Text

Amend 15 to Gibbsar,Revising Pages in Vols 1,2,3,5 & 6.Three Oversize Drawings Encl
	ML19253C894
Person / Time
Site:	05000584
Issue date:	11/30/1979
From:	; GIBBS & HILL, INC. (SUBS. OF DRAVO CORP.)
To:	;
Shared Package
ML19253C893	List: ML19253C892; ML19253C894;
References
	NUDOCS 7912120318
	Download: ML19253C894 (200)
	v • d • e

GIBBSSAR Amendment 15 Instruction Sheet The following instructional informa tion is being furnished to insert Amendment 15 into GIBBSSAR, the Gibbs & Hill Standard Safety Analysis Report.

Since in most cases the original contains informa tion printed on both sides of the paper, a new sheet is being furnished to replace the sheets containing superseded material. As a result, the front or back of a sheet may contain information that is merely reprinted rather than changed.

Discard the old sheets and insert the new sheets as listed below:

Volume 1 Remove Insert (Front /Back) ( Front /Ba ck )

1.8-2/1.8-2a 1.8-2/1.8-2a Volume 2 3.11-3/3.11-4 3.11-3/3.11-4 3.ll-4a/3.11-4b 3.11-4a/3.11-4b T3.ll-6shl/T3.ll-6sh2 3A-15/3A-16 3A-15/3A-16 Volume 3 8.1-3/8.1-4 8.1-3/8.1-4 8.2-1/-- 8.2-1/--

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EFFECTIVE PAGE LISTING VOLUME 1 Remove twelve (12) sheets Insert twelve (12) sheets in the front of the volume. in the front of the volume.

VOLUME 2 Remove fifteen (15) sheets Insert fifteen (15) sheets in the front of the volume, in the front of the volume.

VOLUME 3 Remove fifteen (15) sheets Insert fifteen (15) sheets in the front of the volume. in the front of the volume.

VOLUME 5 Remove eight (8) sheets in Insert eight (8) sheets the front of the volume. in the front of the volume.

VOLUME 6 OUESTION STATUS TABLE Remove twelve (12) sheets Insert thirteen (13) sheets in the front of the volume. in the front of the volume.

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GIBBSSAP 1.8.3 Utility-Applicant SAF Inputs Table 1.8-3 lists the information which must be supplied in the Utility-Applicant's SAP. Format references are keyed to Pevision 2 of NFC Pegulatory Guide 1.70.

1.8.4 Structural and Seismic Design Interfaces The follcwing criteria are provided to ensure structural and seismic design compatibility between BOP structures and NSSS components:

1. The seisnic response spectra and the differential displacements at the support points, as specified by the NSSS applicant will not be exceeded.

2. The envelopes of the loads that will be transmitted from Category I or non-Category I systems that will connect to the NSSS components, as provided by the NSSS applicant, will not be exceeded.

3. The seismic analysis of the BOP structures includes mass and stif f ness properties of the NSSS as provided by the NSSS applicant.

8 4 The maximum number of earthquake cycles as specified for the NSSS components by the NSSS applicant will not be exceeded.

5.

The elevation to which the constraint should be flooded after a LOCA, it required and as specified by the NSSS applicant, will be considered in the design of the containment as appropriate.

6. The maximum differential displacements at points of the NSSS that will interface with BOP structures, as specified by the NSSS applicant, will not be exceeded.

7. The structural properties of the BOP structures that support the NSSS components, as specified by the NSSS applicant, will be satisfied.

8. All the loads that will be transmitted to the BOP structures f rom the NSSS components as specified by the NSSS applicant, will be used in the design of the BOP structures.

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9. The allcwable deflections of the BOP structures supporting 8 the NSSS coroponents, as specified by the NSSS applicant, will not be exceeded.

1.8.5 Electrical System Interfaces Electrical interface requirements with the Utility-Applicant are 15 described in Subsection 8.2.1. The GIBBSSAP/PESAP 414 interface requirements are described in Section 6.4 b ~.

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c. The periods of time during which the active equipment is required to operate following the DBA are as f ollows:

1) Up to first 5 minutes after a DBA for containment isolation valves with operators and related instrumentation

2) Up to 6 months af ter the DB A for containment sump instrumentation

3) Up to 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months af ter the DBA for reactor coolant pressure transmitters

4) Up to 6 months after the DBA for combustible gas control system

5) Up to 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months after the DBA for pressurizer water l 1 level transmitters.

In addition to the above, the following is the balance of ESP-related equipment in the containment which is required to function following the DBA for period of timo consistant with plant design:

1) Saf ety Injection System valves and piping

2) Accumulator tanks

3) Containment spray system nozzle, piping and valves

4) Hydrogen recombiners

5) Primary and Secondary Shielding

6) Process Instrumentation as follows:

a) Pressurizer pressure and level b) High-head injection flow c) Accumulator pressure d) Containment pressure and sump level 3.11-3 Amendment 1 1541 144

GIBBSSAP Engineered safety features and other safety-related equipment outside the Containment are discussed in these GIBBSSAP chapters:

1) Mechanical equipment-chapters 6 and 9

2) Instrumentation and controls-chapter 7

3) Class 1E electrical equipment-chapter 8.

3.11.2 Qualification Tests and Analyses When suf ficient reliable data are available and proven analytical methods are kncwn, environmental adequacy is based on analysis.

If such analytical methods are not available, qualification is based on environmental testing. For items which require environmental testing, at the present plant design stage, it is not possible to detail all items which are qualified based on past usage and those which are qualified based on tests and analyses for this specific plant. More detail concerning such testing is included in Section 3.11.2a through e below. All BOP Class 1E equipment will be qualified in accordance with the following requirements, the detailed qualification information and test results will be available for NPC audit.

15 h It is anticipated that the majority of such equipment will be quali fied by prior use because there are no environmental conditions identified for this plant which are more severe than those in corresponding locations during equivale nt plant conditions in other licensed nuclear plants. Equipment which requires qualification testing specifically for this plant may include components whose sizes differ substantially from those previously qualified or components whose design or material has changed significantly from that previously qualified. For such equipment, specific test procedures which specify limits on test parameters, durations, and pertinent data are prepared. All such tests are performed by recognized testing agencies and use applicable recognized standards.

3.11.2.a Equipment Design Specifications Equipment Design Specifications for Class IE equipnent and components will identity and define the environmental and seismic qualification requirements for each specific piece of equipmant.

Design Specitications will define the required equipment, the boundary.ot that equipment and irterfaces with other equipment O

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GIBBSSAP and services, material exclusions or restrictions or other 15 special equipment requirement.

Each specification will define the applicable equipment operating conditions e.g., the environment, signal conditions, and power 13 conditions under normal, abnormal (maximum) and post design basis event conditions. It will also define the time required to fulfill the equipment's safety function when subjected to any of the extremes of the environmental conditions. 15 The environmental conditions (Tables 3.11-1 and 3.11-2) and applicable electrical parameters will be defined. Equipment vendors will be required to apply specified margins consistent with manufacturing tolerances and variables associated with the qualification testing program. Acceptable levels of equipment performance required to satisfy safety functions will be defined 13 in each specification for normal, abnormal (maximum) and post design basis event conditions.

Each design specification will require the vendor to submit documentation in accordance with IEEE 323 and associated standards.

3.11.2.b Test Plan

he Class 1E equipment vendor will be required to develop the detailed test plan for his equipment. This test plan shall also include a maintenance schedule and periodic component replacement 15 schedule as required to obtain a qualified life consistent with the installed life of the equipment.

The qualified life of equipment will be 40 years consistent with the design life of the plant. Equipment which cannot be qualified for 40 years shall have a periodic replacement program established for it. This program will be implemented by the Utility- Applicant based on vendor recommendations. The equipment specifications will include all necessary information for the vendors to qualify the equipment. The equipment qualification programs will be in accordance with those standards in effect at 13 the time equipment is crdered.

Bidders will be required to outline their proposed qualification methods. This will be done to provide proof of the qualification program's adequacy. A detailed qualification plan will be required to be submitted by the equipment supplier for review prior to qualification program initiation. Final documentation 3.11- 4 a Amendment 15 i340 2 % 1541 146

GIBBSSAP h will be submitted by the equipment supplier and reviewed for adequacy prior to acceptance.

Vendors are expected to propose qualification programs based on 13 appropriate combinations of analysis, component test, type test and material property data. Functional tests will be performed in accordance with applicable industry standards.

Seismic Qualification of Class 1E equipment will be in accordance with IEEE-344. The qualification program (test, analysis or combinations of both) will be dependent upon the physical 15 properties of the specific equipment.

Degradation of Class 1E instrumentation and control equipment due to aging will be considered when such degradation is expected to be significant over the design life of the equipment. Equipment aging will be determined on the basis of an appropriate combination of component tests, experience, material application data and the stresses that exist as a result of the design and the intended application of the equipment. 13 The testing sequence will follow the s equence specified in IEEE 323. Where this is not practicable or where a generic vendor test is utilized the test sequence shall be justified.

3.11.2.c Test Set Up Vendors for Class 1E equipment will be responsible for the development of a detailed test set up nece ssary for their equipment qualification program. This vendor test will simulate actual operating conditions as closely as possible. Equipment to 15 be be tested will be mounted, piped, and wired during the test to simulate the arrangement which will be utilized in the plant to the extent practicable.

The test monitoring equipment will be calibrated against standards and the calibration will be appropriately documented.

The test monitoring equipment will have sufficient resolution to provide detection of meaningful changes in the monitored 13 varia bles.

1.11. 24 Test Procedure Specifications for Class IE equipment will be written to include oquipment qualitication inf ormation and requirements to enable 15 the vendors to quality equipment.

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GIBBSSAR TABLE 3.11-6 (Sheet 1 of 2)

EOP CLASS 1E EQUIPMENT IDENTIFICATION EQUIPMENT PLANT (1)

LOCATION SWITCHGEAP O MOTOP CONTPOL CENTEPS O SCLENOID OF MOTOP OPEPATEC VALVE I/O MOTOPS O 15 LOGIC EQUIPMENT O CABLE I/O DIESEL GENERATOP AND CONTROL EQUIPMENT O SENSOBS (PPESSUPE, PPESSUFF DIFFEPENTI AL TEMPEP ATUPE) I/O LIMIT SWITCHES I/O CONTROL BOARDS O INSTPUMENT PACKS AND PANELS O CONNECTOPS I/O ELECTB! CAL PENETPATIONS I TEPMINAL MODULES I/O SEQUENCEP O ^-a ^ - -

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GIBBSSAP h TABLE 3.11-6 (Sheet 2 of 2)

BOP CLASS 1E EQUIPMENT IDENTIFICATION EQUIPMENT PLANT (1)

LOCATION 125-V dc BATTEPIES O 15 BATTEPY CHAPGEPS O INVERTEPS O DISTRIBUTION PANELS O NOTE :

(1) Plant location: O - outside containment I- Inside containrent 1bk J 1541 149 O

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GIBBSSAR Discussion This regulatory guide is not within the GIBBSSAR scope of supply.

See the Utility / Applicant's SAR.

Regulatory Guide 1.60, Rev. 1 Design Response Spectra for Plants.

Seismic Design of Nuclear Power Discussion GIBBSSAP complies with this regulatory guide.

Pequlatory Guide 1.61 13 Damping values for Seismic Design of Nuclear Power Plants.

Discussion GIBBSSAR complies with this regulatory guide. Damping values for materials not specified in the guide shall be conservatively determined from test data, literature or acceptable analytical procedures.

Pequlatory Guide 1.62 Manual Initiation ot Protective Actions.

Discussion See Section 7.1.2.1.h for a discussion of this regulatory guide.

Regulatory Guide 1.63, Fev. 2 15 Electric Penetration Assemblies in Light-Water-Cooled Nuclear Power Plants.Containment Structures for Discussion 13 See Section 8.3.1.2.6 for a discussion of this regulatory guide.

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Pequlatory Guide 1.64 Fev. 2 Quality Assurance Requirements for the Design of Nuclear Power Plants.

Discussion GIBBSSAP complies with this regulatory guide.

Pequlatory Guide 1.65 Materials and Inspections for Reactor Vessel Closure Studs.

Discusion This regulatory guide is not within the GIBBSSAP scope of supply.

See the NSSS SSAR.

Pequlatory Guide 1.66 Nondestructive Examination of Tubular Products. 13 Discussion This regulatory guide has been withdrawn by the NRC.

Pequlatory Guide 1.67 Installation of Overpressure Protection Devices.

Discussion GIBBSSAR complies with this regulatory guide.

Peculatory Guide 1.68, Rev. 1 Preoperational and Initial Startup Test Programs for Water-Cooled Power Reactors.

Discussion Preoperational and initial startup testing is within the scope of the Utility Applicant. The GIBBSSAP design does not preclude compliance wit h t hin regulatory guide. Further inf ormation will be provided in the Utility Applicant's FSAP.

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GIBBSSAR 8.1.3 Safety-Pelated Loads The safety loads that require electric power to perform their safety functions are identified in Table 8.1-1. This table includes the safety load, safety functions performed, and type of electric power (ac or de or both) .

8.1.4 Design Criteria The design bases, criteria, Pequlatory Guides, standards, and other documents that are impleme nted in the design of the safety-related systems are listed below.

described in Sections 3.1, 8.2 and 8.3. These documents are l10

1. 10 CFR Part 50, Appendix A; General Design Criteria l10 for Nuclear Power Plants, U.S. Nuclear Commission, January 1, 1976 Pegulatory l10

2. Pegulatory Guide 1.6, Independence Between Redundant Standby (Onsite) Power Sources and Between Their Distribution Systems, U.S. Nuclear Regulatory Commission, March 10, 1971

3. Pegulatory Guide 1.9, Selection of Diesel Generator Set Capacity for Standby Power Supplies, U.S. Nuclear Regulatory Commission, March 10, 1971

4. Pegulatory Guide 1.12, Instrumentation for Earthquakes, U.S. Nuclear Regulatory Commission, April 1974

5. Pegulatory Guide 1.22, Periodic Testing of Protection System Actuation Functions, U. S. Nuclear Regulatory Commission, February 17, 1972

6. Pegulatory Guide 1.29, Seismic Design Classification, U.S. Nuclear Pegulatory Commission, February, 1976 l10

7. Pegulatory Guide 1.30, Quality Assurance Pequirements for the Installation, Inspection, and Testing of Instrumentation and Electrical Equipment, U.S. Nuclear Regulatory Commission, August 11, 1972

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8. Pegulatory Guide 1.32, Use of IEEE Std 308-1974, Criteria for Class 1E Electric Systems for Nuclear Power Generating Stations, U.S. Nuclear Pegulatory Commission, February, 1977 l 10

9. Pegulatory G uide 1.40, Qualification Tests of Continuous-Duty Motors Installed Inside the Containment of Water-Cooled Nuclear Power Plants, March 1973. 10

10. Pegulatory Guide 1.41, Preoperational Testing of l 10 Pedundant Onsite Electric Power Systems to Verify Proper Load Group Assignment, U.S. Nuclear Regulatory Commission, March 16, 1973

11. Pegulatory Guide 1.47, Bypassed and Inoperable l 10 Status Indication for Nuclear Power Plant Safety Systems, U.S. Nuclear Pegulatory Commission, May 1973

12. Fegulatory Guide 1.53, Application of the Single l 10 Failure Criterion to Nuclear Power Plant Protection Systems, U.S. Nuclear Regulatory Commission, June 1973

13. Pegulatory Guide 1.62, Manual Initiation of Protective Actions, October 1973. 30 14 Pegulatory Guide 1.63, Electric Penetration l 10 Assemblies in Containment Structures for Water-Cooled Nuclear Power Plants, U.S. Nuclear Pegulatory .

Commission, July 1978. l 15

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GIBBSSAR i m 8.2 Offsite Power System This section is provided in the Utility-Applicant's SAP.

8.2.1 Interf ace Pequirements The Gibbs & Hill Standard Nuclear Power Plant is designed to have two physically independent and separate offsite power sources, The primary of f site source provides power to the station service transformers. The alternate offsite source provides power via a backteed connection f rom the unit output switchyard t hrough the main transformers and the unit auxiliary transformers. This is as shown on the Simplified Main One Line Diagram, Fig ure 8. 3- 1.

Both of the of fsite sources may be in the same switchya rd . Two independent circuits are required so that a failure of one circuit will in no way af fect the other and result in the loss of both ci r cuits . The Utility-Applicant must perform a system l 15 stability analysis and the offsite power system must be capable of satisfying the following station power requirement:

10

a. Two independent power sources as described above

b. Steady state plant auxiliary load of approximately 75 MVA 15

c. Nominal voltage (for station service transf ormers) as available . tor primary, 6.9 kV for secondary

d. Allowable voltage varia t ion, assumed to be +5 percent during normal operation

e. Nominal frequency, 60 Hz 10 The Utility Applicant must also perform an analysis to determine the treguency decay rate of the grid system. This frequency rate is required by PESAP-414, in setting of the reactor coolant pump underspeed trip set point.

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GIBBSSAP 10 The plant has two three-winding, three phase, 60-Hz unit auxiliary transf ormers with seconda ry voltage of 6900-V. The secondary windings of each unit auxiliary transformer are connected to the 6900-7 buses by means of metal-enclosed bus ducts as follows (see Figure 8.3-1, Class 1E bus supply circuit breakers in normal cubicle) :

Transf ormer Buses TIA-1 x winding 1A1, 1AS, 1EA1 y winding 1A2, 1A6 TIA-2 x winding 1A3, 1A7 y winding 1A4, 1A8, 1EA2 Alternate locations f or circuit breaker elements provide a means for maintaining power to the Class 1E buses; the details are described in subsection 8.3.1.1.b.

Switchgear for all the 6900-V buses is standard 500 MVA interrupting-ca pacity 7.2-kV class metal clad medium-voltage l 10 switchgear. All circuit breakers are air-break type. Continuous current ratings are 1200 A for load feeder breakers. Incoming supply breakers for buses 1A1, 1A2, 1A3, and 1A4 are rated 2000 A continuous. Incoming supply breakers for reactor coolant pump buses are rated 1200 A continuous. The switchgear is metal clad with metal barriers between breakers. The 6900-V Class 1E switchgear and the 6900-V switchgear that energizes the non-Class 1E reactor coolan- pumps are located in a seismic Catecory I structure, as s hown in Figure s 8. 3-5 and 8. 3-7, and a re seismically qualified in accordance with the criteria discussed in Section 3.10. Two circuit breakers are connected in 10 series to f eed each reactor coolant pump motor, as shown in Figure 8.3-1.

The 6900V Switchgear that energizes the Non-Class 1E reactor coolant pumps is desianed and manufactured in accordance with 15 Class 1E Standards.

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Each of the circuit breakers on reactor coolant pump buses 1AS, 1A6, 1 A7, and 1A8 receives a trip signal in the eve nt of an underspeed condition. The underspeed trip signa l design is described in Section 7.2 of the NSSS SSAR. In addition to the reaular trip coil which is reserved f or other non-safety-related tripping functions, each reactor coolant pump feeder circuit breaker is equipped with a second separate trip coil. This 15 second trip coil which will be actuated on a reactor coolant pump underspeed trip signal will receive its control powe r trom the Class 1E batteries as shown in Table 8.3-8. Tripping of the reactor coolant pumps on an underspeed trip signal will ensure that, the frequency decay rates of the grid do not influence or prevent the tull coastdown of the reactor coolant pumps under this condition.

Generally, motor loads exceeding 250 hp are rated 6600-V, and are connected to the 6900-V buses for across-the-line sta rting.

Dry-type transformers (6900 V to 480 V, three phase, 60 Hz) are connected to 480-V metal-enclosed switchgear (60 0-V-cl ass) 15 arranged as double-ended load centers. The switchgear is arranced in several independent station service distribution bus connections. Air-break circuit breakers are f urnished with rated interrupting capability of 50,000 A. A bus tie between the buses provides service it one transformer is unavailable. The 480-V llh switchgear provides power to various motor control centers (MCC) and motors.

Generally, motors rat ed up to 100 hp are connected to '4CC and larger motors are connected to 480-V switchgear.

The 118-Vac, single-phase, 60-Hz power, which is required for essential non-Class 1E loads is supplied by solid-state inverters IVIC-1, IVIC-2, and IVIC-3 a s shown in Fig ure 8. 3-1.

Each inverter receives incoming normal power supply from either non-sa f et y-rela ted 480-Vac :4CC 1n5-1 or 185-2, and a backup de power supply from 125/250-V battery BT1D2-2 by means of an a uc t ionee ri ng-t ype circuit. The distribution panel PT1C1 provides an alternate source of regulated ac power to the 118-Vac buses during inverter maintenance periods. During blackout conditions, 480-Vac MCCs 1BS-1 and 1BS-2 receive powe r from a self-contained diesel generator 1G1 which ensures continuity of essential non-safety-related services.

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GIBBSSAR When unit auxiliary transformer T1A-2 is out of service, relocation of circuit breaker, item 13, to alternate cu bicle, as shown in Figure 8.3-1 , enables unit auxiliary transformer T1A-1 to supply power to Class IF bus 1EA2 in addition to Class 1E bus 1 EA 1.

When one unit auxiliary transformer or one station service transformer is out of service, or proper combination of both are out of service, and a f ter their associated circuit breakers have been relocated, the safety-related buses of the unit can be supplied by two independent and reliable immediate-access of fsite power sources.

In addition to the two offsite sources described previously, the onsite standby diesel generators can supply power to Class 1E buses 1FAI and 1EA2; refer to Subsection 8.3.1.1.c.

2) Busi ng Arrangement Two independent and redunda nt 6900-V Class 1F huses are provided for t he unit,each capable or supplying the minimum sat e t y-re lat ed ioads required to safely shut down the unit followino a DBA. Each bus can be ted from two independent offsite power sources or from the diesel generator assigned to the bus.

