTIAL M VotTAGES VOLTAGE TEST VOL7 AGE i j- 2 1000 volts :2500 YDC POWER
. 605 x 80 V/sil(AC)-- i
, . 605-x 240 V/ ail (DC) . L
< 1000 volts 1500 VDC NOME '
i INSTRUMENT s 250 ydc 500 VOC. MONE i AND . ' s L CONTROL s 120 vac 4
-- - -a ,a.,--g-4-,,.-,.~,,,-,,.-,,w--. , es,--,,-,, -.+,r,,,a nw , ~ , ,,,-,,-.,,e,wa n --.m,..
~ ;
- f },. }}. : ; .~}. . .* .*. * *
; .0?
o" - - Mr. William J. Cahill, Jr. -4 In addition, at time intervals (at least once) during your one-hour fire exposure test, a megger test should be performed for instrumentation casles in order to assure that the cable will maintain sufficient insulation resistance levels necessary for proper operation of instruments. LOCA temperature profiles say be used to evaluate cable functionality instead of megger testing during the fire test. If this- approach is taken, you shculd ensure that the LOCA temperatures bound the fire temperature profile, by including cable operating temperatures. Additionally, in determining the insulation resistance levels required for nuclear instrumentation cables, an assessment of the minimum insulation resistance value (e.g., one mega-chm) and its potential impact on the - functionality of these cables should be evaluated. The NRt concLvies that performance of your prcposed testing, with the additional megger and Hi-Pot testing described above, would constituta in acceptable set of tests to demonstrate that any fire barrier test deviatiens, should they occur, will not affect tne capacility of the protected cable to perform its safety functten. Other tests or co=bination of tests for cable functionality, different from those described aDeve, would require NRC review and approval. 5. Discussions with your staff indicate that C75ES power and instrument ca:le meets IEEE-383 and is all thermoset insulation type. Additionally, ycu have stated canle _ that tray side rails. installation procedures ;rchibit cabling to extend above these facts in writing. When you subett your next test sumary, confirm In sumary, your criteria, as supplemented with the above conditions, ensures that adequate cable and barrier tests will be performed. Satisfactory resuits feca these tests (raceway / cable temperature <3257 and no barrier burnth constitutes a satisfactory basis for rated fire barrier qualification. Where the temperature criteria is not met and cable inspection criteria results in deviation (s), and/or barrier inspection results in deviation (s), your criteria calls for27, October subsequent 1992 cable functionality testing. Also, as discussed at the subjected to the fire tests, additional testing would be required on voltagefunctionalit cable clus to demonstrate functionality shculd test deviations warrant should they occur y verifications. MRC review of your test deviation s), fire barrier acceptance testing.will be included in the staff's safety eva
, , , ~ . . . - n e . - , - - , , - , , - - . , . . ,,--,,,-m,. -,-+a- . . - -
j 7..
- 3. 3; :2: u : : .: " - ~ '" ': ! '" '
- - -! E ' i D' ,'
- ..it , :i s iC :i . G'?E-d I
Mr. William J. C 2 111, Jr. i i The MAC staff plans on observing your upcoming testing reviewyou that test meet rssults.with the NRC follow 1ng completion x of this ne t. set of testing : i Sincerely, i 0. N Suzanne C. Black, Director Project Directorate IV-2 - Oivision of Reactor Projects III/~V/V e nclosure: office of Nuclear Rsactor Regulatfor. 3 TV Revised Acceptance Criteria cc w/ enclosure: See next page 1 1