Each Class 1E 6900-V bus supplies a double-ended load center '(600 V class) through d ry-type transrormers (6900 V to 480 V, three phase, 60 Hz) which supplies 480-V, metal-enclosed switchgear. A bus tie between the bus sections of the double-ended load center provides continuity or service if one transformer is unavailable.

In addition, each Class 1E 6900V bus also supplies two non-safety-related (blackout) load centers througn dry-type transformers (6900 V to 480 V, three phase, 15 60 Hz). One of these transtormers is connected in delta-delta connection, supplying power to the pressurizer heaters via a 480 V metal enclosed switchgear. The second transf ormer is connected in a delta-Wye connection, supplying power to other equipment which is operated during a loss of of f site power. The 6.9 kV teeder breakers for these transformers are qualified as Class 1F equipment, and trip on an accident signal in a ccordance wit h nequlatory Guide 1.75.

Arranoement of buses is shown in Piqure 8. 3-1.

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GIBBSSAR O

The voltage levels at the safety related buses will be optimized for the full load and minimum load conditions that are expected 10 throughout the anticipated range of voltage variations of the offsite power source by the l 12 automatic operation of the on-load tap changer of the Station Service and Unit Auxiliary Transformers. 10 The safety-related bus voltage levels will be measured as part of the preoperational test program and during plant startup. Since the extreme conditions assumed for the worst case calculations cannot be readily contigured, the voltages on the buses will be measured and verified to be within acceptable limits for severa l 15 ditterent existing load conditions. Documentation of these measurement s and their verification will be available tor NRC inspection as part of the startup test results.

To permit veritication that bus voltage is within the suitable range durina plant operation, voltages on the 10 safety related 6900-V and 480-V buses are indicated in the control room.

3) Loads Supplied From Fach Bus The loads supplied from each independent and redundant 6900-V bus and 480-V load centers are shown in Table 8.3- 7 The loads supplied from each of the various motor control centers will be sgogn ,,n3 the 10 Utility Applicant's FSAP. ,,hh 3 y j ,

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4) Manual and Automatic Interconnections Between Buses, Buses and Loads, and Buses and Supplies There are no manual or automatic interconnections between a Class 1E bus and its redundant counterpart.

There is no way of connecting a load of one Class 1E bus to the redundant Class 1E bus. Therefore, each Class 1E 10 bus is confletely independent of its redundant counte rpart. The only time a Class 1E 6 9 00-V bus is connected to more than one power source is after manual synchronization of one standby diesel generator to its related Class 1E bus. Paralleling of diesel generators is not possible due to electrical isola tion and se paration and administrative procedures which preclude testing more than one standby diesel genera tor at a time. Autcmatic transfer of a Class 1E 6900-v bus from the primary offsite power source to the alternate offsite power source is by sequential transfer fast 10 transfer.

5) Interconnections Between Saf ety-Felated and Non-Safety-Related Buses There are no manual or automatic direct connections between any Class 1E (saf ety-related) bus and any non-Class 1E (non- saf e ty-r elated) bus.

6) Pedundant Bus Separation All redundant buses are arranged to maintain electrical and physical isolation from each other in order to satisfy the single-failure criterion. Physical locations of these buses and related electrical distribution are shown in Figures 8.3-5 and 8.3-7.

l 10 The 6900-V and 480-V switchgear for the redundant safety-related loads are located in individual rooms in the seismic Category I auxiliary building. Each room contains only electrical equipment, thereby, minimizing exposure to mechanical, water, or fire damage caused by failure of equipment such as steam lines, waterlines, pumps and motors. Switchgear of redundant trains are further separated by placing the equipment on different floor elevations.

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7) Equipment Capacities All switchgear is adequately sized and coordinated to permit safe and reliable operation under no rmal, short circuit, and momentary current conditions.

The diesel generators are sized so that each set is capable of carrying the safety-related loads of respective train for a DBA. itsl10 The estimated capacity of each diesel generator set and the estimated loads used to determine this capacity are given in Table 8.3-1 and 8.3-2. This estimated size will be revised, if requi red , as the detailed plant design progresses and depending on the manufacturer's standard sizes. The design and continuous rating 15 applied is consistent with NRC Regulatory Guide 1.9 and IEEE 387.

Capacities of individual loads are determined on the basis of nameplate rating, pump pressure, and flow conditions or pump runout conditions. The basis of selection is noted in Table 8.3-1 and 8.3-2. l15 Interrupting capacity of switchqear, load center, MCCs, and distribution panels are nelected on the basis of short-circuit calculations. Transf ormer impedances are se lec ted to permit starting the largest motor on the hun without the voltage at the motor terminals dropping below 80 percent of the motor voltage rating, while still remaining wit hin the interrupting and momentary capabilities of the breakers.

8) Automatic Loading and Stripping of Puses The 6.9 kV Class 1E buses are normally fed f rom the primary ottsite power supply through the Station Service Transtormers.

In the event of a DBA the following significant operations are initiated:

10 a) The reactor is shutdown and the turbine generator is tripped b) Trippinq of the turt'ine generator will open the aenerator load break switch automatically.

8.3-8 Amendment 15 4c4n ,n,1541 160 3J7U JUv

GIBBSSAR e) If the transfer is successfully completed plant shutdown proceeds with all auxiliary loads still available.

f) If the fast transfer is not completed within the design time limit, then fast tra nsf er is automatically blocked and the loads on the 6.9 kV non Class 1E busses will be automatically shed by the bus undervoltage relays.

g) The loads on the Class 1E busses, which are being 10 supplied by the preferred offsite source, continue to operate and any additional loads required for safe shutdown are sequenced on in accordance with Table 8.3-2.

Voltage conditions on the 6.9 kV Class 1E busses are monitored by two systems of undervoltage protection.

One system senses a low or total loss of voltage and a second system which senses a sustained degradation of bus voltage. Each system consists of three voltage sensors connected in a two out of three coincidence scheme on each bus. The resultant output will incorporate a time delay to prevent spurious trips due to momentary voltage distrubances. Setpoints for the voltage sensors and time delay relays will be determined by analysis of the voltage requirement chara cteristics of the safety related equipment for all onsite distribution voltage levels. The time delay, including 15 suitable margin, will not exceed the maximum time delay assumed in the Utility Applicant's FSAP accident analysis and will not result in a failure of any safety system component due to extended operation at a degraded voltage condition.

Each redundant saf ety-related train has a set of two automatic load sequencers; one for sequentially applying the ESF loads in the event of a Safety Injection Actuation Signal (SIAS) and one for sequentially applying loads required during either a loss of voltage or a sustained degradation of voltage on the 6.9 kV Class 1E bus. The set of sequencers associated with each Class 1E train are completely independent from the set on the cther Class 1E train, thus eliminating the possibility on a common failure mode. Control of the 6.9 kV Class 1E bus supply breakers is accomplished separately and not by the sequencers; a failure of any

8. 3- 9 d Amendment 15 1541 161 icanu

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GIBBSSAR sequencer will not affect the availability of either the offsite or onsite power source s. In order for a sequencer to commence connecting the appropriate loads, proper bus voltage must be present on the 6.9 kV Class 1E buses, regardless of the source.

Load shedding is automatically blocked during the sequencing cycle of either of the sequencers and is 15 automatically unblocked subsequent to the completion of the sequencing cycle. Indication of the load shed blocking sta t us will be provided in the control room.

Details of this design, including set points, system tolerences, sequencer realibility inf ormation and design detail drawings will be contained in the Utility Applicant 's FSAR.

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1541 162 8.3-9e Amendment 15

GIBBSSAR

9) Safety-Related Equipment Identification Safaty related equipment identification is discussed in Subsection 8.3.1.3.

10 Instrumentation and Control Control of the 6.9 kV Class le supply breakers is from l 15 the control room where voltmeters, ammeters, frequency meters, synchroscopes, control switches, and controls are available as required by the operator. Control of the supply breakers is also available at the switchgear, but synchronizing control is only provided in the control room. Control of each supply breaker from the control room is dependent on the remote-local control switch in the switchgear being in the remote position.

To close a circuit breaker requires operation of two switches; the tirst, the synchronizing two position (off, sync) switch, and the second, the control four position (pull out, trip, neutral, close) switch. l1 The electrical control circuits for all BOP safety related equipment are designed to assure that the disabling of one component does not, through incorporation of interlocking or sequencing controls, render other components inoperable. In the cases where this concition cannot be avoided, administrative 15 procedure will be provided to assure the operating personnel's awareness of the system constraint during all modes of operation. These control circuits will be reviewed and the results discussed in the Utility Applicant's FSAP.

390 aUi 1541 163 8.3-10 Amendment 15

GIPBSSAR The unit auxiliary and station service transformers are protected by differential relays and overcurrent backup relaying. Paults within the differential relay zone of the unit auxiliary transf ormer cause the unit to trip and the unit output breakers in the unit output switchyard to open. The non-Class 1E 6900-V buses fast transfer to the primary of f site power source. A fault within the differential zone around either station 10 service transformer opens the high-voltage breakers in the primary ottsite power source substation. The 6900-V Class IF buses automatically transfer to the alternate offsite power source through the unit auxiliary transformers with no loss of opera tion.

All protective devices are coordinated to isolate a fault or abno rmal condition as quickly as possible without damaging or interfering with the effective operation of the rest of the system.

Only conventional protective relays of reliable designs with well-defined and proven theory of operation and operating characteristics will be selected for Class TE application.

Pelay settinos are based on calculation which takes into lo account manuf acturer's tolerances.

Acceptance tests and calibration tests for each relay will be performed in accordance with manufacturer's recommendation. Periodic testing is performed on each relay to verify proper relay operation. The testing interval will be established such that any set point drift will not exceed the allowable tolerance. The allowable tolerance will be determined by the Relay 15 Coordination Analysis. Results of this analysis will be discussed in the Utility Applicant's FSAP.

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1541 164 8.3-12 Amendment 15

GIBBSSAR

12) System Testing and Surveillance Circuit design incorporaten test provisions to periodically monitor the operational capability of the safety-related Class 1E systems during power operation.

Initially, all safety-related equipme nt is tested to verify compliance with performance specificaticns after final assembly and during the startup testing phase.

The diesel generators are tested prior to plant startup to demonstrate their ca pability to satisfy design requirements. The following tests are administered to certify the adequacy of the units for the intended service:

a) Starting tests b) Load acceptance tests c) Rated load tests d) De91cn load tests e) Load rejection tests f) Electrical tests g) Functional tests At the operating license review stage, a review of operating, maintenance, and testing procedures will be made to determine the extent of usage of jumpers or other tempora ry forms of bypassing functions for operating, testing, or maintaining of safety related systems. Results of this review will be provided in the 15 Utility Applicant's FSAP.

The criteria for the use of jumpers in testing is in comformance with Pegulatory Guide 1.118.

iran J4v 711 1541 165

8. 3- 12a Amendment 15 0

GIBBSSAR 8.3.1.4.2.2 General Plar.t Areas In plant areas where hazards are limited to failures or f aults internal to the electric equipment or cables, minimum spacing is 3 teet between redundant cable trays separated horizontally

and 5 teet between those separated vertically.** It minimum spacing 11 is unattainable, a fire barrier is provided in accordance with IEEE 384-1974.

(mea s ured from the side rail of one tray to the side rail of the adjacent tray)

- (measured from the bottom of the top tray to the top of the side rail of the bottom tray) .

8.3.1.4.2.3 IIostile Environments In general class 1E wiring systems will not be routed through an area where there is potential for accumulation of large quantities of oil or other combustible material. If such routing is unavoidable, only one system of redundant cables is allowed in any such area, and the cables are protected by flame retardant material as discussed in Section 9. S .1. In areas potential missiles, physical arrangement or protectivecontaining barriers preclude simultaneous loss of more than one redundant system.

l1 8.3.1.4.2.4 Flect rical Penetration Areas separate penetrations are provided for 6900-V power, 480-V power, control, and instrumentation cables ot each Class 1E train and protection channel. The design objective is maximum possible separation between Class 1E trains, and between any large piping penetrations and Class 1F trains to minimtze damage from steam or waterline ruptures. Protection from the main steam and f eedwat e r lines is provided by means of reinforced concrete walls or tloors. Electrical penetration areas located on ditterent floor elevations provide adequate physical separati)n between redundant circuits. Inoncases where redundant instrumentation channels will be routed the same elevation, and in the same general area, the redundant channels will be locatad on opposite sides of the areas, if teasible. Minimum separation distance between individual penetration nozzles is 6 foot centerline to centerline.

Connectors, termination lugs, and terminal blocks will all be utilized in connecting the field cables inside the containment to 15 the elect rical penetrations. Connectors will be used on coax and 8.3-30 Amendment 15 1541 166

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GIBBSSAR O

triax cables, termination lugs will be used on larce power cables, and terminal blocks located in terminal boxes will be utilized by all other cables.

All Class 1E connections between field cable and electrical penetrations inside the containment will be qualified 15 to withstand the environmental conditions resulting from a LOCA or steam line break. A fter the penetration vendor has been selected, and the detailed design finalized, the supportive documentation will be provided in the Utility Applicant's FSAP.

Location and separation of penetrations are shown in Figure 8.3-3.

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1541 167 8.3-30a Amendment 15

GIBBSSAR 8.3.1.4.2.5 Cable Tray Crossover Areas In cases where redundant trays cross over each other in areas where only electrical equipment is located, there is a minimum vertical separation of 15 inches (free air s pac e) . Fire protection requirements are in accordance with Section 9.5.1. 10 8.3.1.4.3 Seismic Fequirements cable trays, supports, and ducts carrying Class 1E circuits meet Seismic Category I requirements. In addition, trays and supports carrying non-Class 1E circuits that cculd jeopardize the integrity of Class 1E circuits or other safety related equipment are also designed to meet seismic requirements.

8.3.2 dc Power Systems 8.3.2.1 Description The de systems provide dc and ac (inverters) energy for plant control and instrumentation and energency lighting under all modes of plant operation, including loss of all ac power sources, until these sources are restored. Sa f ety-related loads are supplied by four redundant 125-Vdc systems designed to operate without interruption during and after a DBA, an SSE, or a tornado. These systems are classified Class 1E, seismic Category I, and as such, their design requirements conform to IEEE 308-1974, IEEE 344-1975, IEEE 384-1974, IEEE 450-1975, IEEE 484-1975, and NRC Pegulatory Guides 1.6, 1.32, 1.75, and 1 1.93. Figure 8.3-1 depicts the main arrangement for the station de systems.

The dc systems are comprised of four independent and redundant Class 1E 125-V systems and one 125/250-V battery system. Each Class 1E 125-V system consists of one battery, one main distribution bus with air circuit breakers, two static battery chargers, local distribution panels, and feeders.

Battery BT1IDI feeds distribution panel 1ED1-1 and inverter 1V1PC-1 which supplies channel I and train A load requirements.

Battery BT1ED3 feeds distribution panel 1ED3-1 and inverter IV1PC-3 which supplies channel III load requirements.

Battery BT1ED2 feeds distribution panel IED2-1 and inverter 1C1PC-2 which supplies channel II and Train B load requirements. 10 8.3-31 Amendment 10 154\ \68

GIBBSSAR

c. System Testing and Surveillance Periodic maintenance testing of the de systers is be performed to monitor the condition of the equipnent to ensure operation. reliable Visual inspections, liquid level, specific gravity, l1 and cell voltage checks are performed at regular intervals on each battery as well as a performance discharge test. All maintenance and testing procedures and criteria for replacement are in accordance with IEEE 450-1975. Visual checks performance tests are also scheduled for the battery chargers. andl1 Testing intervals are in accordance with technical specifications as follows:

Item Periodic Test ne scription Test Interval Batteries liquid level pilot cell, weekly specific gravity, and all cells, quarterly cell voltage visual inspection and weekly performance discharge test 5 years, during retueling service test during each refueling operation but not to exceed 18 months Battery visual inspection weekly charger Performance tests Yearly, during refueling The preoperational and initial startup programs of the Class 1E dc system are f o rmulated in accordance with NRC Regulatory Guides 1.41 and 1.68.

At the operating license review stage, a review of operating, maintenance, and testing procedures will be made to determine the extent of usage of jumpers or other temporary forms of bypassina tunctions for operating, testina, or maintaining of safety-related systems . Fesults of this review will be provided in the Utility Applicant's FSAP. 15 The criteria f or the v'-s. of ~ jumpers in testing is in conformance with Pequlatory Guide k .. ; 8 .

6.3-35 Amendment 15 1541 169 1CAA xa,u

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GIBBSSAR 8.3c2.2 Analysis Design of the Class 1E 125-V de systems meets the requirements of GDC 17, GDC 18, IEEE 308-197 84, and Regulatorv Guides 1.6, 1.32, and 1.93. Compliance with these criteria is described in l 1 subsection 8.3.1.2. Seismic requirements are incorporated into the dc system equipment specifications. The manufacturers are l1 required to seismically qualif y the equipment and document the iU4U ~> l O '

O 1541 170 8.3-35a Amendment 15

GIBBSSAR results in accordance with IEEE 344-1975, as supplemented by l1 Branch Technical Position (EICSB) 10.

Redundant power supplies and equipment satisfy the GDC for a single failure. Load groups are connected to their related battery systems to prevent loss of power in one load group from causing loss of equipment in another load group. A failure mode analysis is presented in Table 8.3-6.

The quality assurance program discussedinChapter17 ensures l1 compliance with established criteria. Equipment identification is discussed is subsection 8.3.1.3. Independence of redundant systems is discussed in subsection 8.3.1.4 The extent of implementation of the design criteria for NSSS equipment is discussed in the NSSS SSAP.

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1541 17I 8.3-36 Amendment 1

GTPPSS)9 TABLF 9. 3- 7 (Sheet 3 of 4)

LOADU?G C AP ACI*Y (1) l 13 (We st inghouse- 414)

Buses 1EB1, 1EB3 Buse? 1FB2, 1EP4 l 13 and MCCs With ard MCCe With 4 8 0-V Load Pmergency P u se s And MCCs Access 60 Pus 1FA1 tecess to Bus 1F)2 Containment air recirculation and cooling system tans 24 125 2a 125 Neutron detector well cooling f an 40 30 CPDM fans 23 40 24 40 Plant ventilation chilled water system recire. pumps 24 40 to Centrol roce emergency recire. tan 10 10 Control roce emergency recire. heater 20 kW 20 kW Diesel generator room supply tins 2a 25 2s 25 Diesel generatcr room supply tan 24 20 24 20

--. Centritogal charging pump room aux. cooling unit fan 7.5 7.5 (y, CCus pump room aux. cooling unit fans 24 10 24 10 Aux. f eedwater pump room aux. cooling unit fan 7.5 7.5 Centritugal cha rging pump aux. lube oil pump 2 2 MEh Station service water intake structure vent. supply g g unit fan 15 15

--a Cont ainment spray and HHFI pump room aux, cooling 13 h---h

,sq unit fan 15 15 I\3 Saf ety features chilled water system main recire.

pumps 2a 25 24 25 g, 3/

controlled access area ventilation exhaust 7.5 '.5 N

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equipment roca aux. cooling unit fan i Centrol roor emergency pressurization fan 0.2 0.2

( Tl Control room erergency pressurization heater 1 kW 1 kW

- s. Control room ITVAC unit 30 ?O h9Jc)

C 3 Uncontrolled access areas ventilation system exhaust fans 2a 20 24 20 r emed Uncontrolled access area ventilation system L 4 supply fans 23 20 2a 20 hh533

-- ^

Heat tracing boron injection system 75 kW 75 kW g q 3 Instrument air compressor 150 '50 Instrument air dryer 12 kW 12 kW Notes:

(1) Loads supplied f rcm each Pus. Patings are Nameplate Horsepower (unless kW noted) . A merdm an' 13

GIPPS S AF T)B LF 8.3-7 (S heet 4 of 4)

LOADING CAPACITY (1) l13 (We stinghouse- 414)

Buses 1EB1, 1E91 Buses 1EB2, 1EB4 l 13 480-V Load Emergency Buses And MCCs and MCCs With and MCCs With pecers *o Pus 1EA1 Access to Pus 1?t 2 Positive displacement charging pump 75 Pos. displacement pump room aux, cooling unit fan 1 Poric acid trarster pump 27 kW Uncontrolled access battery room exhaust f ans 27 kW 23 0.75 2a 0.75 Spent fuel pool cooling room aux. cooling unit fan 7.5 Pressurizer heater 7.5 cFF pump room aux. cooling uni : fan 1292 kW (total) 808 kW (tot al) 5 5 Controlled access area ventilation emergency exhau9t unit fan 50 50 centrolled access area emergency exhaust unit heater 100 kW 100 kW Diesel generater starting air compressors 15 15 Diesel gereratcr f uel cil transfer pumps 24 3 28 Station service water screenwash pumps 3 I MEb (site specific) 13 g 28 20 24 20 3 Station service water traveling screans 4 (site specific) 23 5 2a !

h )

( ) Staticn service water screenwash strainers ,

43 (site s pecific) 24 0.5 Pattery chargers 24 0.5 C:) 43 50 kW 4a 50 kW Motor-operated valves (estimated) 190 (' -~ *B (total) 190 (* ota l)

Instrument and controls 10 kW (e Saf ety related 120 V inverters 10 kW [3 qed t

2a 10 kW 23 10 kW control room exhaust fan 1.5 1.5

, Control room air makeup f an 1.5 Fire protection bocster pump 1. 5 50 50 Containment hydrogen analyzer 20 20 I!ydrogen recombiners 75 kW 75 kW c;ggy Miscellaneous sump pumps 843 833 "

Diesel auxiliaries (estimated) 20 20 (J7 Diesel jacket water motcr driven aux. pump 235 kW 288 kW h 43, Continuous Diesel Generator Pating = 7000 kW Notes:

N ( 1) Loads supplied frem each Bus. Fatings are Nameplate Horsepower (unless kW noted) . A mar.d ma n* 1?

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GIBBSSAR g 0 0 8.4 OcDingag.

Interface Information Electrical interface requirements with the Utility-Applicant are described in subsection 8. 2.1. The onsite de electric system is designed on the basis of four Class 1E batteries and their 10 respective distribution. The cable routing system is designed on the basis of the routings defined in subsection 8.3.1.3, Physical Identification of Safety-Related Equipment, wherein both a reactor protection channel and an actuation train are in the same routing; a difference in potential of the circuits is the only basis for the separation requirement.

The GIBBSSAR/RESAR-414 interface requirements that are listed below correspond to the same items listed in RESAR-414, Section 8.3.1.2

1. The AC electrical power supply system is separated into two l 15 redundant load groups or electrical power trains.

2. Each of these two electrical power trains has access to both a preferred and a standby power supply as described in Section 8.3.1.1. Therefore the Class 1E bus in each of the 10 two electrical power trains, has access to an off-site power source and one emergency diesel generator.

3. Each of the two emergency diesel generators is sized to provide all the electrical power required to operate the engineered sateguards equipment assigned to the corresponding l15 electrical power train. These diesel generators start automatically on receipt of an engineered safeguards actuation signal ("S" signal) independent of the availability of off-site power.

4. In the event that off-site power is available following the accident, the emergency diesel generators are not connected to the respective Class 1E buses in each electrical power train. With off-site power available, all equipment operating prior to the accident continues to operate. The 10 safeguards equipment associated with each power train is sequentially started.

S. In the event that a loss of off-site power occurred coincident with or subsequent to the postulated accident, the two emergency diesel generators are automatically started and connected to the respective Class IE buses when a loss of voltage is sensed. They will be designed to accept a W-414 8.4-1 Amendnent 15 1541 174 ac4m .--

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hj sequential loading of all the assigned safeguards equipment within 10 seconds atter receipt of the "S" signal.

6. This temporary loss of voltage associated with the loss of off-site power terminates the operation of all dependent 10 equipment and only the required engineered safeguards equipment will be sequentially started and loaded on the corresponding diesel generators.

7. On-site emergency standby electrical power systems frequency and voltage variations of a transient nature (i.e., not 15 steady state) meet the requirements of Regulatory Guide 1.9, 1971.

8. The 6900 V and 480 V Class 1E buses provide sufficient voltage to start Class 1E motors. The minimum starting voltage for Class 1E motors is 80 percent of the motor rated voltage at the motor terminal.

9. Means will be provided through limited operator actions to manually transter residual heat removal suction isolation valves 9000A, 9001B to the alternate Class 1E power supplies. 10

10. The GIEBSSAR design takes exception to the RESAR-414 requirement to provide redundant Class 1E power sources, through manual switch over to the positive displacement charging pump. As described in F ESAR Section 9. 3.4. 2. 5, the positive displacement chargina pump is primarily used for hydrotesting the Reactor Coolaat System but is capable of providing sufficient flow for reactor coolant pump seal injection during the abnornal conditions when both centrifugal charging pumps are inoperable. In addition, Table 8.3-1 of RESAR-414 indicates this pump is not required for the safe shutdown of the plant during accident conditions, and it is non-Class 1E. Therefore, the RESAR-414 requirement to provide redundant Class 1E powe r so urces ,

through manual switchover, to the positive displacement pump is not safety related and does not justify the more complex 15 design along with the possibility of compromising the independence of the redundant Class 1E systems. This pump, however, is supplied from one Class 1E bus as shown on Table 8.3.2.

In addition to the criteria described above, GIBBSSAR also complies with the following requirements required by the NRC in the " Report to the Advisory Committee on Reactor Safeguard by the Office of Nuclear Regulation in the Matter of We stinghouse W-414 8.4-2 Amendment 15 m 1 EAn iJ7U 7h

-Ll f

GIBBSSAR Electric Corporation Reference Safety Analysis Report RESAR-414",

July 1978,

a. Four redundant and independent Class 1E 120 volt vital buses 15 are provided. Each vital bus has the capability of being powered from either a Class 1E ac bus or a Class 1E dc bus via an inverter.

+5ew 1541 176 W-414 8.4-2a Amendment 15

GIBBSSAR D**D D '3'l o o t[ o,I,h.Au ._,

s ystem. The surge tank level is indicated both locally and in the control room, where high and low levels are annunciated.

One chemical addition tank is supplied. Upon detection of l 4 in-leakage, manual adjustments are made at the CCW surge tank, I 11 until dissolved solids and corrosion inhibitor design ! 4 concentrations as specified in RESAR-414 Section 1. 7.1. are achieved. g Makeup water is normally delivered to the surge tank from the demineralized tank water storage tank, with automatic operation of the level control valve s. Under emergency conditions, makeup water can be supplied from the Safety Class 3, Seismic Category I portion of the fire protection system. 11 9.5.1 and Figures 9.2-6 and 9.5-1B.

See subsection 9.2.3 and Radiation detectors monitor the CCWS. If the radiation level of the cooling water exceeds a predetermined value ,

given in the control room and the vent on the CCWS an alarm is surge tank is automatically closed. A vacuum breaker and a relief valve are provided to protect the surge tank.

9.2.2.3 Safety Evaluation The CCWS is comprised of two full-capacity essential loops and one nonessential loop. During emergency operation, the nonessential loop is automatically isolated from the essential loops. The two loops are separated from each other by two a utomatically operated valves. The failure of the nonessential cooling loop has no adverse af fect on plant capability to safely shut down the plant or maintain the plant in a safe shutdown 11

'g condition.

l9 One branch of the nonessential loop supplies a header which penetrates the reactor containment and supplies the coolant pumps with the required cooling water. A secondreactor branch or the nonessential loop provides cooling water to the heat exchangers inside the containme nt. If a rupture occurs in the thermal barrier cooler of a reactor coolant pump, the flow in the component cooling water line from the thermal barrier cooler would increase because of the in-leakage from the reactor coolant system. High flow is detected downstream of the thermal barrier cooler and results in the closure of the motor operated valve 15 downstream of the cooler. The self-actuating excess flow check valve downstream of the motor operated valves from the four reactor coolant pumps also closes on high flow. The air operated bypass valve is actuated to open only in the event of f ailure of W-414 9.2-10 Amendment 15 1541 177

GIBBSSAR the excess flow check valve into a closed position. Detection of excess flow by any of the thermal barrier cooler flowmeters a utomatically overrides the opening signal to the bypass valve. 15 The piping from the thermal barrier coolers up to the excess flow check valve and bypass valve is designed to withstand reactor coolant pressure and terrperature.

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1541 178 W-414 9.2-10a Amendment 15 e

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- "J m The performance of all components is monitored from the control room. Low flow, low pressure, high temperature, and high radiation level, which are all indicative of system malfunctions, are annunciated in the control room.

Leakage from any system being cooled by the CCWS is detected by an increase in the level of the CCW surge tank or by an increase in the system radiation level, when the system being cooled is l 11 contaminated. Details of the radiation-monitoring equipment are given in Section 11.5. Leakage from the CCWS to the service water system or to the atmosphere is detected by a decrease in g the CCW surge tank level. I 11 A partition in the surge tank provides separate surge volumes for each essential loop. If one essential loop develops a leak and is taken out of service, the operation of the other loop is unaffected. If a leak develops in the nonessential loop, it can be isolated from the essential loops and operation is unaf fected.

The partition is designed to maintain its integrity while one side of the surge tank is empty. All components of the CCWS are l 9 located inside of a Seismic Category I structure. The CCW pumps, the heat exchangers, and the essential loops are in the ESF area.

The components of the two essential loops a re physically separated within the ESF area by a dividing structure. The 11 CCWS pumps are located at elevation 94 feet, 6 inches, which is a bove the flooding level that can occur due to equipment f ailure within the building. These conditions, together with the l 9 classification of the CCWS as Seismic Category I, make the system capable of withstanding adverse environmental occurrences such as postulated eart hqua kes , tornadoes, and tornado generated missiles.

The physical separation of the two essential loops precludes coincident damage to redundant equipment in the event of a postulated pipe rupture, equipment failure, or missile generation. Protection against dynamic ef fects associated with the postulated rupture of piping are discussed in Section 3.6.

9.2.2.4 Tests and Inspections Periodic chemical examination of the component cooling water is made for pH, chloride content, and corrosion inhibitor content; if required, manual ad jus tment is made utilizing the chemical addition tank to meet the Westinghouse chemistry specifications listed in RESAR-414 Section 1. 7 .1. Periodic visual inspection ano preventive maintenance can be conducted as necessary without 6 interruption of cooling system operation.

W-414 9.2-11 Amendment 11 1541 179 P 4 _

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GIBBSSAR TABLE 9.2-10 CCMPONENT COOLING WATER SYSTEN INTERFACE RECUIREMENTS (Wes t ing house-414)

RESAR-414 GIBBSSAR Interface Iter Reference Reference Comments I

Flows and heat Table Table 9.2-6 Interf ace i tem discussed loads 9.2-1 and Table 9.2-7 throughout Section 9.2.2 6 Electric power Section 8.3 Section 8.3 Instrumentatior. s ubsection sutsection and controls 7.1.2 7.3.1 Compatibility of s ubsection subsection various plant 9.2.2 7.3.1 operations Compatibility ct subsection subsection Interface item discussed 6

NSSS components 9.2.2 9.2.2.2 throughout Section 9.2.2 requiring cooling Compatibility of s ubsec tion subsection component design 9.2.2 9.2.2 Single active subsection Table failure of 9.2.2 9.2-9 safeguard portion I by system Chemical addition subsection subsection and corrosion 9.2.2 9.2.2 protection Component cooling Table subsection water temperature j _. limits 9.2-1 9.2.2 g

( n A Reactor Coolant subsection subsection C ::a

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'IABLE 9.2-11 DL11NEEALIZED ' WATER MAFEUP SYSTEM INTEPFACE REQUIREMENTS (Wes t ing house-414)

EEEAR GIBBSSAR Interface Item Feterence Peterence Comrents Chemical sutsection Table specification 9.2.3.1 9.2-12 Water sutsection subsection requirernents 9. 2. 3. 2 9.2.3 C

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1541 183 Amendment 15

GIBBSSAR

4) Fire stops are provided within the cable trays whenever the cables penetrate walls or floors designated as fire barriers. Fire stops are provided in long vertical runs and are located at intervals equivalent to floor spacings.

The fire stop specification vill require that the fire stop design prevent the propagation of a fire for a minimum period of thirty minutes when tested for the 8 largest number of cable routings and maximum cable density.

Vertical cable tray runs are provided with solid steel covers for a minimum distance of 6 feet-0 inches above the floor for physical protection of the cable.

5) The type of barrier employed on crossover trays, if required, will be described in the Utility Applicant's 15 FSAR.

6) Only electric cable construction that passes the current 115 IEEE Standard 383 are used in cable trays. Any exception will be addressed in the Utility-Applicant's 8 SAR.

7) Cable raceways are used only for cables. l15

8) Miscellaneous storage and piping for flammable or l 15 combustible liquids or gases are situated such that the y do not create a potential exposure hazard to safety related systems.

d) Ventilation

1) In all cases during a fire, the affected area vill be isolated from the balance of the HVAC system. The smoke and hot gases will be contained in the area until monitored. Subsequent to monitoring, smoke removal will 8 be generally accomplished by the use of manually controlled releases through the plant ventilation systems. Smoke control and removal is in compliance with NFPA-204.

jEAe =*m

- a,U ) J V~

l541 184 9.5-19 Amendment 15

GIBBSSAR h

All ductuork that penetrates a designated fire barrier is equipped with an approved damper with a rating equivalent to that designated for the barrier. All fire dampers are equipped with heat-responsive elements which automatically release the fire damper blade when the air 8 temperature in the ductuork exceeds the predetermined element operating temperature. Fire dampers are normally open and close during a fire condition. Fire e

1541 185 0

9. 5- 19a Amendment 15

GIBBSSAR dampers in the computer rooms are equipped with halon overrides to ensure closure prior to release of the halon system protecting the respective area. Fire dampers located in ductwork supplying ventilation to areas containing safety-related equipment are seismically qualified to ensure that the dampers will not close during a seismic event. Dampers located in fire barriers are fire rated. These dampers are equipped with fusible links to ensure closure in the event of a fire.

Fire detectors are located in the ductwork supplying air to the control room. This ensures that a fire in one train of the ventilation system will not impair safe shutdown, as the redundant train will be used.

2) Smoke and gases generated from fires involving radioactive materials are monitored for radioactivity using the monitors installed at the plant vent stack.

3) Ven tila tion power and control cables are separated by 8 safety division, for safety related areas. Power supply and controls for the ventilation system are routed outside the fire area served by the system to the extent practical.

4) Engineered safety. features filters are protected in accordance with the guidelines of NRC Regulatory Guide 1.52.

Charcoal filter fires are considered on the basis of the total quantity of charcoal in the filters. The filter train can be readily isolated from the remainder of the ductwork by fire dampers. The charcoal filter is contained within a steel container.

Each filter train is protected by a separate heat detection and water deluge system. The warning thermostats alert the operator to isolate the filter and actuate the deluge system if required.

)541 186 9.5-20 Amendment 8

GIBBSSAR 3/4.8 ELECTRICAL POWER SYSTEMS 3/4.8.1 A.C. SOURCES OPERATING LINITING CONDITION FOR OPERATION 3.8.1.1 As a minimum, the following A. C. electrical power sources shall be OPERABLE:

a. Two physically independent circuits between the offsite transmission network and the onsite Class 1E distribution system, and

b. Two separate and independent diesel generators each with:

1. Engine mo unted (if any) and day fuel tanks containing a minimum of 1590 gallons of fuel, 15 2.

n A separate of fuel storage 90,000 gallons system of fuel, and containing a minimum l 10

3. A separate fuel transfer pump.

APPLICABILITY MODES 1, 2, 3 and 4.

ACTION:

a. With either an offsite circuit or diesel generator of the above required A. C. electrical powe r sources inoperable, demonstrate the OPERAPIllIY of the remaining A. C. sources by pctrorming Surveillance Requirements 4.8.1.1.1.a and 4.8.1.1.2.a.4 within one hour and at least once per 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months thereafter; restore at least two offsite circuit and two diesel generators to OPERABLE status within 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months or be in at least HOT STANDBY 10 within the next 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months and in COLD SHUTDOWN within the following 30 hours3.472222e-4 days 0.00833 hours 4.960317e-5 weeks 1.1415e-5 months .

b. With one offsite circuit and one diesel generator of the above required A. C. electrical power sources inoperable, demonstrate the OPERABILITY of the remaining A. C. sources by performing Surveillance Requirements 4.8.1.1.1.a and 4.8.1.1.2.a.4 10 within onei hour and at least once per 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months thereafter; restore 3/4 8-1 Amendment 15 1541 187

GIBBSSAR O

at least one of the inoperable sources to OPERABLE status within 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months or be in at least HOT STANDBY within the next 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months and in COLD SHUTDOWN within the following 30 hours3.472222e-4 days 0.00833 hours 4.960317e-5 weeks 1.1415e-5 months . Restore at least two offsite circuits and two diesel generators to OPERABLE status within 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months from the time of initial loss or be in 10 at least HOT STANDBY within the next 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months and in COLD SHUTDOWN within the following 30 hours3.472222e-4 days 0.00833 hours 4.960317e-5 weeks 1.1415e-5 months .

c. With two of the above required offsite A. C. circuits inoperable, demonstrate the OPERABILITY of two diesel generators by performing Surveillance Requirement 4. 8.1.1. 2. a . 4 within one hour and at least once per 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months thereafter, unless the diesel ! 10 generators are already operating; restore at least one of the inoperable offsite sources to OPERABLE status within 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months or be in at least HOT STANDBY within the next 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months . With only one offsite source restored, restore within at 72 least hourstwo offsite from circuits to OPERABLE status l 10 time of initial loss or be in at least HOT STANDBY within the next 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months and in COLD SHUTDOWN within the following 30 hours3.472222e-4 days 0.00833 hours 4.960317e-5 weeks 1.1415e-5 months .

d. With two of the above required diesel generators h inoperable, demonstrate the OPERABILITY of two offsite A. C. circuits by performing Surveillance Requirement 4.8.1.1.1.a within one hour and at least once per 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months thereafter; restore at least one of the inoperable diesel generators to OPERABLE status within 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months or be in at least HOT STANDBY within the next 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months and in COLD SHUTDOWN within the following 30 hours3.472222e-4 days 0.00833 hours 4.960317e-5 weeks 1.1415e-5 months . Restore the two diesel generators to OPERABLE status within 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months from time of initial loss or be in at least HOT STANDBY within the next 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months and in COLD SHUTDOWN within the following 30 hours3.472222e-4 days 0.00833 hours 4.960317e-5 weeks 1.1415e-5 months .

1541 188 3/4 8- 2 Amendment 10

GIBBSSAR ELECTRICAL POWER SYSTEMS SHUTDOWN LIMITING CONDITION FOR OPERATION 3.8.1.2 As a minimum, the following A. C. electrical power sources shall be OPERABLE:

a. One circuit between the offsite transmission network and the onsite Class 1E distribution system, and

b. One diesel generator with:

1. Engine mounted (if any) and day fuel tanks containing a minimum at 1590 gallons of f uel, 15

2. A fuel storage system containing a minimum of 90,000 gallons of fuel, and l 15

3. A fuel transfer pump.

APPLICABILITY: MODES 5 and 6.

ACTION:

With less than the above minimum required A. C. electrical power sources OPERABLE, suspend all operations involving CORE ALTERATIONS or positive reactivity changes until the minimum required A. C. electrical power sources are restored to OPERABLE status.

SURVEILLANCE REQUIREMENTS 4.8.1.2 The above required A. C, electrical power sources shall be demonstrated OPERABLE by the performance of each of the Surveillance Requirements of 4.8.1.1.1 and 4.8.1.1.2 except for requirement 4.8.1.1.2a.6.

1541 189 3/4 8- 5 Amendment 15

GIBBSSAR O

ELECTRICAL POWER SYSTEMS 3/4.8.2 ONSITE POWER DISTRIBUTION SYSTEMS A . C. DISTRIBUTION - OPERATING LIMITING CONDITION FOR OPERATION 3.8.2.1 The following D. C. electrical busses shall be OPERABEL and energized from sources of power other than the diesel generators:

(6900) volt Emergency Bus No. 1EA1 (6900) volt Emergency Bus No. 1EA2 (480) volt Emergency Bus No. 1EB1, 1EB3 (480) volt Emergency Bus No. 1EB2, IEB4 (118) volt A.C. Vital Bus No. IPC1 (118) volt A.C. Vital Bus No. 1PC3 (118) volt A.C. Vital Bus No. 1PC2 (118) volt A.C. Vital Bus No. 1PC4 APPLICABLITY: MODES 1, 2, 3 and 4.

ACTION:

With less than the above complement of A. C. busses OPERABLE, restore the inoperable bus to OPERABLE status within 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months or be in at least HOT STANDBY within the next 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months and in COLD SHUTDOWN within the following 30 hours3.472222e-4 days 0.00833 hours 4.960317e-5 weeks 1.1415e-5 months .

SURVEILLANCE REQUIREMENTS 4.8.2.1 The specified A. C. busses shall be determined OPERABLE and energized from A. C. sources other than the diesel generators at least once per 7 days by verifying correct breaker alignment and indicated power availability.

3/4 8-6

GIBBSSAR Question 010.90 Table 9. 2- 10 of your PSAR regarding component cooling water interfaces is not complete. RESAR-414 also has interface requirements for the CCW to the RCP's identified in Section SA of RESAR-414. Verify that your CCW design meets these requirements. 10 Also discuss how your design meets the safety related interf ace requirements in RESAR-414, Section SA, regarding protection against a pressurizer relief tank rupture disc missile.

Response 010.90 The GIBBSSAR CCW system design meets the interface requirements for the CCW to the reactor coolant pumps identified in Section SA of RESAR-414. See section 7.3.1.1.d, revised section 9.2.2.3, Table 9.2-10, and Figures 9.2-4, and 7.3-1 sheet 2F.

The pressurizer relief tank rupture discs are designed so failure should not result in the formation of missiles. Failure of the 15 rupture disc results in splitting of the disc into quadrants.

The quadrants are held in place at the circumference of the disc.

1541 19I QO10-94 Amendment 15

GIBBSSAR O

Question 010.91 In your response to our request 010.43 you state that the reactor makeup water storage tank and associated safety related piping and pumps will be designed to seismic Category I requirement, but will be non-nuclear safety class. It is our position that those portions of the reactor water makeup system that are used as a seismic Category I makeup source be designed to Quality Group C requirements as shown on Figures 9.2-5 and 9.2-6. Revise your design Section 9. 2.3 and Figure 9.1-3 as necessary. Also revise Table 3. 2- 1 to include the piping and valves of the reactor makeup water system that provide makeup to the spent fuel pool. 10 Response 010.91 The seismic Category I makeup source has been changed from the Reactor Makeup Water System to the Fire Protection System.

Consequently, the Reactor Makeup Water System has been classified as non-nuclear safety related. The fire protection booster pumps and the system piping and valves used as the seismic Category I makeup source will be designed to Safety Class 3 and seismic Category I requirements. See Section 9.2.3.2, revised Sections 9.1.2.2, 9.5.1.1, 9.5.1.2, and 9.5.1.6.5, revised Table 3.2-1, and revised Figures 9.1-3, 9.2-1, 9.2-2, 9.2-6, 9.4-5, and 9.5-1B. g 1541 192 0010-95 Amendment 10

GIBBSSAR Ouestion 040.8 (8.2.1)

Include the power requirements (KVA ratings) for station service, unit auxiliary and main transformers and the corresponding input voltage requirements as interface requirements for the utility 10 applicant.