'S
- - ;3 3: ;.1 .: : :::~ . - n i .: _ g .: t ! .: r i r : . 3 saa'ac:= liis tr> : :. n . : : - G '7 9 l ni:: gs 5; ,
/ i Mr. Willion J. Cahill, Jr. ! i l cc w/tnclosure: Senior Resident Inspector U.S. Nuclear P.egulatory Commission Jack R. Newman, Esq. P. O. Box 1f29 Newman & Holtzinger Granbury. Tv,xas 76048 1615 L Street, N.W. Suite 1000 Washington, D. C. 20036 Regional Administrator, Region IV U.S. Nuclear Regulatory Commission i 611 Ryan Plaza Drive, Suite 1000 Chief Texas Texas, Bureau Department of Radiati:3 Con:rc of Health i Arlington, Texas 76011 1100 West 49th Street Austin, Texas 78754 Mrs. Juanita Ellis, President Citizens Association for Sound Energy
- 1425 Soutn Polk Honorable Dale McPherson Dallas, Texas 75224 County Judge P. O. Box 651 Cwen L. Thero, President
Quality Technology Company Lakeview Mcbfle Home Park, Lot 35 4793 East Loop 820 South Fort Worth, Taxas 76119 Mr. Roger D. Walker, Manager Regulatory Affairs for Nuclear Engineering Organization L Texas Utiltties Electric Company 1 400 North Olive Street, L.B. 81 i Dallas, Texas - 75201 ( Texas Utilities Electric Company c/o Bethesda Licensing 3 Metro Center, Suite 810 3ethesda, Maryland 20814 i Willlas A. Burchette Esq. Counsel for Tex-La' Electric 3 Cooperative of Texas Jorden, Schulte, & Surchette y 1c25 Thomas Jefferson Street, N.W. washington, D.C. 20007 GOS Associates, Inc. Suite 720 - 1850 Parkway Place Marietta, Georgia 30067-8237 4
. ~
g 9 (, i I iM.I nsiir e - , p. c;
! CARI.E F11N(. T IONALITY TESTING ta-I 3 4 o
.i t:
TEST set}URNCE TU RI.ECTRIC FROPOSAI,
-JUSTIFICATION DURING FIRE .'
TEST' COffilNeitTY TRST AT 12VM.* - g, III.1724 REC (NWMENIIS TIVAT I.OW YOf.TAGE ! g SEIOULW BE USED ON CIRCtllT DURING FIRE
, TFKIING - . .
t
, 5.AWOR ATtHtY PRRRONNEI, SAFRTY REQUIREMEN13 I.HGtSTICN OF MRGGRRING AI.T. (.1)NDUC10RS
- n. ;
DIiRING 'IllR ONE HOUR FIRE YEST RRSTRICIM 3 IN11tRMITTENT TRETING ' i o - FUNCTIONAIJTY OFCABLE AT RIEVATED j
'I
'-' TEMPRRATilRR MAY BR CONFORMED BY I.OCA TEST I RIISUI.TS PROYtDRD Cast.E JACERT
,j TEMPRRATURRS DID Ntn RXCERD IDCA 6
QUAT.lFICATION TEMPERATUltES . 1 AFTER 580ST llOT MEGGER TEST -
- STREAM TRST ACCRFTANCE CRITRRIA NASED ON MOST LIMITING '.
- INSTAf.t.ATION (5 M .)
- INSTRUMENTA1 SON CABl.E -
500VDC ACICEPTANCE CRITERIA POR CONTROE,/ LOW 4 VO1.TAGE CABt2 RASRD ON DC RQUIVAt.ENTTR5r , 9. CONTR(M,/I.OW YOI. TACK VOLTAGES OF RATED AC VOI,TAGE (1599VDC) i O
.___ _ _ . .CARLE -
_-____ __ AT
- __ 1500 VIM'_ _ _
_a_ _ ra t O t 9 5 N . ri - -
. e e '-Tr'r=* r 37
- tumwt tv yn *n eg- mmggi v----g g3 7 g;.i'g-r7=-ggww t wgmi -w w -te-+ w m im w--*w gr eg,g-eega'ge rs r gyrye e- -g gu. gs-.aw w%9ew%+.w--Mam-r** '""d%S"TW M 'u'* 'P-N -"'r.'w' - ' - ' ' - +w* m h v W ium"T- '-
*""-"w--
._. _ , = _ - .. ..
cc, I w:linure c.o l.' i
+..,
E TcstSenn ~ a Build Sangle Messer Fim Test T@m
<. ble *Itay l
p. 4 < Amb + 250 F avg i < Amh + 325 P peak d Fog NormlTest Ilot Megpr
?I Fim Bemerinspection Furectionalky Tests
- U Potential Devletion
~* [,
Visual Cable Inspection *
- Post Fim se Visual Cable inspection Set p;,, g ,,ge,3 ,peggio,
;h
- If Required No Born Through i
. .=
1 :s ' ' Pblential Deviation
-
- n Test Set i 2 . Potential Deviation !
, Cable Functmanlity ,
,, Verification a es f4 lu Set t
- N e G s.
'l f4
. O
.}}