Response 040.8 Input voltage requirements as interface requirements for the utility applicant are described in revised Section 8.2.1. See revised Figure 8. 3- 1 f or transformer ratings. 15

\541 193 Q040-9 Amendment 15

GIBBSSAR Ouestion 040.9 (8. 3 .1.1.a)

Section 8.3.1.1.a discusses tripping the reactor coolant pump breakers in the event of a decrease-frequency condition.

PES AR-414 interface requir3ments of Section 7A indicates that reactor coolant pump speed sensors provide a reactor trip on pump underspeed but does not trip the RCP breakers on power frequency decay rates of 5 Hz/second. Since Section 8.2.1 of GIBBSSAR specifies a frequency decay rate of 5 Hz/sec or less, it appears 10 from the discussion in section 8.3.1.1.a that an inconsistency exists between the information presented in Section 8.3.1.1.a and that contained in Section 7A of RESAP-414.

Response 040.9 See revised Sections 8.2.1 and 8.3.1.1.a e

1541 194 O

Q040-10 Amendment 10

GIBBSSAR Ouestion 040.19 ( 8. 3. 2.1.c)

DC System testing.

The DC testing delineated in 16.3/4.8.2.32 should include a resistance measurement cell-to-cell and terminal connections at least once each 18 months. 10 Besnonse 040.19 See revised Section 16.3/4.8.2.3.2.

154\ 195 Q040-21 Amendment 10

GIBBSSAR Question 040.20 (8. 3. 2. 3)

O Regulatory Guide 1.40, 1.62 and 1.108 should be added to the list of references (per 040.6, 040,13).

Pesponse 040.20 See revised Section 8.1.4.

15 1541 196 9 0040-22 Amendment 15

GIBDSSAR Question 040.31 (rig. 8. 3- 1)

This figure should be revised to indicate input cransformer 10 ratings and major bus voltages (see 040.7) .

-Recoonse 040.31 15 See revised Figure 8.3-1.

1541 197 0040-35 Arrendment 15

GIBBSSAR Question 040.32 (Tables 8. 3- 1, 8. 3- 2)

Some of the component nomenclature and ratings of tables 8.3-1 and 8.3-2 do not correspond with those listed in RESAR 414, tablen 8.3-1, 8.3-2. (Examples: Station Service Water Pumps vs. 10 Essential Service Water Pumps, 450 HP rating for PHP Pumps vs.

500 HP.)

P eview the PESAP-414/GIBBSSAR Tables 8.3-1, 8.3-2 and revise the listing as necessary to resolve the differences.

Pesponse 040.32 See revised Tables 8.3-1 and 8.3-2 for updated nomenclature and ratings. Loads that are within the Architect Engineer's scope 12 of design use the nomenclature established in GIBBSSAR.

O 1541 198 9

0040-36 Amendment 12

GIBBSSAR Question 040.41 The day tank associated with each diesel generator set should be 10 provided with an overflow line to return excess fuel oil delivered by the transfer pump back to the fuel oil storage tanks. Show this on Fig. 9.5-2 (SR P 9. 5. 4, Part III, Item 5d) .

Response 040.41 The overflow line is shown on revised Figure 9.5-2. Also see revised Section 9.5.4.2. g 1541 199 Q040-45 Amendment 11

GIBBSSAP h Ouestion 040.42 Identify any high energy piping system (s) in the diesel engine room areas and indicate what means are provided to protect the following diesel engine systems from the ef fects of a failure of high energy piping:

a. fuel oil systems 10

b. cooling water system

c. air starting system

d. lubrication system

e. combustion air intake and exhaust system (SPP 9.5.4 Part III, Item 8; SPP 9.5.5, Part III, Item 4; SRP 9.5.6, Part III, Item 5; SPP 9.5.7, Part III, Item 3 ; SFP 9.5.8, Part III, Item 6c) .

Pesponse 040.42 There are no high energy piping systems in the diesel engine room 11 O areas. The consequences of a moderate energy line failure are described in revised Section 9.5.4.3.

1541 200 9

Q040-46 Amendment 11

GIBBSSAR Question 040.75 Provide the results of a failure mode and effects analysis to 10 determine the effect of malfunctions of the turbine bypass system on the operation of the reactor and main turbine generator unit (SBP 10.4.4, Part III, Item 4) .

Response 040.75 Section 10.4.4.3 states that the steam dump system is not essential for the safe shutdown of the plant. The statements made in section 10.4.4.3 are made in accordance with SEP 10.4.4, 11 Part III, Item 4a.

Section 3.6.1.1.a concerns itself with failure of Turbine Building high energy piping.

1541 201 Q040-79 Amendment 11

GIBBSSAP Question 040.76 Pegarding our original question 040.01, the interface information listed in Section 1.8 should include the GIBBSSAP and PESAP-414 information for the electrical power systems similar to the fluid systems information in Table 1.8.2. Section 1.8 should reference s ection 8.4 for the electrical interface information contained 15 therein. Provide this information.

Response 040.76 See new Section 1.8.5.

9 1541 202 4

0040-60 Amendment 15

GIBBSSAF Ouestion 040.77 General -

Your response to our question 040.2 indicated a response will be provided by a given later date. The responses to our questions 040.8 and 000.31 are in the same category, however, dates for submittal of information on 040.8 and 040.31 were not given. Provide the dates that this information will be provided. 15 Fesponse 040.77 See revised response to Question 040.8 and 040.31. Fesponse to Question 040.2 was revised under Amendment 14.

1541 203 Q040-81 Amendment 15

GIBBSSAP O

Question 040.78 General -

Your responses to a number of our questions indicated that certain information will be discussed in the utility applicants FSAP. The questions involved are 040.11, 040.14, 040.15, 040.21, 040.24, 040.28, 040.29 and 040.31. The applicable sections of the SSAP should contain a notation to this effect, that is, that the specific information will be included in the utility applicants FSAP.

Pesponse 040.78 The applicable sections of GIBBSSAP have been revised to 15 incorporate the responses of the referenced Questions. The applicable sections are listed as follows:

Revised Applicable Question No. GIBBSSAF Section 040.14 8.3.1.4.2.4 j 040.15 9. 5.1. 6. 4. c i

g 040.21 8. 3.1.1. b (8) 040.24 8.3.1.4.2.4 040.28 8. 3.1.1. b (12) , 8. 3. 2.1. (c) 040.29 8. 3.1.1. b (10)

No reference was made to the Utility Applicant's FSAP in the response to Question 040.11 and 040.31, therefore, no revision was made in GIBBSSAP.

!541 204 0

0040-82 Amendment 15

GIBBSSAP Question 040.79 Your response to our question 040.4 (revised section 3.1.17) states that automatic sequencing of safety-related loads will be performed whether the ESF busea are powered from the onsite or offsite power sources. Expand your description of ESF load sequencing and address whether or not you employ independent or common load sequencers when using either onsite or offsite power sources. If common sequencers are used, provide a detailed analysis to demonstrate that there are no credible sneak circuits or common failure modes in the sequencer design that could render 15 both onsite and of fsite power sources unavailable. In addition, provide information concerning the reliability of your sequencers and reference design detailed drawings.

Fesponse 040.79 See revised Figure 8.3-2 and Section 8. 3.1.1.b (8) .

1541 205 0040-83 Amendment 15

GIBBSSAR h

Question 040.80 Your response to our question 040.11 included revisions to S ection 8. 3.1.1. b (8) and Figure 8.3-2. Explain the logic a ssociated with the bus IEAI (System 1-loss of voltage) and (System 2-undervoltage) signals as these signals initiate load shedding, bus IAEI supply breaker tripping, and load sequencing.

Figure 8.3-2 should show the option to sequence the ESF loads on either offsite or onsite power when a safety injection signal is received, load shedding associated with a safety injection signal with availability of offsite power and the load shed blocking logic (as explained in note 7) . It is requested that system 15 descriptions and detailed electrical control circuits for the standby DG automatic starting and loading sequencer system, including initiating curcuits and load shedding and sequencing when offsite pcwer is available, be provided for information.

Pesponse 040.80 See revised Figure 8.3-2 and Section 8.3.1.1.b(8) .

O 1541 206 9

Q040-84 Amendment 15

GIBBSSAP Question 040.81 Your response to our question 040.12 does not address the relay 15 trip set point drift concern. Provide this information.

Fesponse 040.81 See revised Section 8.3.1.1.b(11) .

1541 207 0040-85 Amendment 15

GIBBSSAP h Ouestion 000.82 Your response to our question 040.23 is not complete.

Considering that the system includes automatic operation of 15 on-load tap changers to compensate for load changes, we require that the adequacy of the design be verified and that the description of making the verification be provided.

Pesponse 040.82 See revised Section 8.3.1.1.b(2) .

O 1541 208 9

Q040-86 Amendment 15

GIBBSSAP Ouestion 040.83 Your responses to questions 040.26 and 040.27 are not complete.

Pegarding 040.26, we require your analysis of battery charger operation during transients (including disconnecting the battery) and other operating modes that could degrade battery charger operation. Pegarding our question 040.27, the effect on equipment connected to the battery charger during overvoltage conditions should be addressed. The voltages and tolerance requirements for the connected systems are contained in the NSSS interface requirements, Chapter 7A, PESAP-414.

Fesponse 040.83 a) In responding to question 040.26, Section 8.3.2.1.a was revised in Amendment 10 of GIBBSSAF to state that "The batteries will be connected to their respective buses under all modes of operation." Consequently, the possible instability which the battery charger may experience upon the 15 disconnection of the battery is not applicable. The battery charger is sized to supply the largest steady-state load while maintaining the battery in a fully charged condition.

During possible transient conditions, such as if the transient load demand exceeds the battery charger rating, the battery will supply the needed addtional current to the load and maintain the DC system stability.

b) In responding to question 040.27, Section 8.3.2.1.b was revised in Amendment 10 of GIBBSSAR to state that "Each charger is automatically regulated and equipped with a de voltmeter, de ammeter, ac failure, battery cha rger high voltage relay and battery low voltage relays. Malfunction of a charger annunciates in the control room and trips the charger main breaker; charger main breaker status is indicated in the centrol room and alarms for an of f-normal position indication."

In addition, the de equipment connected to the Class 1E 125 V de system is designed to function properly between 105 V and 140 V dc. (This voltage and tolerance requirement is in agreement with the NSSS interface requirement stated in Appendix 7A of PESAP 414.) Therefore, the equipment connected to the battery chargers is protected against the battery charger overvoltage condition by the battery charger high voltage relay which trips the charger main breaker if the charger output voltage exceeds 140 V.

1541 209 0040-87 Amendment 15

GIBBSSAR h Question 040.84 Paragraph 8. 4- 10 takes exception to the PES AP-414 requirement to provide redundant Class 1E power sources, through manual switchover, to the positive displacement charging pump. Provide justification for this exception. 15 Fesponse 040.84 See revised Section 8.4.

1541 210 g Q040-88 Amendment 15

i GIBBSSAP Ouestion 040.85 Section 8.1-3 (4) of the SSAP references IEEE 323 (1974)

IEEE Standard for Qualifying Class 1E Equipment for Nuclear Power Generating Stations.

In order to ensure that your environmental qualification program conforms with General Design Criteria 1, 2, 4 and 23 of Appendix A and Sections III and XI of Appendix B to 10 CFP Part 50, and to the national standards mentioned in Part II " Acceptance Criteria" (which includes IEEE Std 323) contained in Standard Peview Plan Section 3.11, the following information on the qualification program is required for all Class 1E equipment.

1. Identify all Class 1E Equipment, and provide the following:

a. Type (functional designation) 15

b. Manufacturer

c. Manufacturer's type number and model number

d. The equipment should include the following, as applicable:

1) Switchgear

2) Motor control centers

3) Valve operators

4) Motors

5) Logic equipment

6) Cable

7) Diesel generator control equipment

8) Sensors (pressure, pressure differential, temperature and neutron)

9) Limit Switches

10) Heaters

11) Fans

12) Control Boards

13) Instrument racks and panels

14) Connectors

15) Electrical penetrations

16) Splices

17) Terminal blocks

\hh\

0040-89 Amendment 15

GIBBSSAR h

2. Categorize the equipment identified in (1) above into one of the following categories:

a. Equipment that will experience the environmental conditions of design basis accidents for which it must function to mitigate said accidents, and that will be qualified to demonstrate operability in the accident environment for the tine required for accident mitigation with safety margin to failure.

b. Equipment that will experience environmental conditions of design basis accidents through which it need not function for mitigation of said accidents, but through which it must not fail in a manner detrimental to plant safety or accident mitigation, and that will be qualified to demonstrate the capability to withstand any accident environment for the time during which it must not fail with safety margin to failure.

c. Equipment that will experience environmental conditions of design basis accidents through which it need not function for mitigation of said accidents, and whose g failure (in any mode) is deemed not detrimental to plant safety or accident mitigation, and need not be qualified 15 for any accident environment, but will be qualified for its non-accident service environment.

d. Equipment that will not experience environmental conditions of design basis accidents and that will be qualified to demonstrate operability under its normal or abnormal service environment. This equipment would normally be located outside the reactor containment.

3. For each type of equipment in the categories of equipment listed in (2) above provide separately the equipment design specification requirements, inclu6ing:

a. The system safety function requirements.

b. An environmental envelope as a function of time which includes all extreme pa rameters, both maximum and minimum values, expected to occur during plant shutdown, normal operation, abnormal operation, and any design basis event (including LOCA and MSLB) , including post-event conditions.

O Q040-89a Amendment 152

GIBBSSAF

c. Time required to fulfill its safety function when subjected to any of the extremes of the environmental envelope specified above.

d. Technical bases should be provided to justify the placement of each type equipment in the categories 2.b and 2.c listed above.

4. Provide the qualification test plan, test set-up, test procedures, and acceptance criteria for at least one of each group of equipment of (1. d) as appropriate to the category identified in (2) above. If any method other than type testing was used for qualification (operating experience, analysis, combined qualification, or ongoing qualification) ,

describe the method in sufficient detail to permit evaluation of its adequacy. 15

5. For each category of equipment identified in (2) above, state the actual qualification envelope simulated during testing (defining the duration of the hostile environment and the margin in excess of the design requirements) . If any method llk other than type testing was used for qualification, identify the method and define the equivalent aqualification envelope" so derived.

6. A summary of test results that demonstrates the adequacy of the qualification program. If analysis is used for qualification, justification of all analysis assumptions must be provided.

7. Identification of the qualification documents which contain detailed supporting information, including test data, for items 4, 5,and 6.

In addition, in accordance with the requirements of Appendix B of 10 CFR 50, the staf f requires a statement verifying: 1) that all Class 1E equipment has been (OL) or will be (CP) qualified to the program described above, and 2) that the detailed qualification information and test results are (or will be) available for an NFC audit. 1541 213 Q040-89b Amendment 15

GIBBSSAP O oesponse 040.85 The following item numbers correspond with the numbers in the questicn:

1. See New Table 3.11-6 for identification of Class 1E equipment. The specific information concerning the type, manufacturer, manufacturer's type number and model number are not presently available. Upon selection of equipment vendors and after receipt, review and acceptance of this information from the vendor, it will be available for NFC review.

2. The equipment identified in Table 3.11-6 falls ih the following categories:

a. Category "a", all equipment shown located inside of the containment.

15

b. Category "b" - none

c. Category "c" - none 4

d. Category "d", all equipment shown located outside of the containment.

3. a. See revised Section 3.11.2.a

b. See revised Section 3.11.2.a

c. See revised Section 3.11.2.a

d. Not applicable.

4 See revised Sections 3.11.2.b,c,d.

5. The qualification envelope is shown on Table 3.11-3 and 4 for egaipment located inside of and outside of the containment, respectively. The margin in excess of the design requirement will be in accordance with the factors described in Section 6.3.1.5 of IEEE 323-1974.

6. Test results and summaries that demonstrate the adequacy cf the qualification program will be available for NFC ev.ew upon receipt of the test report from the Vendor.

O t Q040-89c Amendment 15 1541 214

GIBBSSAP

7. Documentation will be consistant with Section 8 of IEEE 323 as described in Section 3.11.2.e.

In addition, GIBBSSAF Section 3.11.2 has been revised to include 15 the following statement. "All BOF Class IE equipment will be qualified in accordance with the f ollowing requirements, the detailed qualification information and test results will be available for NFC audit." 1541 215 0040- 89d Amendment 15

GIBBSSAR Question 131.62 ( 3. 7. 2) Your response to Question 131.29 is not satisf actory. Clarify the following:

1. How are lateral earth pressure and hydrostatic pressure considered in your analysis?

2. An upward vertical acceleration will reduce the weight of a structure. Is this considered in the definition of W indicated in Equation (4) on Page 3.7-297 8 Response 131.62 See revised Section 3.7.2.14 1

                                      \54\ 2\6 Q 131-69                Amendment 8

GIBBSSAR h Question 131.63 (3.7A) Your response to Item 131.34 is not complete. Referencing benchmark calculations is not enough. You are requested to submit sample problems comparing the computer code solution with a solution obtained by either hand calculations or other computer code solution, which is in public 8 domain, so that the reviewer has opportunity to re vie w the results of the two solutions. In case that the computer code has been verified by means of tests, the test re port should be submitted together with the computerized solution for review. Response 131.63 The verification documentation of Gibbs & Hill in-house programs as listed in Section 3.7A, i.e., SCONV, SPECTRA, QUAKE, and TIME has been transmitted to you under separate cover by letter LGH-NRC-70. The verification of these programs are in accordance 15 with the procedure outlined in the abo ve question, and are clearly described in each program documentation. 1 C

                                            )bh\

O Q 131-70 Amendment 15

OUTSIDE CONTAINHENT ! M vI-FROM THERHRL BARRIER COOLERS R.C. PUMPS 1,2&3

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2. INSTRUMENTATION APPLICATION FOR HOTOR AIR COOLERS 2 v

1

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GlBBSSAR FLOW DAGR4 r/ . NSSS: Rd COOLING SATEP NOT SPECIFIC D '{ SYSTEM W - 414 5 CE () anw o FIGURE NO. 9. 2 - 4 q m i m . ,cn [ r e ! a

EFFECTIVE PAGE LISTING GIBBCSAE: VOLUME 1 1-1 (0) (1) 1-11 (0) 1-iii (0) 1-iv (0) 1-v (0) 1.1-1 (0) (1) (10) 1.1-2 (0) (1) (6) Ti.1-1 (6) 1.2-1 (0) (7) 1.2-2 (0) (1) (4) (7) 1.2-3 (0) (1) (7) 1.2-4 (0) (1) (7) 1.2-4a (7) 1.2-5 (0) (1) (7) 1.2-6 (0) (7) 1.2-7 (0) (1) (7) 1.2-8 (0) (7) 1.2-9 (0) (7) 1.2-10 (0) (7) F1.2-1 (0) F1.2-2 (0) F1.2-3 (0) (2) (5) (6) F1.2-4 (0) (2) (5) (6) F1.2-5 (0) (2) (5) (6) F1.2-6 (0) (2) (4) (5) (6) F1.2-7 (0) (2) (5) (6) F1.2-8 (0) (2) (5) (6) F1.2-9 (0) (2) (4) (5) (6) F1.2-10 (0) (2) (5) (6) 1.3-1 (0) T1.3-1 Sh. 1 (0) T1.3-1 Sh. 2 (0) T1.3-1 Sh. 3 (0) T1.3-1 Sh. 4 (0) T1.3-1 sh. 5 (0) T1.3-1 Sh. 6 (0) (1) 1.4-1 (0) (1) 1.5-1 (0) 1.6-1 (0) T1.6-1 Sh. 1 (0) (3) T1.6-1 (J7 Sh. 2 (3) T1.6-2 43. Sh. 1 (0) T1.6-2 __. Sh. 2 (0) T1.6-2 Sh. 3 (0) T1.6-2 Sh. 4 (0) T1.6-2 IN) Sh. 5 (0) T1.6-2 rs) Sh. 6 (0) 1.7-1 & (0) 1.8-1 (0)

O EFFECTIVE PAGS LISTING GIBBSSAR: VOLUME 1 1.8-2 (0) (8) 1.8.2a (8) T1.8-1 Sh. 1 (0) (15) T1.8-1 Sh. 2 (0) 21.8-1 sh. 3 (0) T1.8-1 Sh. 4 (0) (10) T1.8-1 Sh. 5 (0) T1.8-1 Sh. 6 (0) T1.8-1 Sh. 7 (0) T1.8-1 Sh. 8 (0) (1) T1.8-1 sh. 9 (0) (10) T1.8-1 Sh. 10 (0) T1.8-1 Sh. 11 (0) (10) T1.8-1 Sh. 12 (0) T1.8-1 Sh. 13 (0) T1.8-1 Sh. 44 (0) (10) T1.8-1 Sh. 14a (IC) T1.8-1 Sh. 15 (0) (10) T1.8-1 Sh. 15a (10) T1.8-1 Sh. 16 (0) T1.8-1 Sh. 17 (0) T1.8-1 Sh. 18 (0) T1.8-1 Sh. 19 (0) T1.8-1 Sh. 20 (0) T1.8-2 Sh. 1 (0) (1) (3) (4) T1.8-2 Sh. 1a (3) (4-deleted) (8) T1.8-2 sh. 2 (1) (3) (4) T1.8-2 Sh. 2a (3) (4-dele ted) T1.8-2 Sh. 3 (1) (3) (4) T1.8-2 Sb. 3a (3) (4-oele ted) T1.8-2 sh. 4 (1) (3) (4) T1.8-2 sh. 5 (1) (3) (4) T1.8-2 Sh. 6 (1) (3) ie) (8) T1.8-2 Sh. 6a (3) (4-dele ted) (8) T1.8-2 Sh. 7 (1) (3) (4) (8) T1.8-2 sh. 8 (1) (3) (4) (8) T1.8-2 Sh. 9 (1) (3) (4) (8) T1.8-2 Sh. 10 (1) (3) (4) (8) T1.8-2 Sh. 10a (8) T1.8-2 Sh. 11 (1) (3) (4) T1.8-2 --- Sh. 11a (3) (4-delete ;) T1.8-2 (y, Sh. 12 (1) (3) (4) T1.8-2 43, Sh. 12a (3) (4-dele ted - T 1. 8- 2 sh. 13 (1) (3) (4) (8)

-~^

T1.8-2 Sh. 14 (1) (3) (4-dele ted) T1.8-2 sh. 15 (1) (3) (4-dele ted) T1.8-2 rs) Sh. 15a (3) (4-dele ted) T1.8-2 pgj Sh. 16 (1) (3) (4-deleted) T1.8-2 Sh. 17 (1) (3) (4-dele ted)

~sa

EFFECTIVE P AGE LISTING GIBBSSAR: VOLDs3 1 T1.8-2 Sh. 18 (1) (3) (4-dele ted) T1.8-2 Sh. 18a (3) (4-dele ted) T1.8-2 Sh. 19 (1) (3) (4-dele ted) T1.8-2 sh. 20 (1) (3) (4-dele ted) T1.8-2 Sh. 21 (1) (3) (4-deleted) T1.8-2 Sh. 22 (1) (3) (4-dele ted) T1.8-2 Sh. 22a (3) (4-dole ted) T1.8-2 Sh. 23 (1) (3) (4-deleted) T1.8-2 Sh. 23a (3) (4-dele ted) T 1. 8- 2 Sh. 24 (1) (3) (4-dele ted) T1.8-2 Sh. 24a (3) (4-dele ted) T1.8-2 Sh. 25 (1) (3) (4-dele ted) T1.8-2 sh. 25a (3) (4-dele ted) T1.8-2 Sh. 26 (1) (3) (4-deleted) T1.8-2 Sh. 26a (3) (4-dele ted) T1.8-2 Sh. 27 (1) (3) (4-deleted) T1.8-2 Sh. 28 (1) (3) (4-dele ted) T1.8-2 Sh. 29 (1) (3) (4-dele ted) T1.8-2 Sh. 30 (1) (3) (4-deleted) T1.8-2 Sh. 31 (1) (3) (4-dele ted) T 1. 8-2 Sh. 32 (1) (3) (4-dele ted) T1.8-2 Sh. 32a (3) (4-deleted) T1.8-2 sh. 32b (3) (4-dele ted) T1.8-3 Sh. 1 (0) T1.8-3 Sh. 2 (0) (7) (8) T1.8-3 sh. 2a (8) T1.8-3 Sh. 3 (0) (8) T1.8-3 Sh. 3a (8) T1.8-3 Sh. 4 (0) T1.8-3 Sh. 5 (0) 1.9-1 (0) (1) (3) (4) 1.9-la (3) (4) 1.9-1b (3) (4) 1.9-2 (0) (3) (4) 1.9-2a (3) (4) 1.9-3 (0) (3) (4) 1.9-Ja (3) (4) 1.9-3b (3) (4) 1.9-4 (0) (3) 1.9-4a -* (3) (4) 1.9-5 (y, (0) (3) (4) 1.9-Sa 43, (3) (4) F1.9-1 (0) (2) (6)

~~^

2-1 (0) (1) (6) 2-ia (6) 2-11 N (0) 2-111 rsj (0) (6) 2-iv (0) CX3 2-v (0)

EFFECTIVE PAGE LISTING GIBBSSAB: VOLD5E 1 2-vi (0) 2-vii (0) (1) 2-viii (0) 2-ix (6) (0) 2.1-1 (0] 2.2-1 (ej 2.3-1 (0) (1) 2.3-2 (0) 2.3-3 (0) 2.3-4 (0) (1) 2.3-5 (0) (3) 2.3-6 (0) (1) (3) 2.3-7 (0) (3) 2.3-8 (0) (1) 2.3-9 (0) (1) 2.3-9a (1) (3) 2.3-9b (1) 2.3-9c (1) 2.3-9d (1) T2.3-1 (0) (1) (3) T2.3-2 (0) (1) (3) T2.3-3 Sh. 1 (0) (1) T2.3-3 Sh. 2 (0) (1) T2.3-3 Sh. 3 (0) (1) (3) T2.3-4 (0) (1) (3) T2.3-5 T2.3-6 (0) (3-deleted) T2.3-7 (0) ( 1) (3-deleted) (0) T2.3-8 (0) T2.3-9 (0) T2.3-10 (0) T2.3-11 (0) T2.3-12 (0) T2.3-13 (0) T2. 3- 14 (0) T2.3-15 (0) T2.3-16 (0) T2.3-17 (0) F2.3-1 (0) F2.3-2 (0) F2.3-3 (0) F2.3-4 ~~' (0) F2.3-5 LJ7 (0) (1) F2.3-6 4:= (0) (1) F2.3-7 (0) (1) 2.4-1 (0) 2.4-2 (0) 2.4-3 IN (0) 2.4-4 PN) (0) W

EFFECTIVE P AGE LISTING GIBBSSAB: VOLUME 1 2.4-5 2.4-6 (0) (0) 2.4-7 (0) 2.4-8 (0) 2.4-9 (0) 2.4-10 (0) 2.4-11 (0) 2.4-12 (0) 2.4-13 (0) (2) 2.4-14 (0) 2.5-1 (0) 2.5-2 (0) 2.5-3 (0)

2. 5- 4 (0) 2.5-5 (0)

2. 5- 6 (5)

(0) 2.5-7 (0)

2. 5- 8 (0)

2. 5-9 (0) 2.5-10 (0) 3-1 (0) 3-11 (0) 3-111- (0) 3-iv (0) 3-iva 3-v (6)

(0) (1) 3-vi (0) (1) 3-vii (0) 3-viii (6) (0) (6) 3-viiia (6) 3-ix (0) (6) 3-x (0) (1) 3-zi (0) (1) (6) 3-zii (0) (2) 3-ziia (6) (2) (6) 3-ziii (0) (6) 3-zir (0) (2) 3-x, (6) _,, (0) (2) (6) 3-xvi (0) (2) 3-zvia LJ7 (6) (2) 3-xvii Jm (0) (6) 3-xviii a (0) 3.1-1 (0) 3.1-2 (0) 3.1-3 N (0) 3.1- 4 l>4 (0) 3.1-5 C3 (0) (1) 3.1-6 (0) 3.1-7 (0)

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EFFECTIVE PAGE LISTING GIBBSSAR: VOLUME 1 3.1-57 (40) 3.1-58 (0) (1) 3.1-59 (0) 3.1-60 (0) (1) 3.1-61 (0) 3.1-62 (0) 3.2-1 (0) 3.2-2 (0) 3.2-3 (10) (0) (4) 3.2-3a T3. 2- 1 (4) Sh. 1 (0) (1) (5) T3.2-1 Sh. 2 (0) (1) T3.2-1 (5) Sh. 3 (0) (1) (5) T3.2-1 Sh. 4 (0) (1) (3) (5) T3.2-1 Sh. 4a (2) (3) T3.2-1 (5) Sh. 5 (0) (1) (2) (5) T3.2-1 Sh. 6 (0) (1) (5) T3.2-1 Sh. 7 (0) (1) T3.2-1 (5) (9) sh. 7a (5) (6) T3.2-1 sh. 7b T3.2-1 (6) Sh. 8 (0) (1) (2) (5) (9) T3.2-1 Sh. 9 (0) (1) T3.2-1 (5) Sh. 10 (0) (1) (5) (9) T3.2-1 Sh. 10a T3.2-1 (5) (10) Sh. 11 (0) ( 1) (5) T3.2-1 Sh. 12 (0) (1) (2) (5) T3.2-1 Sh. 12a (5) T3.2-1 Sh. 13 (0) (1) (2) T3.2-1 (5) (6) Sh. 13a (2) (5) (6) T3.2-1 Sh. 14 (0) (1) (2) (5) (6) T3.2-1 Sh. 14a (2) (5) (6) T3.2-1 Sh. 15 (0) (1) (2) (5) (6) T3.2-1 Sh. 15a (2) (5) (6) T3.2-1 Sh. 16 (0) (1) (2) T3.2-1 sh. 17 (5)(6) (0) (1) (5) (6) T3.2-1 Sh. 17a (5) T3.2-1 Sh. 18 (0) (1) T3.2-1 (5) Sh. 19 (0) (1) (5) T3.2-1 Sh. 20 (0) (1) (2) (5) T3.2-1 Sh. 21 (0) (1) T3.2-2 __. (5)(6) kJ7 (0) (1) T3.2-3 sh. 1 (4) T3.2-3 42m Sh. 2 (4) 3.3-1 -* (0) (1) 3.3-2 (0) (1) (5) 3.3-3 ps) (0) (1) (5) 3.3-4 (0) (1) (5) 3.3-5 l> IN) (0) (1) (5) 3.4-1 (0) (5) (6)

EFFECTIVE PAGE LISTING GIBBSSAR: VOLUBE 1 3.4-la 3.4-2 (6) (0) 3.5-1 (0) 3.5-1a (7) 3.5-2 (7) (0) (7)

3. 5-2a 3.5-3 (7)

(0) (7) 3.5-3a

3. 5- 4 (7)

(0) 3.5-5 (0) (1) (2) 3.5-6 (0) (1) (2) 3.5-7 (0) 3.5-7a ( 6) (7) (10) 3.5-8 (6) (7) (0) (2) (5) (8)

3. 5- 8a (2) 3.5-9 (5) (8)

T3.5-1 (0) (1) (2) (5) (0) (1) T3.5-2 Sh. 1 (0) (1) T3.5-2 Sh. 2 (0) (1) T3.5-3 (0) (1) T3.5-4 (0) (1) T3.5-5 (0) (1) T3.5-6 (0) (1) T3.5-7 (0) T3.5-8 (0) T3.9-9 (0) (1) (2) T3.5-10 (0) (4) T3.5-11 Sh. 1 T3.5-11 (7) Sh. 2 (7) T3.5-11 Sh. 3 T3.5-11 (7) Sh. 4 (7) F3.5-1 (0) F3.5-2 (0) F3.5-3 (0) F3.5-4 (0) (4) 3.6-1 (0) (1) 3.6-2 (6) (0) (1) (6) (9) 3.6-2a 3.6-3 (6) LJ' (0) (1) (7) (10)

3. 6-3 a

3. 6-3 b 4* (7) (10) 3.6-4 * (7)

(0) (1) (7)

3. 6- 5 (0) (1) (2)

3. 6-Sa (7) psy (7)

3. 6- Sb 3.6-6 # (7)

L/4 (0) (2) (4s (9) 3.6-7 3.6-8 (0) (1) (2-deleted) 3.6-9 (0) (2-deleted) (0) (2-deleted)

EFFECTIVE PAGE LISTING GIBBSSAB: VOLUME 1 3.6-10 (0) (2) (4) 3.6-11 (6) 3.6-12 (0) (1) (2) (4-deleted) 3.6-13 (0) (1) (2-dele ted) 3.6-14 (0) (1) (2-deleted) (0) (2) 3.6-15 (0) (2)

3. 6- 15a (2) (4) 3.6+16 (0) (1) (2)

3. 6- 16 a (2) 3.6-17 (0) (1) 3.6-18 (0) 3.6-19 (0) 3.6-20 (0) 3.6-20a (6) (7) 3.6-20b (6) (7) 3.6-21 (6)

(0) (2) (4)

3. 6-21a (2) (4) 3.6-22 (0) (2) 3.6-23 (0) 3.6-24 (0)

T3.6-1 Sh. 1 (0) (1) T3.6-1 (6) (9) Sh. 2 (0) (1) (6) (9) T3.6-1 Sh. 3 (6) T3.6-2 Sh. 1 (0) (7) T3.6-2 sh. 2 (7) T3.6-3 (0) F3.6-1.1 (0) (2-deleted) F3.6-1.2 (0) (2-deleted) F3.6-1A (2) (10) F3.6-18 (2) F3.6-2 (11) (0) F3.6-3 (0) F3.6-4 (0) F3.6-5 (0) F3.6-6 (2) F3.6-7 (2) F3.6-8 (6) F3.6-9 _, (6) F3.6-10 ty3 (6) F3.6-11 (6) F3.6-12 4D* (6) F3. 6- 13 " (6) F3.6-14 (6) 3.7-1 rsj (0) (2) (4) (5) (8) 3.7-la t,4 (2) 3.7-2 (0) (2) 3.7-3 4* (0) (1) (2) (5) (6) 3.7-3a (2) (5)

3. 7- 4 (0) (1)

EFFECTIVE P AGE LISTIEG GIBBSSAE: VOLUME 1

3. 7-5 (0) 3.7-6 (6)

(0) (6) 3.7-7 (0) (2) 3.7-7a (5) (2) 3.7-8 (0) 3.7-9 (0) 3.7-9a (4) (8) 3.7-10 (4) (0) (1) (2) (4) (5) 3.7-10a (4) 3.7-11 (0) (1) 3.7-12 (5) (0) (5) 3.7-12a (5) 3.7-13 (0) (1) (5) 3.7-14 (0) 3.7-15 (0) 3.7-16 (8) (0) (1) (5) (8) 3.7-17 (0) 3.7-18 (5) (8) (0) (1) (5) (8) 3.7-19 (0) (1) 3.7-20 (5) (0) (5) (8) 3.7-20a (5) 3.7-21 (8) (0) (4) (5) 3.7-22 (0) 3.7-23 (4) (5) (6) (0) 3.7-24 (0) (4) (5) 3.7-25 (8) (0) (5) 3.7-26 (0) (5) 3.7-26a (5) 3.7-27 (0) (5) 3.7-28 (0) (1) 3.7-29 (0) (5) 3.7-30 (0) (1) (5) (8) 2.7-30a (5) 3.7-31 (0) (5) 3.7-31a (5) 3.7-32 (0) 3.7-33 (0) (5) 3.7-34 (0) (1) (5) 3.7-35 - (0) 3.7-36 g (0) (5) 3.7-37 (0) 3.7-38 #

            "          (0) 3.7-39                  (0) 3.7-40                  (0) 3.7-41        rs)       (0,                   (6) 3.7-42 3.7-43 u         (0) ty,      (0) (1) 3.7-44                  (0)              (5) 3.7-45                  (0) ( 1)

EFFACTIVE P AGE LISTING GISBSSAR: VOLUME 1 3.7-46 (0) 3.7-47 (0) (5) 3.7-48 (0) 3.7-49 (0) 3.7-50 (0) (6) (8) T3.7-1 (0) (1) T3.7-2 sh. 1 (0) T3.7-2 Sh. 2 (0) (1) T3.7-3 (0) T3.7-4 (0) T3.7-5 (0) (1) T3.7-6 Sh. 1 (0) (1) T3.7-6 Sh. 2 (0) (1) 3.7A-1 (0) (6) 3.7A-2 (0) (6) 3.7A-3 (0) (1) (6) 3.7A-4 (0) (6) 3.7A-5 (0) (1) (6)

3. 7A-6 (0) (6) 3.7&-7 (0) (6) 3.7A-8 (0) (1) (6) 3.7A-9 (0) (6)

3. 7A- 10 (0) (6) 3.7A-11 (0) (6) 3.71-12 (0) (6) 3.7A-13 (0) (1) (6) 3.7&-14 (0) (1) (6) 3.7A-15 (0) (1) (6) 3.71-16 (0) (6)

3. 7A- 17 ~~^ (0) (6) 3.7A-18 (0) (6) 3.74-19 LJ7 (0) (6)

3. 7A-20 42= (0) (6) 3.71-21 _. (0) (6) 3.7A-22 (0) (1) (6-deleted) 3.71-23 (0) (6-deleted) 3.71-24 r\

l/4 (0) (6-deleted) 3.7A-25 (0) (5-dele te d) 3.71-26 C7% (0) (6-deleted) 3.7A-27 (0) (6-deleted) 3.71-28 (0) (6-deleted) 3.7&-29 (0) (6-deleted) 3.7A-30 (0) (6-deleted) 3.71-31 (0) (6-deleted) T3.71-1 Sh. 1 (0) (1) (6) T3.7&-1 Sh. 2 (0) (1) (6) F3.7-1 (0) F3.7-2 (0) (8) F3.7-3 (0)

EFFECTIVE P AGE LI.';IING GIBBSSAB: VOLUBE 1 F3.7-4 (0) F3.7-5 (0) F3.7-6 (0) F3.7-7 (0) F3.7-8 (0) F3.7-9 (10) (0) (10) F3.7-10 (0) F3.7-11 (10) (0) (10) F3.7-12 (0) F3.7-13 (10) (0) F3.7-14 (0) F3.7-15 (10) (0) F3. 7- 16 (0) F3.7-17 (0) F3.7-18 (5) F3.7a-1 (0) tra N

EFFECTIVE PAGE LISTING GIBBSSAR: VOLUME 2 3.8-1 (0) (4) 3.8-2 (0) (4) 3.8-3 (0) 3.8-4 (0) 3.8-5 (0) (4) 3.8-6 (0) (4) 3.8-7 (0) (4) 3.8-8 (0) 3.8-9 (0) 3.8-10 (0) 3.8-11 (0) 3.8-12 (0) (5) 3.8-13 (0) 3.8-14 (0) (5) 3.8-14a (5) 3.8-15 (0) (1) 3.8-16 (0) (1) (5) 3.8-16a (5) 3.8-17 (8) (0) 3.8-18 (0) (5) 3.8-19 (0) (1) 3.8-20 (0) (1) 3.8-21 (0) 3.8-22 (0) (5) 3.8-22a (5) 3.8-23 (0) 3.8-24 (0) 3.8-25 (0) (5) 3.8-26 (0) (4) 3.8-27 (0) (8) 3.8-27a (8) 3.8-28 (0) (1) (5) 3.8-28a (5) 3.8-29 (0) 3.8-30 (0) 3.8-31 (0) 3.8-32 (0) 3.8-33 W (0) 3.8-34 A (0) 3.8-35 -- (0) 3.8-36 (0) 3.8-37 g (0) 3.8-38 (0) 3.8-39 U (0) (4) 3.8-40 Q (0) (3) (4) 3.8-41 (0) (4) 3.8-42 (0) 3.8-43 (0) (1) (4) 3.8-44 (0)

EFFECTIV E P A GE L13 P' .G GIBBSSAE: VOLUME - 3.8-45 (0) (1) (4) 3.8-46 (0) (1) (4) 3.8-47 (0) 3.8-48 (0) 3.8-49 (0) 3.8-50 (0) 3.8-51 (0) (4) 3.8-52 (0) (4) 3.8-53 (0) 3.8-54 (0) (5) 3.8-55 (0) (1) (5) 3.8-56 (0) 3.8-57 (0) (1) 3.8-58 (0) (5) 3.8-58a (5) 3.8-59 (0) (1) 3.8-60 (0) 3.8-61 (0) (5) 3.8-61a (5) 3.8-62 (0) 3.8-63 (0) (1) 3.8-64 (0) (1) (5) 3.8-65 (0) (1) 3.8-66 (0) 3.8-67 (0) 3.8-68 (0) ( 1) (2) 3.8-68a (2) 3.8-69 (0) (4) 3.8-70 (0) (5) 3.8-71 (0) (1) 3.8-72 (0) (4) (5) 3.8-73 (0) (4) 3.8-74 (0) 3.8-75 (0) 3.8-76 (0) ( 1) 3.8-77 (0) 3.8-78 (0) 3.8-79 - (0) 3.8-80 3.8-81 m (0) (0) 3.8-82 O

               "           (0)              (5) 3.8-83                      (0) 3.8-84                      (0) 3.8-85           N          (0) 3.8-86           g          (0) 3.8-87           g          (0) 3.8-88                      (0) 3.8-89                      (0)              (5) 3.8-89a                                      (5)

EFFECTIVE PAGE LISTING GIBBSSAR: V O L U.1 E 2 3.8-90 (0) (5) (6) 3.8-90a (5) (6) 3.8-91 (0) (6) 3.8-92 (0) 3.8-93 (0) (4) 3.8-94 (0) (5) 3.8-95 (0) T3.8-1 SR.1 (0) T3.8-1 SH.2 (0) (1) fl.8-1 (0) (3) (6-deleted) F3.8-1A (6) F3.8-1B (6) F3.8-1C (6) F3.8-1D (6) F3.8-1E (6) F3.8-1F (6) F3.8-1G (6) F3.8-18 (6) F3.8-2 (0) (3) (5) (6) (8) F3.8-3 (0) (3) (6) F3.8-4 (0) (3) F3.8-5 (0) (4) F3.8-6 (0) F3.8-7 (0) (6) F3.8-8 (0) F3.8-9 (0) F3.8-10 (0) F3.8-11 (0) (5) F3.8-12 (0) F3.8-13 (0) (5) F3.8-14 (0) F3.8-15 (0) 3.9-1 (0) 3.9-2 (0) (2) 3.9-2a (2) 3.9-3 (0) (2) 3.9-4 (0) (2) 3.9-5 - - * (0) (2)

3. 9- 6 g (0) (1) (2) 3.9-6a * (2) 3.9-7 (0) (1) (2) 3.9-8 (0) (2) 3.9-8a (2) 3.9-9 N (0) (2) 3.9-10 4=, (0) (1) (2) 3.9-11 g (0) (2) 3.9-12 (0) (2) 3.9-13 (0) (1) (2) 3.9-14 (0) (2)

EFFECTIV E PAGE LISTING GIBBSSAR: VOLUME 2 3.9-15 (0) 3.9-16 (0) (1) 3.9-17 (0) (1) (2) 3.9-18 (0) 3.9-19 (0) (1) (2) (4) 3.9-19a (2) (4-deleted) 3.9-20 (0) (4) 3.9-21 (0) (2) 1.9-21a (13) (2) J.9-22 (2) T2.9-1 S H.1 (0) (2) T3.9-1 SH.2 (0) (2) T3.9-2 SH.1 (0) (2) (4) (7) T3.9-2 SH. 2 (2) (4) (7) T3.9-2 SH.3 (2) (7) T3.9-2 SH. 4 (7) T3.9-3 SH.1 (0) (1) (2) (4) (7) T3.9-3 SH.2 (0) (1) (2) (4) (7) T3.9-3 SH.3 (0) (1) (2) (4) T3.9-3 SH.4 (0) (1) (2) (4) T3.9-4 SH.1 (0) (1) (2) T3.9-4 SH. 2 (0) (1) (2) T3.9-4 SH.3 (0) (1) (2) T3.9-5 SH.1 (0) (1) (2) (5) T 3. 9- 5 Sho la (2) (5) T3.9-5 S H. 2 (0) (1) (2) (5) (7) T3.9-5 SH.2a (5) T3.9-5 SH.3 (0) (1) (2) (5) (7) T3.9-5 SH.4 (0) (1) (2) (5) T3.9-5 SH.4a (2) (5) T3.9-5 SH.4b (5) (7) (UNNDMBERED PAGE) (0) (2-d ele te d) F3.9-1 (0) F3.9-2 (0) F3.9-3 (0) F3.9-4 (0) F3.9-5 (0) F3.9-6 ,_, (0) F3.9-7 (0) F3.9-8 W (0) 3.10-1 P* (0) (9) 3.10-ta -' (9) 3.10-2 (0) (2) (9) 3.10-3 g (0) (1) (2) 3.11-1 (0) (1) 3.11-2 4* (0) 3.11-3 ~~~ (0) (1) 3.11-4 (0) (13) (15) 3.11-4a (13) (15)

EFFECTIVE PAGE LISTING GIBbSSAR: VOLUME 2 3.11-4b 3.11-4c (13) (15) 3.11-5 (13) (0) 3.11-6 (0) 3.11-7 (0) 3.11-8 (0) (1) 3.11-9 (0) (1) 3.11-10 (0) (1) 3.11-11 (0) (1) 3.11-12 (0) 3.11-13 (0) (1) T3.11-1 SH.I (0) T3.11-1 SH. 2 (0) T3.11-2 (0) (1) T3.11-3 S H.1 (0) T3.11-3 (8) (13) SH.2 (0) (8-deleted) T3.11-4 SH.1 (0) T3.11-4 (8) (10) (13) Sho ta (10) T3.11-4 SH.2 (8) (13) T3.11-5 S H.1 (5) (8) T3.11-5 SH.2 (5) T3.11-6 SH.1 T3.11-6 SH. 2 (15) F3.11-1 (15) (8) F3.11-2 (8) 3A-1 3A-2 (13) 3A-3 (13) 3A-4 (13) 3A-5 (13) 3A-6 (13) 3A-7 (13) 3A-8 (13) 31-9 (13) 31-10 (13) 31-11 (13) 31-12 (13) 3A-13

             -                                   (13) 3A-14         W                                   (13)

(13) 3&-15 A 3A-16 s (13) (15) 31-17 (13) 3A-18 (13) g (13) 3A-19 (13) 3A-20 M ' 3A-21 N (13) 3A-22 (13) 31-23 (13) 3A-24 (13) (13)

EFFECTIVE P AGE LISTING GIBBSSAR: VOLUME 2 3A-25 (13) 34-26 (13) 3A-27 (13) 3A-28 (13) 31-29 (13) 3A-30 (13) 3A-31 (13) 31-32 (13) 3A-33 (13) 3A-34 (13) 3A-35 (13) 3B-1 (14) T3B-1 SH.1 (14) T38-1 SH.2 (14) T3B-1 SH.3 (14) T3B-1 SH.4 (14) T3B-1 SH.S (14) T3B-1 SH.6 (14) T38-1 SH.7 (14) T3B-1 SH.8 (14) T38-1 SH.9 (14) T38-1 SH.10 (14) T38-1 SH.11 (14) T3B-1 SH.12 (14) T3B-1 SH.13 (14) T3B-1 S H.14 (14) T3B-1 SH.15 (14) T3B-1 SH.16 (14) 4-1 (0) (7) 5-i (0) (1) (5) (6) 5-ia (6) 5-ii (0) (1) (5) 5-lia (5) 5-111 (0) 5-iv (0) (6) 5-v (1) (5) (5) 5.1-1 (0) T5.1-1 _, (0) 5.2-1 g (0) (1) (5) 5.2-la (5) 5.2-1b A (5) 5.2-te -' (5) 5.2-2 (0) 5.2-3 N (0) 5.2-4 p (0) (5) 5.2-4a (5) 5.2-5 U (0) (5) 5.2-Sa (5) 5.2-5b (5) (7)

EFFECTIVE PAGE LISTING GIBBSSAB: VOLUM5 2 5.2-Sc (5) (7) 5.2-5d (5) (7) 5.2-6 (12) (0) (5) (7) 5.2-7 (0) (5) (7) 5.2-7a (5) (7) 5.2-8 (0) (5) (7) 5.2-8a (5) (7) 5.2-9 (0) (5) (7) 5.2-10 (0) (5) (7) 5.2-11 (0) (5) (7) 5.2-12 (0) (5) (7) T5.2-1 (5) (7) T5.2-2 (7) PS.2-1 (0) (5-deleted) 5.3-1 (0) 5.4-1 (0) (13) 5.4-2 (0) (2) T5.4-1 (0) (UNN05BERED CONT!NTS PAGES) (0) ( 1-deleted) 6-1 ( 1) 6-ii (1) 6-iii (1) (6) 6-iiia (6) 6-iv (1) (2) (6) 6-iva ( 1) 6-v (1) (6) 6-vi ( 1) 6-vii (1) (2) 6-viii (1) (2) (6) 6-viiia (2) 6-ix (1) (6) 6-x - (1) 6-zi 6-ria w (1) (2) (6) p (2) (6) 6-xii " (1) (6) 6.1-1 (0) 6.1-2 (0) (1) 6.1-3 N (0) (1) 6.1-4 y (0) (1) (6) 6.1-5 y (0) 6.1-6 (0) T6.1-1 S9.1 (0) (3) T6.1-1 SH. 2 (3) T6.1-1 S3.3 (3) T6.1-2 S H.1 (0) (1) T6.1-2 SH.2 (0) (1) T6.1-3 (0) (1) T6.1-4 (0) (1)

EFFECTIVE PAGE LISTINO GIBBSSAR: VOLUME 2 Tb.1-5 (0) T6.1-6 (0) (4) (9) T6.1-7 (0) (1) T6.1-8 (0) 6.2-1 (0) ( 1) (5) ( 7) (83 6.2-la (7) 6.2-2 (0) (1) (5) (7) 6.2-2a (5) (7) 6.2-3 (0) (7) 6.2-4 (0) (1) (7) (8) 6.2-5 (0) ( 1) (7) (8) 6.2-6 (0) (7) 6.2-7 (0) (7) 6.2-7a (7) 6.2-8 (0) (7) 6.2-9 (0) (1) (7) 6.2-9a (7) (8) 6.2-10 (0) (1) (7) (8) 6.2-10a (8) 6.2-11 (0) (7) (8) 6.2-12 (0) g7) (8) 6.2-13 (0) (1) 6.2-14 (0) 6.2-15 (0) (1) 6.2-16 (0) (1) [2) (B) 6.2-16a (8) 6.2-17 (0) (1) (9) 6.2-18 (0) (8) 6.2-19 (0) 6.2-20 (0) (1) 6.2-21 (0) 6.2-22 (0) (1) 6.2-23 (0) ( 1) (9) 6.2-24 (0) (1) (9) 6.2-25 (0) (1) (4) (9) 6.2-25a (4) (9) 6.2-26 -. (0) (1) (4) (7) (9) 6.2-27 ty, (0) (1) (4) (7) (9) 6.2-28 (0) (1) (4) (7) (9) 6.2-29 4" (0) (1) (4) (5) ( 7) (9) 6.2-29a (4) (6) (7) 6.2-29b (5) (7) (9) 6.2-29c rs) (7) (9) 6.2-30 43, (0) (2) (4) (7) 6.2-31 (0) (1) (13) 6.2-31a L (13) 6.2-32 (0) (1) (13) 6.2-33 (0) (1) (13) 6.2-34 (0) (1) (131

EFFECTIV E PAGE LISTING GIBBSSAE: V O L J.13 2 6.2-34a (13) 6.2-35 (0) (1) (13) 6.2-35a (13) 6.2-36 (0) (1) (13) 6.2-37 (0) (1) (13) 6.2-37a (13) 6.2-38 (0) (13) 6.2.38a (13) 6.2-39 (0) (1) 6.2-40 (0) 6.2-41 (0) 6.2-42 (0) (1) 6.2-4?a (1) 6 . 2- r,3 (o) (1) 0.4-44 (0) (1) 6.2-45 (0) 6.2-46 (0) (1) (6) (13) 6.2-47 (0) (1) (6) (9) (13) (14) 6.2-47a (9) (13) 6.2-47b (13) 6.2-48 (0) (1) (9) (13) 6.2-49 (0) (1) (6) (9) (13) 6.2-49a (6) (13) 6.2-49b (13) 6.2-50 (0) (3) (6) (13)

6. 2- 50a (3) (6-deleted) 6.2-51 (0) (3) (6) 6.2-52 (0) (3) (6) 6.2-52a __. (3) (6-deleted) 6.2-53 (0) (3) (6) 6.2-54 L3' (0) (1) 6.2-55 A (0) (1) 6.2-56 *

(0) 6.2-57 (0) 6.2-58 ps) (0) (1) 6.2-59 (0) T6.2-1 4* (0) (7) (8) T 6. 2- 2 C7% (0) (4) (7) T6.2-3 (0) (1) (4) (7) T6.2-4 SH.1 (0) (1) (4) (7) T6.2-4 58.2 (7) T6.2-5 (0) (8) T6.2-6 SH.1 (0) (1) (7) (8) T 6. 2- 6 SB.2 (0) (1) (7) (8) T 6. 2 - 6 SR. 3 (7) (8) T6.2-7 58.1 (0) (1) (7) T6.2-7 SS.2 (0) (1) (7) T6.2-7 SR. 3 (7) T6.2-8 (0)

EFFECTIVE PAG! LISTING GIbBSSAB: VOL3ME 2 T6.2-9 (0) (4) (7) T6.2-10A (0) (1) (7) T6.2-10B (7) T6.2-100 (7) T6.2-10D (7) T6.2-11 (0) (1) (8) T6.2-12 (0) (1) (8) T6.2-13 (0) (1) (2) T6.2-14 Sd.1 (8) T6.2-14 SH.2 (8) T 6. 2- 14 a SH.1 (0) (8-deleted) T6.2-14a 53.2 (0) (8-deleted) T6.2-14a SH.3 (0) (8-deleted) T6.2-14a 58.4 (0) (8-d ele t e d) T6.2-14a 58.5 (0) (8-deleted) T6.2-14a S H. 6 (0) (8-deleted) T6.2-14a SH. 7 (0) (8-deleted) T6.2-14a 58.8 (0) (8-deleted) T6.2-14a S H. 9 (0) (8-deleted) T6.2-14a S d .10 (0) (8-deleted) T6.2-14a 58.11 (0) (3-deleted) T6.2-14a SH.12 (0) (8-dele ted) T6.2-14a Sa.13 (0) (8-deleted) , T 6. 2- 14 b SS.1 (0) (8-deleted) i T6.2-14b SH. 2 (0) (8-deleted) T6.2-14b SS.3 (0) (8-deleted) ! T6.2-14b S8.4 (0) (8-deleted) l T6.2-14b SH.S (0) (8-deleted) l T6.2-14b SS.6 (0) (8-deleted) T6.2-14b SH.7 (0) (8- d ele t e d) l T6.2-14b l SH.8 (0) (8-deleted) T6.2-14c SH.1 (0) (8-dele ted) l T6.2-14e S H. 2 (0) (8-dele ted) T6.2-14c SH. 3 (0) (8-deleted) T6.2-14c SS.4 (0) (8-dele te d) 76.2-14c SH. S (0) (8-deleted) T6.2-14d __. 53.1 (0) (8-deleted) T6.2-14d S3.2 (0) (8-deleted) T6.2-14d l37 58.3 (0) (8-deleted) T6.2-14d 45m SS.4 (0) (8-deleted) T 6. 2- 14 d --* SH.S (0) (8- d ele t ed) T6.2-14d SH. 6 (0) (8-deleted) T6.2-14d pg) 53.7 (0) (8-deleted) T6.2-14d

SH. B (0) (8-dele ted)

T6.2-14d S 3. 9 (0) (0-deleted) T6.2-14e d SH.1 (0) (8-deleted) T6.2-14e SH. 2 (0) (8-dele ted) T6.2-14e S8. 3 (0) (8-deleted) T6.2-14e 53.4 (0) (5-leleted) -

EFFECTIVE P AGE LISTING GIBBSSAR: VOLUME 2 T6.2-14e SH.S (0) T6.2-15a SH.1 (8-delete 3) (0) (1) T6.2-15a SH.2 (0) (1) T 6. 2- 15a SH.3 (0) (1) T 6. 2- 15a S3.4 (0) (1) T6.2-15b (0) ( 1) T6.2-15e (0) (1) T6.2-15d (0) (1) (2) T6.2-16a SH.1 (0) (1) T6.2-16a S8.2 (0) (1) T6.2-16a S H. 3 (0) (1) T6.2-16a SH.4 (0) (1) T6.2-16b (0) (1) T6.2-16c (0) (1) T6.2-16d (0) (1) T6.2-17a 58.1 (0) (1) T6.2-17a SH. 2 (0) (1) T6.2-17a SH.3 (0) (1) T6.2-17b (0) (1) T6. 2- 17e (0) (1) T 6. 2- 17d (0) (1) T6.2-17e (0) (1) (2) T6.2-18 SH.1 (0) (4) (9) T6.2-18 S H. 2 (0) (2) (4) (9) T6.2-18 Sh.2a (4) T6.2-18 S3.3 (0) (2) (9) T6.2-19 S3.1, PT A (0) (4) (5) T6.2-19 S 3 . 1, PT 5 (13) (0) (13) T6.2-19 S3.1, PT C (0) (1) (2) (3) (5) T6.2-19 (13) S H. 2, PT A (0) (2) (5) T6.2-19 SS.2, PT B (13) (0) (1) (5) (13) T6.2-19 SH.2, PT C (0) (1) (5) (13) T6.2-19 S H. 3, PT A (0) (1) (5) T6.2-19 SH.3, PT B (13) (5) (13) T6.2-19 SH.3, PT C (0) (1) (5) T6.2-19 58.4, PT A (13) (5) (13) T6.2-19 SS.4, PT 3 (0) (1) (2) (5) T6.2-19 __, (13) SH.4, PT C (5) (13) T6.2-19 LJ7 SH.5, PT A (0) (1) (5) T6.2-19 42m SH. 5, PT B (13) (0) (1) (5) (9) (13) T6.2-19 __. 58.5, PT C (0) (1) (5) (9) T6.2-19 (13) SR.Sa, PT C (0) (1) (4) (5) (13) T6.2-19 p) SH.6, PT A (0) (1) (4) (5) (13) T6.2-19 SH. 6, PT B (0) (1) (5) (13) T6.2-19 42* SS. 6, PT C (13) T6.2-19 C33 SH.7 (13) T6.2-20 (0) T6.2-21 (0) T6.2-22 (0) (13)

EFFECTIV E P AGE LISTIEG GIBBSSAE: VOLUME 2 T6.2-23 SH.1 (0) T6.2-23 SH.1a (13) T6.2-23 SH.2 (13) (0) (1) (13) T6.2-23 SH.2a (13) T6.2-23 SH.3 (0) (1) (2) T6.2-23 SH.3a (2) T6.2-23 S8.4 (13) (0) (13) T 6. 2- 2 4 (0) (3-deleted: T6.2-25 (0) (2) T6.2-26 (2) T6.2-27 (2) Tb.2-28 S H.1 (2) T6.2-28 SH.2 (2) T6.2-29 ( 7) T6.2-30 (7) T 6. 2 - 31 (7) F6.2-1 (0) F 6. 2-2 (0) F6.2-3 (0) (7) F6.2-4 (0) (7) F 6. 2- 5 (0) F6.2-6 (0) (7) F6.2-7 (0) (7) F 6. 2 - 8 (0) (7) F6.2-9 (0) (7) F6.2-10 s (0) (7) F6.2-11 (0) (7) F6.2-12 L3' (0) (7) F6.2-13 43" (0)

                '                                        (3- dele t e d)

F6.2-14 (0) (8-deleted) F6.2-15 (0) (8-deleted) F6.2-16 ps) (0) (8-deleted) F6.2-17 (0) (8-deleted) F 6. 2- 17 A (8) F6.2-17B d (6) F6.2-18 (0) (8-deleted) F6.2-19 [0) (6-deleted) F6.2-20 (0) (6-deleted) F6.2-214 (0) F6.2-21B SH. 1 (0) F6.2-21B SH. 2 (5) F6.2-21B SH. 3 (5) F6.2-21C (0) F6.2-21D (0) (2) F6.2-224 (0) F6.2-22B (0) F6.2-22C SH. 1 (0) (2) F6.2-220 SH. 2 (5) F6.2-22C SH. 3 (6)

EFFECTIVE PAGE LISTING GIBbSSAR: VOLUME 2 F6.2-22D (0) (2) F6.2-22E (0) (2) F6.2-234 (0) F6.2-23B SH. 1 (0) F6.2-23B SH. 2 F6.2-23B S3. 3 (6) F6.2-23C SH. 1 (6) (0) F6.2-23C SH. 2 F6.2-23c SH. 3 (6) F6.2-23D (6) (0) F6.2-23E (0) F6.2-23F (2) F6.2-24 (0) F6.2-25 (0) F6.2-26 (2) (10) (0) F 6. 2-2 7 (0) F6.2-28 SH.1 (6) (0) (5) (6) F6.2-28 SH.2 F6.2-28 (0) (1) (5) (6) SH.3 (0) (2) (5) (6) F6.2-28 SH.4 (0) F6.2-28 SH. S (2) (5) (6) (0) (6) F6.2-29 (0) (1) F6.2-30 (1) F6.2-31 (1) F6.2-32 (1) F6.2-33 (1) F6.2-34 (1) F6.2-35 (6) F6.2-36 F6.2-37 (7) F6.2-38 (7) F6.2-39 (7) F6.2-40 (7) 6.3-1 (7) (0) (5) 6.4-1 6.4-2 (0) (1) (2) 6.4-3 (0) ( 1) (2) (0) 6.4-4 __. (0) (1) (2) 6.4-5 g (0) (1) (2) 6.4-Sa (2) 6.4-6 4** 6.4-7 -* (0) (1) (2) 6.4-7a (0) (1) (2) (5) (5) 6.4-8 6.4-9 rs) (0) (1) (2) (y, (0) (1) (2) 6.4-9a (2) 6.4-10 C (1) T6.4-1 (0) T6.4-2 (0)

EFFECTIV E P A GE LISTING GIBBSS&R: VOLUME 2 T6.4-3 SH.1 (0) (2) T6.4-3 Sa.2 (0) (2) F6.4-1 (0)

6. 5- 1 (0) (1) 6.5-2 (4) (8)

(0) (1) (4) (8)

6. 5-2 a

6. 5- 3 (8) 6.5-4 (0) (1) (4)

(0) (1) (4) (9)

6. 5- 5 (0) (1) (4) 6.5-5a (9) 6.5-6 (9)

(0) (1) (4) (9)

6. 5- 7 (0) (1) (4) 6.5-7a (9) 6.5-8 (9)

(0) (1) (4) (9) 6.5-9 (0) (1) (4) 6.5-10 (9) (0) (1) (4) (9)

6. 5- 10 a 6.5-11 (9)

(0) (1) (4) 6.5-12 (0) (1) (4) 6.5-13 (0) (1) (4) 6.5-14 (0) (1) (4) 6.5-15 (0) (1) 6.5-16 (4 -dele t ed) (0) (1) (4-oeleted) 6.5-17 (0) (1) (4) 6.5-18 (9) (0) (1) (9) 6.5-19 (0) (1) (4) (s) (9) 6.5-19a (4) (9) 6.5-20 (0) (1) 6.5-21 (0) (1) (4) 6.5-22 (0) (1) (4) T6.5-1 S B.1 (0) (4) (a) (8) T6.5-1 Sa.1a T 6. 5- 1 (8) S8.2 (0) (4) (5) (8) 16.5-1 SH. 3 (0) (4) (6) (8) T6.5-1 SB.3a (8) T6.5-1 SB. 4 (0) (4) T6.5-1

65) (8)

           --    S3.5     (0)           (4)      (5)

T6.5-1 (y, SS.Sa T6.5-1 (8) 33, S H. 6 (0) (4) (5) (8) T6.5-1

-~^

SH.6a (8) T 6. 5- 1 S s. 7 (0) (4) T6.5-1 (5) (8) SH. 8 (0) (4) (5) (8) T6.5-1 rs) SH.9 (0) (4) (5) (8) T6.5-1 (y7 S H.10 (0) (4) (5) (8) T6.5-1 S8. 11 T6.5-1 S8.12 (0) (4) (5-deleted) T6.5-1 S8.13 (0) (4) (5-deleted) T6.5-1 S 8. 14 (0) (4) (5-deleted) (0) (4) (5-deleted) T6.5-1 S3.15 (0) (4) 5-deleted)

EFFECTIVE P A GE LISTING GIBBSSAR: VOLUME 2 T6.5-2 (0) (1) (4) T6.5-3 (0) (6) T6.5-4 (9) S H.1 (0) (9) T 6. 5- 4 SH.2 (0) T6.5-5 (9) (0) (4) (9) T6.5-6 (0) (4) T6.5-7 (9) (5) (9) F6.5-1 (0) F6.5-2 (0) F6.5-3 (5) F6.5-4 (0) (5) 6.6-1 (0) (UNN0 5BERED P AGE) (0) P= LD N

EFFECTIV E PA GE LISTING GIBBSSAR: VOLUME 3 7-1 * (0) (1) (2) (6) 7-ia (6) 7-11 (0) (2) (3) (6) 7-iia (6) 7-iii (0) (9) 7-iv (0) (1) (2) (9) 7-iva (9) 7-ivb (9) 7-ive (9) 7.1-1 (0) (1) 7.1-2 (0) (1) 7.1-3 (0) (1) (3) (14) 7.1-4 (0) (1) (3) (9) 7.1-5 (0) (1) (9) 7.1-6 (0) (1) (14) 7.1-7 (1) 7.1-8 (1) (14) 7.1-9 (1) (3) (14) 7.1-10 (1) (14) 7.1-11 (1) (14) 7.1-12 (1) (14) 7.1-13 (1) 7.1-14 (1) (3) (4) (14) 7.1-15 (1) (13) 7.1-15a (13) 7.1-15b (13) 7.1-15c (14) 7.1-16 (1) (14) 7.1-17 (1) (14) 7.1-18 (1) (14) 7.1-18a (14) T7.1-1 SH. 1 (8) (13) { T7.1-1 SH. 2 (8) (13) i T7.1-1 SH. 3 (8) (13) , T7.1-1 SH. 4 (8) (13) 1 T7.1-1 SH. 5 (8) (13) i T 7.1 - 1 SH. 6 (8) l T7.1-1 SH. 7 (8) (13) i T7.1-1 SH. 8 (8) (13) T7.1-1 SH. 8a (13) ! T7.1-1 SH. 9 (8) l T 7.1 - 1 SH. 10 (8) l 7.2-1 (0) (1) (13) 7.3-1 - (0) (1) (3) (5) (6) 7.3-2 g (0) (1) (5) 7.3-2a (1) 1 7.3-3 (0) (1) (5) (6) (9) (13) 7.3-3a " (6) (9) (13) 7.3-4 (0) (1) (6) (9) 7.3-4a N (6) LD u

EFFECTIVE P A GE LISTING GIBBSSAB: VOLO9E 3 7.3-5 (0) (1) 7.3-6 (0) (1) (3) 7.3-7 (0) (3-deleted) 7.3-8 (0) (1) (3) (6) 7.3-9 (0) (1) 7.3-10 (0) (1) (3) (6) (9) 7.3-11 (0) (1) (3) 7.3-12 (0) (1) (3) 7.3-13 (0) (2) (5) 7.3-14 (0) (1) (2) (3) (13) 7.3-14a (2) (13) 7.3-15 (0) (2) (3) (5) (6) 7.3-15a (1) (5) (6) 7.3-16 (0) (1) (6) 7.3-16a (6) 7.3-17 (0) (1) (9) d 7.3-18 (0) (1) (2) l 7.3-19 (2) (3) (13) 7.3-19a (13) 7.3-20 (2) 7.3-21 (2) 7.3-22 (2) (3) 7.3-23 (2) (3) y 7.3-24 (2) (3) , 7.3-25 (2) (3) 8 7.3-26 (2) (3) l T7.3-1 S H. 1 (13) { T7.3-1 SH. 2 (13) l T7.3-1 SH. 3 (13) T7.3-1 SH. 4 (13) ! T7.3-1 SH. 5 (13) l T7.3-1 SH. 6 (13) l F7.3-1 SH. 1 (9) F7.3-1 SH. B (9) F7.3-1 SH. C (9) F7.3-1 SH. D (9) F7.3-1 SH. 1 (0) (9) [ F7.3-1 SH. 1A (9) g F7.3-1 SH. (9) F7.3-1 SH. (9) l F7.3-1 S'8 (9) F7.3-1 S. (0) (9) F7.3-1 W SB . (9) F7.3-1 45m SH. 2B (9) F7.3-1 _. SH. 2C (9) F7.3-1 SH. 2D (9) l F7.3-1 SH. 2B (9) F7.3-1 I\) SH. 2F ! (9) F7.3-1 kJl SH. 2G (9) ! F7.3-1 45= SH. 3 (0) (1) (9 deleted) l F7.3-1 SH. 4 (0) (1) (6) (9 deleted) t

EFFECTIV E P AGE LISTING GIBBSSAR: VOLUME 3 F7.3-1 SH. 5 (0) (2) F7.3-1 SH. 6 (9 deleted) (0) (2) (9 deleted) F7.3-1 SH. 7 (0)' (2) F7.3-1 SH. 8 (9 deleted) i (0) (2) (9 deleted) F7.3-1 SH. 9 (0) (2) F7.3-1 SH. 9A (9 deleted) (11)

 ! F7.3-1          SH. 9B                                            (11) l F7.3-1          SH. 10 (11)

(0) (1) (9) F7.3-1 SH. 104 F7.3-1 (9) SH. 10B (9) F7.3-1 SH. 10C (9) l F7.3-1 S H. 11 F7.3-1 (9)

}                  SH. 114                              (9)

F7.3-1 SH. 12 l F7.3-1 (9) SH. 13 (9) I F7.3-1 SH. 13A (9)

}  F7.3-1          SH. 14                              (9)

F7.3-1 SH. 15 F7.3-1 (9) SH. 16 (9) F7.3-1 SH. 16A F7.3-1 (9) SH. 16B (9) F7.3-1 SH. 16C (9) l F7.3-1 SH. 16D (9) F7.3-2 SH. 1 (es (1) F7.3-2 SH. 2 (v) (1) F7.3-2 SH. 3 (0) (1) 7.4-1 (0) (1) (6) 7.4-1a (13) (6) (13) 7.4-1b 7.4-2 (13) (0) (1) (6) I 7.5-1 (0) (1) (6)

7. 5- 2 (1) 7.5-3 (1) (6) 7.5-4 (1)

T7.5-1 SH. 1 (0) (1) (6) T7.5-1 SH. 2 (0) (1) (6) T7.5-1 SH. 3 (0? (1-deleted) 7.6-1 (0) 'o) 7.6-1a (13) (6) (13) 7.6-1b (6) 7.6-1c (13) 7.6-2 (13) __. (0) (6) (13) 7.6-3 (0) (1) (6) 7.6-3a

                                                  '                        (13)

JD* (6) (13) 7.6-4 (0) (1) (6) 7.7-1 -* (13) (0) (1) (3) 7.7-1a (1) (2) (3) 7.7-1b rs) (1) (2) (3) (4) 7.7-Ic (y, (2) (3) (4) (6) 7.7-Id (3) 7.7-2 kJ' i (0) (1) (2) (4) f

EFFECTIVE PAGE LISTING GIBBSSAB: VOLUME 3 7.7-3 (3) T7.7-1 F7.7-1 (14) (1) (2) F7.7-2 (2) 7.8-1 (0) (1) (2) 7.8-2 (0) (1) (2) 7.8-2a (2) 7.8-3 (1) (2) 7.8-3a (2)

! 7.8-4                       (1) (2)

I 7.8-5 (1) (2) l 7.8-Sa (2) 7.8-6 (1) (2) (13) 7.8-7 (1) (2) (3) } 7.8-8 (3) l 8-i (0) (1) (10) l 8-11 (0) (1) (10) 8-iia (11) B-iii (0) (1) (10) 8-iv (0) (1) (10) 8.1-1 (0) (1) (10) 8.1-2 (0) (10) 8.1-3 (0) (10) 8.1-4 (0) (10) (15) 8.1-5 (0) (10) 8-1-Sa (10) 8.1-6 (0) (10) 8.1-7 (0) (10) 8.1-8 (0) (10) 8.1-9 (0) (10) 8.1-10 (0) (10) 8.1-11 (0) (1) (10) T8.1-1 SH. 1 (0) (1) (10) T8.1-1 SH. 2 (0) (1) (10) g T8.1-1 SH. 3 (0) (1-deleted) T8.1-2 SH. 1 (10) T8.1-2 SH. 2 (10) T8.1-2 SH. 3 (10) (11) T8.1-2 SH. 4 (10) T8.1-2 SH. 5 (10) 8.2-1 (0) (10) 8.3-1 (15} (0) (1) (10) 8.3-ta (11) 8.3-2 (0) (10) (15) 8.3-3 __, (0) (1) (10) (15) 8.3-4 (0) (10) 8.3-5 kJ' (0) (10) 8.3-6 42* (0) (10) (12) (15) 8.3-6a (10) (15) 8.3-7 (0) (10) 8.3-8 ps) (0) (10) (15) LD Ch

EFFECTIVE PAGE LISTING GIBBSSAR: VOLUME 3 8.3-9 (0) (1) (10) 8.3-9a (10) 8.3-9b (10) 8.3-9c (10) 8.3-9d (10) 8.3-9e (15 8.3-10 (15)) (0) (1) (10) (15) 8.3-11 (0) (1) (11) 8.3-11a (10) 8.3-12 (0) (10) (15) 8.3.12a (10) (15) 8.3-13 (0) (1) (10) 8.3-13a (10) 8.3-14 (0) (1) (10) 8.3.14a (10) 8.3-15 (0) (1) (10) 8.3.15a (10) 8.3-16 (0) (10) 8.3-17 (0) (10) 8.3-18 (0) (11) 8.3-18a (11) 8.3-19 (0) (1) (2) (10) 8.3-20 (0) (1) (10) 8.3-21 (0) (1) (10) 8.3-21a (10) 8.3-22 (0) (1) (10) 8.3-23 (0) (1) (10) 8.3-24 (0) (1) 8.3-25 (0) (1) (10) 8.3-26 (0) (1) (10) 8.3-27 (0) (1) (11) 8.3-27a (10) 8.3-28 (0) (1) (10) 8.3-28a (1) (10) 8.3-29 (0) (10) 8.3-30 (0) (1) (11) (15) 8.3-30a (15) 8.3-31 (0) (1) (10) 8.3-31a (1) (10) 8.3-32 (0) (10) 8.3-32a _ (10) 8.3-33 (0) (10) 8.3-34 L3 42" (0) (10) 8.3-35 (0) (1) (15) 8.3-35a (15) 8.3-36 (0) (1) 8.3-37 ps) (0) (1) (10 deleted) 8.3-38 ty, (0) (1) (10 deleted) 8.3-39 (0) (10 deleted) 8.3-40 'd (0) (10 deleted) 8.3-41 (0) (10)

EFFECTIV E P AGE LISTING GIBBSSAE: VOLUME 3 8.3-42 (0) (10) 8.3-43 (0) (10) 8.3-44 (0) (1) T8.3-la SR. 1 (0) (12) T8.3-la SH. 2 (0) (12) T8.3-la SH. 3 (0) (12) T8.3-1a SH. 4 (0) (12) T8.3-la 58. 5 (0) (12) T8.3-1a SH. 6 (0) (12) T8.3-la SH. 7 (0) (12) T8.3-1a SH. 8 (0) (12) T8.3-la SH. 9 (0) (12) T8.3-la SH. 10 (12) T8.3-1b SH. 1 (12) T8.3-1b SH. 2 (12) T8.3-1b SH. 3 (12) T8.3-1b SH. 4 (12) T8.3-1b SH. 5 (12) T8.3-1b SH. 6 (12) T8.3-1b SR. 7 (12) T8.3-1b SH. 8 (12) T8.3-1b SH. 9 (12) T8.3-1b SR. 10 (12) T8.3-1b SH. 11 (12) T8.3-2 SH. 1 (0) (12) T8.3-2 SH. 2 (0) (12) TS.3-2 SH. 3 (0) (12) T8.3-2 SH. 4 (0) (1) (12) T8.3-2 SH. 5 (0) (12) T8.3-2 58. 6 (0) (12) T8.3-2 SH. 7 (0) (12) T8.3-2 SH. 8 (0) (12) T8.3-2 SH. 9 (12) T8.3-2 SH. 10 (12) T8.3-3 SH. 1 (0) T8.3-3 SH. 2 (0) T8.3-3 SH. 3 (0) T8.3-3 SH. 4 (0) T8.3-3 SH. 5 (0) j T8.3-3 SH. 6 (0) T8.3-3 __, SH. 7 (0) i T8.3-3 SR. 8 (0) l T8.3-3 L37 SH. 9 (0) T8.3-3 Jbm SH. 10 (0) T8.3-3 --. SH. 11 (0) T8.3-3 SH. 12 (0) T8.3-3 p; SH. 13 (0) l T8.3-3 SH. 14 (0) T8.3-3 LJ' SH. 15 (0) T8.3-3 C33 SH. 16 (0) T8.3-3 SH. 17 (0)

EFFECTIVE P AGE LISTI NG GIBBSSAR: VOLUME 3 T8.3-3 SH. 18 (0) T8.3-3 SH. 19 (0) (1) T8.3-4 (0) (10) T8.3-5 (0) (10) T8.3-6 -SH. 1 (0) T8.3-6 SH. 2 (0) T8.3-6 SH. 3 (0) T8.3-6 SH. 4 (0) T8.3-6 SH. 5 (0) T8.3-6 SH. 6 (0) T8.3-6 SH. 7 (0) T8.3-6 SH. 8 (0) T8.3-6 SH. 9 (0) T8.3-6 SH. 10 (0) T8.3-6 SH. 11 (0) T8.3-6 SH. 12 (0) T8.3-7 SH. 1 (0) (13) T8.3-7 SH. 2 (0) (13) T8.3-7 SH. 3 (0) (13) 78.3-7 SH. 4 (0) (13) T8.3-8 (to) F8.3-1 (0) (2) (10) F8.3-2 (0) (10) F8.3-3 (0) (10) F8.3-4 (0) (10) F8.3-5 (0) (10) F8.3-6 (0) (10) F8.3-7 (0) (10) F8.3-8 (0) (10) F8.3-9 (0) (10 deleted) F8.3-10 (0) (10 deleted) F8.3-11 (0) (10 deleted) 8.4-1 (0) (10) (15) 8.4-2 (10) (15) 8.4-2a (15) 8.4-3 (10) T8.4-1 SH. 1 (0) (1) (10 deleted) T 8. 4- 1 SH. 2 (0) (1) (10 deleted) T8.4-1 SH. 3 (0) (1) (10 deleted) T8.4-1 SH. 4 (0) (1) (12 unnumbered contents pages Section 9) (0) (2-deleted) 9-i (2) (6) 9-il (2) (6) 9-111 - (2) (6) 9-iiia (6) 9-iv C (2) (6) 9-iva J= (6) 9-v s (2) (6) 9-vi (2) N w 4

EFFECTIVE PAGE LISTING GIBBSSAR: VOLUME 3 9-vii (2) (6) 9-viii (2) (6) 9-viiia (6) 9-ix (2) (6) 9-ixa (6) 9-x (2) (6) 9-za (6) 9-zi (2) (6) 9-zia (2) (6) 9-zii (2) (6) 9.1-1 (0) (2) (6) 9.1-la (6) 9.1-2 (0) (2) (6) 9.1- 2 a (2) (6) 9.1-2b (6) 9.1-3 (0) (2) (9) 9.1-3a (6) 9.1-4 (0) (2) (10) 9.1-5 (0) (2) 9.1-Sa (2) 9.1-6 (0) (2) (6) 9.1-6a ( 2) (6) 9.1-7 (0) (1) (10) 9.1-7a ( I) 9.1-8 (0) 9.1-9 (0) (1) 9.1-10 (0) (1) (2) (10) 9.1-10a (1) (10) 9.1-11 (0) (1) (2) (6) 9.1-12 (0) (1) (2) (6) 9.1-12a (6) 9.1-13 (0) (1) (2) (10) 9.1-14 (0) (1) (10) T9.1-1 (0) (1) (6) T9.1-2 (0) (1) T9.1-3 SH. 1 (0) (1) T9.1-3 SH. 2 (1) T9.1-4 SH. 1 (0) (1) T9.1-4 SH. 2 (1) T9.1-4 SS. 3 (0) (1) T9.1-4 SS. 4 (1) L3 T9.1-5 dD" SH. 1 (0) (1) (10) T9.1-5 SH. 2 (0) (1) (10) T9.1-6 (6) F9.1-1 (0) (1) (2) (6-deleted) F9.1-2 ps) (0) (1) (2) (6-d e le te d) F9.1-3 cys (0) (4) (6) (10) F9.1-3a SH. 1 (6) F9.1-3a C:3 SH. 2 (6) (10) F9.1-3b SH. 1 (6) F9.1-4 (0)

EFFECTIV E PAGE LISTIN G GIBBSSaa: voLust 3 F9.1-5 (2) (6) 9.2-1 (0) (6) (9) (11) 9.2-la (6) (9) 9.2-2 (0) (9) (11) 9.2-3 (0) (9) (11) 9.2-4 (0) (1) (11) 9.2-5 (0) (1) (9) (11) 9.2-6 (0) (9) (11) 9.2-6a (11) 9.2-7 (0) (4) (9) (11) 9.2-8 (0) (2) (4) (9) (11) 9.2-8a (9) 9.2-9 (0) (9) (11) 9.2-10 (0) (4) (9) (11) (15) 9.2-10a (15) 9.2-11 (0) (6) (9) (11) 9.2-12 (0) (1) (6) (9) 9.2-12a (6) 9.2-13 (0) (1) (6) (9) 9.2-13a (6) (9) 9.2-14 (0) (1) (2) 9.2-15 (0) (1) 9.2-16 (0) (1) (A) (9) (11) 9.2-17 (0) (1) (9) (11) 9.2-18 (0) (1) (6) (9) (11) 9.2-18a (6) (9) 9.2-19 (0) (9) 9.2-20 (3) (9) (11) 9.2-20a (9) (11) 9.2-21 (0) (9) (11) 9.2-22 (0) (9) (11) 9.2-23 (0) (1) (9) (11) 9.2-24 (0) (9) (11) 9.2-25 *4) s (9) (11) 9.2-26 (0) (1) (6) (9) (11) 9.2-26a (6) 9.2-27 (0) (1) (6) (9) (11) T9.2-1 SH. 1 (0) (1) (9) (11) T9.2-1 SH. 2 (1) (9) (11) T9.2-2 SH. 1 (0) (1) (9) (11) T9.2-2 SH. 2 (1) (9) (11) T9.2-3 --* (0) (1) (9) T9.2-4 T9.2-5 m (0) 43, SH. 1 (0) (1) (6) 79.2-5 __, SH. 2 (0) (1) (6) T9.2-6 SH. 1 (0) (1) (4) (9) (11) T9.2-6 SH. 2 (0) (1) (2) (4) (9) (11) T9.2-6 PN) SH. 3 (0) (1) (2) (4) (9) (11) T9.2-6 C7N SH. 4 (1) (4) (9) (11) T9.2-6 __. 58. 5 (1) (2) (4) (9) (11) 79.2-6 SH. 6 (1) (2) (4) (9) (11)

EFFECTIVE PAGE LISTING GIBBSSAR: VOLUME 3 T9.2-6 SH. 6a (9) (11) T9.2-7 SH. 1 (0) (1) (4) (9) (11) T9.2-7 SH. 2 (0) (1) (2) (4) (9) (11) T9.2-7 SH. 3 (0) (1) (2) (4) (9) (11) T9.2-7 SH. 4 (1) (4) (9) (11) T9.2-7 SH. 5 (1) (2) (4) [9) (11) T9.2-7 SH. 6 (1) (2) (4) (9) (11) T9.2-7 S H. 6a (9) (11) T9.2-8 SH. 1 (0) (1) (9) T9.2-8 SH. 2 (0) (1) (9) T9.2-8 SH. 3 (0) (1) (9) T9.2-9 SH. 1 (0) T9.2-9 SH. 2 (0) T9.2-10 (0) (1) (6) (15) T9.2-11 (0) T9.2-12 (0) (1) T9.2-13 (0) (6-deleted) T9.2-14 (2) F9.2-1 (0) (6) (9) (10) ' F9.2-la SH. 1 (6) F9.2-2b SH. 1 (6) F9.2-2 (0) (6) (9) (10) F9.2-3 (0) (2) (4) (6) (11) F9.2-4 (0) (2) (4) (6) (15) F9.2-4a 58. 1 (6) (10) (15 deleted) F9.2-4a S R. 2 (6) (15 deleted) F9.2-4a SH. 3 (6) (15 deleted) F 9. 2-4 b SH. 1 (6) (15 deleted) F9.2-4b SH. 2 (6) (15 deleted) F9.2-5 (0) ( 2) (9) (10) F 9. 2- 6 (0) (2) (9) (10) F9.2-7 (0) (1) (6) 9.3-1 (0) (1) (4) 9.3-2 (0) (1) 9.3-3 (0) (4) 9.3-4 (0) (2) (4) 9.3-ea (2) (4) (11) 9.3-4b (2) (11) 9.3-5 (0) (1) (2) (4) (11) 9.3-Sa (2) (11) 9.3-6 (0) 9.3-7 ,,e (0) (1) (11) 9.3-8 (y3 (0) (2) (11) 9.3-8a (2) 9.3-9 JP" (0) (2) (11) 9.3-9a (2) (11) 9.3-9b (2) (11) 9.3-9c ps) (11) 9.3-10 (0) (2) (6) c7s 9.3-10a (6) (10) 9.3-11 IN (0) (1) (2) (b) (10)

EFFECTIVE PAGE LISTING GIBBSSAR: VOLUME 3 9.3-12 (0) (1) (10) 9.3-12a (10) 9.3-13 (0) (1) (6) T9.3-1 (0) (2) T9.3-2 (0) (2) T9.3-2 (co n t. ) (0) ( 2-dele ted) T9.3-2 (c o n t. ) (0) (2-deleted) T9.3-2 SH. 1 (0) (2-deleted) T9.3-2 SH. 2 (0) (2-deleted) T9.3-2 SH. 3 (0) (2-deleted) T9.3-2 SH. 4 (0) (2-deleted) T9.3-3 (2) T9.3-4 SH. 1 (2) T9.3-4 SH. 2 (2) 79.3-4 SH. 3 (2) 79.3-4 SH. 4 (2) 9.3-5 (4) 9.3-Sa (10) T9.3-6 (6) F9.3-1 (0) (2) F9.3-2 (2) (6) F 9. 3- 2a SH. 1 (6) F9.3-2b SH. 1 (6) F9.3-3 SH. 1 (6) F9.3-3 SH. 2 (6) F9.3-4 (6) 9.4-1 (0) (1) (6) (8) 9.4-la (6) (8-deleted) 9.4-2 (0) (1) (2) (5) (6) (8) 9.4-3 (0) (1) (6) (8) 9.4-Ja (8) 9.4-4 (0) (2) (6) (8) 9.4-5 (0) (1) (2) (8) 9.4-6 (0) (1) (2) (8) 9.4-6a (2) (8) 9.4-6b (8) 9.4-7 (0) (1) (2) (3) (5) (8) 9.4-7a (1) (8) 9.4-8 (0) (1) (3) (5) (6) (8) 9.4-9 (0) (1) (2) (6) (10) 9.4-9a (2) (6) (10) 9.4-10 (0) (1) (2) (3) (5) (6) (10)

~~'

9.4-10a (2) (3) (10 deleted) 9.4-11 (J7 (0) (1) (2) (5) (6) (10) 9.4-11a a=, (6) (to) 9.4-12 _. (0) (1) (10) 9.4-12a (10) 9.4-13 (0) (6) (10) 9.4-14 IN) (0) (1) (2) (5) (6) (10) 9.4-14a C3' (6) (10 deleted) 9.4-15 (ja (0) (1) (3) (5) (6) (10)

EFFECTIVE P&GY LISTING GIBBSSAR: VOLUME 3 9.4-16 (0) (1) (2) (3) (5) (6) (10) 9.4-16a (2) (10) 9.4-17 (0) (1) (2) (b) (10) 9.4-18 (0) (1) (2) (10) 9.4~19 (0) (1) (2) (5) (6) (10) 9.4-20 (0) (1) (2) (10) 9.4-20a (2) (3) (10 deleted) 9.4-21 (0) (1) (3) (5) (6) (10) 9.4-21a (10) 9.4-22 (0) (1) (3) (5) (6) (10) 9.4-23 (0) (1) (3) (10) 9.4-23a (1) (3) (10) 9.4-24 (0) (1) (2) (3) (5) (10) 9.4-24a (2) (5) 9.4-25 (0) (2) (3) (10) 9.4-25a (2) (10) 9.4-26 (0) (1) (3) (5) (6) (10) 9.4-27 (0) (1) (2) (3) (10) 9.4-27a (3) (10) 9.4-28 (0) (1) (3) (6) (10) 9.4-28a (6) (10) 9.4-29 (0) (1) (10) 9.4-29a (10) 9.4-30 (0) (1) (2) (6) (10) 9.4-31 (0) (1) (2) (6) (10) 9.4-31a (2) (6) (10) 9.4-32 (0) (1) (2) (6) (10)

9. 4- 3 2a (10) 9.4-33 (0) (2) (3) (6) (10) 9.4-34 (0) (6) 9.4-34a (2) (6) (10) 9.4-35 (1) (2) (6) (10)

T9.4-1 (0) (1) (6) (10) T9.4-2 (0) (1) (6) (10) T9.4-3 (0) (1) (2) (8) (10) T9.4-4 SS. 1 (0) (1) (2) (3) (10) T9.4-4 SB. 2 (0) (1) (2) (3) (10) T9.4-5 SB. 1 (0) (1) (3) T9.4-5 SB. 2 (0) T9.4-6 SB. 1 (0) (1) (2) (6) T9.4-6 SB. 2 (0) (1) (2) (6) T9.4-6 Sa. 2a (2) (6-leleted) T9.4-6 --- SB. 3 (0) (1) (2) (6-deleted) T9.4-7 (y, (0) (1) (6) T9.4-8 43, SH. 1 (0) (3) (5) (10) T 9. 4 - 8 SB. 2 (0) (3) (5) (10)

~~^

T9.4-8 Sa. 3 (0) (2) T9.4-9 Sa. 1 (0) (1) (2) (3) (5) (10) T9.4-9 rs) SH. 2 (0) (1) (2) (3) (5) (10) 9.4-10 Cy. (6) 9.4-11 43, (6)

EFFECTIVE P AGE LISTING GIBBSSAB: VOLUME 3 9.4-12 (6) (10) F9.4-1 (0) (2) (6) (8) F 9. 4- 2 (0) (1-deleted) (5) (6) F9.4-3 (0) (1-deleted) (6) F9.4-4 (0) (1-deleted) (10) F9.4-5 (0) (b) (9) (10) F9.4-6 (0) (3) (5) (c) (9) (10) F9.4-7 (0) (5) (10) F9.4-8 (0) (2) (10) F9.4-9 (0) (3) (5) (10) F9.4-10 SH.1 (0) (2) (5) (10) F9.4-10 SH.2 (10) F9.4-11 (0) (2) F9.4-12 (0) (3) (5) (10) F9.4-13 (0) (2) (9) F9.4-14 (0) (2) (5) (6) (10) F9.4-15 (0) (2) (10) F9.4-16 (0) (2) (8) F9.4-17 (0) (2) F9.4-18 (2) F9.4-19 (10)

9. 5- 1 (0) (1) (8) (10) 9.5-2 (0) (8) (10)

9. 5- 2 a (10) 9.5-3 (0) (8)

9. 5-4 (0) (1) (8) 9.5-5 (0) (1) (8) 9.5-6 (0) (8) 9.5-7 (0) (8) (10 9.5-7a (10) 9.5-8 (0) (8) 9.5-9 (0) (8) 9.5-10 (0) (1) (8) 9.5-11 (0) (8) 9.5-12 (0) (8) 9.5-13 (0) (8) 9.5-14 (0) (1) (8) 9.5-15 (0) (1) (8) 9.5-16 (0) (1) (8) 9.5-17 __. (0) (8) 9.5-18 (0) (8) 9.5-19 kJ' (0) (1) (8) (15) 9.5-19a 42* (15) 9.5-20 ^

(0) (1) (8) 9.5-21 (0) (1) (8) 9.5-22 psy (0) (1) (8) 9.5-23 (0) (1) (8)

9. 5- 2 3a C7' (8) 9.5-73b LJ' (8) (10)

9. 5-23 b 1 (10)

9. 5-2 3 c (8)

EFFECTIVE PAGE LISTING GIBBSSAR: VOLU.9E 3 9.5-23d (8)

9. 5- 2 3 e (8)

9. 5- 2 3 f (8)

9. 5- 2 3g (8)

9. 5-2 3 h (8) 9.5-231 (8) 9.5-231 (8) 9.5-23k (8) 9.5-231 (8) 9.5-24 (0) (9) (11) 9.5-24a (9) 9.5-25 (0) (1) (9) (11) 9.5-254 (9) (11) 9.5.25b (11) 9.5-25c (9) (11) 9.5-25d (9) (11) 9.5-26 (0) (1) (9) 9.5-27 (0) (1) (9) 9.5-27a (9) 9.5-28 (0) (11) 9.5-28a (11) 9.5-28b (11) 9.5-29 (0) (1) (6) (11) 9.5-2ca (6) (10) 9.5-29b (10) 9.5-30 (0) (1) (6) (10) 9.5-30a (6) (10) 9.5-31 (0) (6) (9) (10) 9.5-32 (0) (1) (6) (9) (10) 9.5-32a (b) (9) (10) 9.5.32b (10) 9.5-32c (10) 9.5-32d (.0) 9.5-33 (1) (10) 9.5-34 (3) (7)

9. 5-3 4 a (7) 9.5-35 (3) (6) 9.5-35a (6) 9.5-36 (3)

T9.5-1 S3. 1 (0) (1) (11) T9.5-1 --- SB. 2 (0) ()) (11) T9.5-1 (J7 58. 3 (0) T9.5-2 43, (0) (11) T9.5-3 __. SS. 1 (0) (1) (2) (10) T9.5-3 SB. 2 (0) (1) (10) T9.5-4 (0) (1) (10) T9.5-5 IN) (0) (1) (10) T9.5-6 C7s (3) T9.5-7 C7s SH. 1 (8) T9.5-7 SH. 2 (8) T9.5-8 (8)

EFFECTIV E PAGE LISTING GIEBSSER: VOLUME 3 T9.5-9 (10) T9.5-10 SH. 1 (10) T9.5-10 SH. 2 (10) T9.5-11 SR. 1 (10) T9.5-11 SH. 2 (10) T9.5-12 (10) F9.5-1 (0) (8 deleted) F9.5-11 (8) F9.5-1B (8) (10) F9.5-2 (0) (11) F9.5-3 (0) (11) F9.5-4 (0) (6) (10) ?9.5-5 (0) (6) (IG) F9.5-6 (3) (6) F9.5-7 (3) F9.5-8 (10) F9.5-9 (10) P> CT N

EFFE2TIVE PAGE LISTING GIBBSSAR: VOLUit 5 14-1 (0) (2) 14-11 (0) 14-111 (2) 14.1-1 (0) (1) (2) 14.1-2 (0) (2) T14-1 sh. 1 (0) (1) 714-1 sh. 2 (0) (2) T14-1 Sh. 3 (0) T14-1 sh. 4 (0) T14-1 Sh. 5 (0) T14-1 Sh. 6 (0) (1) T14-1 Sh. 7 (0) (1) (2) T14-1 Sh. 7a (2) T14-1 Sh. 8 (0) (2) T14-1 Sh. 9 (0) (2) 14.2-1 (0) 144-1 (2) 141-2 (2) F141-1 (2) F144-2 (2) F141-3 (2) 15-1 (0) 15-11 (0) 15-111 (0) 15-iv (0) 15-v (0) 15-vi (0) (3) IS-vii (0) (3) (6) 15-viia (6) 15-viii (0) 15-ix (0) 15-x (0) (2) (6) 15-za (6) 15-zi (0) (2) 15.1-1 (0) 15.1-2 (0) 15.1-3 (0) (2) (4) (6) 15.1-4 (0) (1) (4) (6) 715.1-1 Sh. 1 (0) (1) T15.1-1 Sh. 2 (0) (1) (4) (6) T15.1-1 Sh. 3 (0) (4) F15.1-1 -* (0) (4) F15.1-2 (J7 (0) (4) F15.1-3 p (0) (4) F15.1-4 (0) (4) 15.2-1 (0) (1) 15.2-2 (0) (1) (2) 15.3-1 N (0) 15.4-1 CJ' (0) 00

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EFFECTIVE PAGE LISTING GIBBSSAR: TOLUME 5 F15.6-1 (0) (4) F15.6-2 (0) (4) F15.6-3 (0) (4) F15.6-4 (0) (4) F15.6-5 (0) (3) F15.6-6 (0) (3) F15.6-7 (0) (3) (6) F15.6-8 (0) (3) (6) F15.6-9 (0) (3) (6) F15.6-10 (0) (3) (6) F15.6-11 (0) (3) F15.6-12 (0) (3) (6) F15.6-13 (0) (3) (6) F15.6-14 (0) (3) (6) F15.6-15 (0) (3) F15.6-16 (0) (3) F15.6-17 (0) (3) (6) F15.6-18 (0) (3) (6) F15.6-19 (6) F15.6-20 (6) 15.7-1 (0) (2) 15.7-2 (0) 15.7-3 (0) (2) 15.7-4 (0) (2) (6) 15.7-4a (2) (6) 15.7-4b (6) 15.7-4c (6) 15.7-5 (0) (6) 15.7-6 (0) (2) T15.7-1 Sh. 1 (0) T15.7-1 Sh. 2 (0) T15.7-2 (0) (2) T15.7-3 Sh. 1 (0) (2) T15.7-3 Sh. 2 (2) (3) T15.7-4 Sh. 1 (2) T15.7-4 Sh. 2 (2) T15.7-4 Sh. 3 (2) T 15. 7- 5 (2) (7) F15.7-1 (0) (2) (6) F15.7-2 (0) (2) (6) F15.7-3 (0) (2) F15.7-4 (0) (2) F15.7-5 g (0) (2) (6) F15.7-6 (0) (2) (6) F15.7-7 A (0) (2) (7)

F15.7-8 (0) (2) (7) F15.7-9 (2) (6) (7) F15.7-10 ps) (2) (6) (7) 15.8-1 q (0) CD

EFFECTIVE PAGE LISTING GIBBSSAR: VOLUME 5 15.&-1 (3)

15. &- 2 (3) 15.1-3 (3) (4) 15.&-4 (3) (4) (6) 15.1-5 (3) (6) (7)

T15.4-1 Sh. 1 (3) T15.1-1 Sh. 2 (3) i (0) (1) 11 (0) (1) iii (0) (1) iv (0) (1) v (0) (1) vi (0) (1) vii-a (0) (1) viii (0) (1) ix (0) (1) x (0) (1) zi (0) (1) zii (0) (1) xiii-a (0) (1) riv (0) (1) xv (0) (1) xvi (0) (1) xvii (0) (1) xviii (0) (1) 0-1 (0) 0-2 (0) 1-1 (0) 1-2 (0) 1-3 (0) 1-4 (0) 1-5 - (0) 1-6 1-7 m (0) (0) p 1-8 (0) 2-1 (0) B2-1 (0) 3/4 0-1 N (0) 3/4 1-1 y (0) 3/4 2-1 - (0) 3/4 3-1 (0) 3/4 3-2 (0) 3/4 3-3 (0) 3/4 3-4 (T3.3-6) (0) (1) 3/4 3-5 (T3.3-6 cont) (0) (1) 3/4 3-6 (T4.3-3) (0) 3/4 3-7 (0) (1) 3/4 3-8 (0) 3/4 3-9 (T3.3-7) (0)

EFFECTIVE PAGE LISTING GIBBSS&B: VOLUME 5 3/4 3-10 (T4.3-4) (0) 3/4 3-11 (0) J/4 3-12 (0) 3/4 3-13 (T3.3-9) (0) 3/4 3-14 (T4.3-6) (0) 3/4 3-15 (0) 3/4 4-1 (0) 3/4 4-2 (0) 3/4 4-3 (0) 3/4 4-4 (0) 3/4 4-5 (0) 3/4 4-6 (0) 3/4 4-7 (0) 3/4 4-8 (0) 3/4 4-9 (0) 3/4 4-10 (0) 3/4 4-11 (0) 3/4 4-12 (T4.4-2) (0) 3/4 4-13 (0) 3/4 4-14 (0) 3/4 4-15 (0) 3/4 4-16 (0) 3/4 4-17 (0) 3/4 5-1 (0) 3/4 5-2 (0) 3/4 5-3 (0) 3/4 5-4 (0) 3/4 5-5 (0) 3/4 5-6 (0) 3/4 6-11 (0) 3/4 6-2a (0) 3/4 6-3a (0) 3/4 6-4a (0) 3/4 6-Sa (0) 3/4 6-6a , (0) 3/4 6-74 (0) 3/4 6-84 42" (0) 3/4 6-9a " (0) 3/4 6-101 (0) 3/4 6-11a (0) 3/4 6-124 ps) (0) 3/4 6-13a .,a (0) 3/4 6 14a IN3 (0) 3/4 6-151 (0) 3/4 6-164 (0) 3/4 6-171 (73.6-1) (0) (1) 3/4 6-181 (T3.6-1 con t) (0) (1) 3/4 6-191 (T3.6-1 cont) (0) (1) 3/4 6-204 (T3.6-1 cont) (0) (1)

EFFECTIVE P AGE LISTI NG GISBSS&B: VOLUME 5 3/4 6-211 (T3.6-1 con t) (0) (1) 3/4 6-221 (T3.6-1 cont) (0) 3/4 6-23& (T3.6-1 cont) (0) 3/4 6-244 (T3.6- 1 cont) (0) (1) 3/4 6-251 (T3.6-1 cont) (0) (1) 3/4 6-26& (0) 3/4 6-271 (0) 3/4 6-281 (0) 3/4 6-294 (0) 3/4 6-301 (0) 3/4 6-1B (0) 3/4 6-1C (0) 3/4 6-1D (0) 3/4 7-1 (0) 3/4 7-2 (T3.7-1) (0) 3/4 7-3 (T3.7-2) (0) 3/4 7-4 (T4.7-1) (0) 3/4 7-5 (0) 3/4 7-6 (0) 3/47-7 (0) 3/4 7-8 (0) 3/4 7-9 (T4.7-2) (0) 3/4 7-10 (0) 3/4 7-11 [0) 3/4 7-12 (0) 3/4 7-13 (0) 3/4 7-14 (0) 3/4 7-15 (0) 3/4 7-16 (0) 3/4 7-17 (0) 3/4 7-18 (0) 3/4 7-19 (0) 3/4 7-20 (0) 3/4 7-21 (0) 3/4 7-22 (0) 3/4 7-23 (0) 3/4 7-24 (0) 3/4 8-1 __. (0) (10) (15) 3/4 8-2 ty, (0) (10) 3/4 8-3 4* (0) (10) 3/4 8-3a * (10) 3/4 8-4 (0) (10) 3/4 8-4a (10) 3/4 8-4b rsj (10) 3/4 8-4c ma (10) 3/4 8- 5 (,4 (0) (15) 3/4 8-6 (0) 3/4 8-7 (0) 3/4 8-8 (0) (10)

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EFFECTIVE PAGE LISTING GIBBSSAR: VOLUME 5 5-2 (0) 5-3 (0) 6-1 (0) 171 (0) 17.1-1 (0) 17.2-1 (0) i i l I - c n N W

TABLE 18.0-1 NBC QUESTION STATUS response Transmitted Question unaber via A mend me n t 005.1 6 005.2 6 005.3 6 005.4 6 005.5 This guestion to be withdrawn per meeting with MEC on 11-07-78 010.1 2 010.2 2 010.3 2 010.4 2 010.5 2 010.6 2 010.7 2 010.8 2 010.9 2 010.10 2 010.11 2 010.12 2 010.13 6 010.13A 8 010.14 6 010.15 6 010.16 8 010.17 6 010.18 6 010.19 6, 10 010.20 6 010.21 6 010.22 6 010.23 6 010.24 6 010.25 6 010.26 - 6 010.27 g 6 010.28 6 010.29 O 6

              "                   6 010.30 010.31                        6,   10 010.32     IV                 6 010.33     q                  6 010.34                        7 Amendment 15

TABLE 18.0-1 (Con tin ued) NEC QUESTION STAIUS response Transmitted Question Number via Amendment 010.35 6 010.36 6 010.37 6 010.38 6 010.39 none received 010.40 6 010.41 6 010.42 none received 010.43 0 010.44 6 010.45 6 010.46 6 010.47 6 010.48 6 010.49 6 010.50 6 010.51 6 010.52 6 010.53 6 010.54 6 010.55 6 010.56 6 010.57 6 010.58 6 010.59 7 010.60 6 010.61 6 010.62 6 010.63 6 010.64 8 010.65 6 010.66 7 010.67 6 g 6 010.68 010.69 O 6 010.70 " 6 010.71 6 010.72 N 6 010.73 y 6 010.74 6 010.75 N 6 010.76 none received 010.77 none received Amendment 13

TABLE 18.0-1 (Cont in ued) NRC QUESTION STATUS response Transmitted Question Number via Amendment 010.78 10 010.79 10 010.80 10 010.81 10 010.82 10 010.83 10 010.84 10 010.85 to 010.86 10 010.67 10 010.88 14 010.89 11 010.90 15 010.91 10 010.92 10 010.93 10 010.94 10 010.95 10 010.96 10 010.97 10 010.98 10 010.99 10 010.100 10 010.101 10 010.102 14 010.103 10 022.1 2 022.2 8 022.3 2 022.4 2 022.5 2, 6 022.6 6 022.7 7 022.8 6 022.9 __ 8 022.10 6 022.11 U 6 022.12 O 6

             -^                       6 022.13 022.14                            6 022.15 N                          6 022.16     q                      6 022.17                            6 CO A mendment 13

TABLE 18.0-1 (Continued) NBC QUESTION STATUS response Transmitted Question Eumber via Amendment 022.1d 6 022.19 6 022.20 6 022.21 6 022.22 6 022.23 7 032.1 2 032.2 2 034.3 2 032.4 2 032.5 2 032.6 2 032.7 2 032.08 13 032.09 13 032.10 13 032.11 none received 032.12 13 032.13 13 032.14 13 032.15 14 032.16 13 032.17 13 032.16 13 032.19 13 032.20 13 032.21 13 032.22 13 032.23 13 032.24 13 OJ2.25 1J 032.20 13 032.27 14 032.28 13 032.29 - 13 032.30 g 13 032.31 13 032.32 O 13 040.1 " 10 040.2 14 040.3 N 10 040.4 q 10 040.5 10 Amendment 15

TABLE 18.0-1 (Continued) NEC QUESTION STA10S response Transmitted Question Number via Anecdaent 040.6 10 040.7 10 040.8 10,15 040.9 10 040.10 10 040.11 10 040.12 10 040.13 10 040.14 10 040.15 10 040.16 10 040.17 10 040.18 10 040.19 10 040.20 10,15 040.21 10 040.22 10 040.23 10 040.24 10 040.25 10 040.26 10 040.27 10 040.28 10 040.29 10 040.30 11 040.31 10,15 040.32 12 040.33 10 040.34 10 040.35 11 040.36 11 040.37 31 040.38 to 040.39 10 040.40 11

040.41 II 040.42 W 11 040.43 A 11 040.44 - 11 040.45 11 040.46 10 040.47 to 040.48 Q 10 C~D Amendment 15

O TABLE 18.0-1 (Continued ) NBC QUESTION STATUS response Transmitted Question Number via amendment 040.49 10 040.50 10 040.51 14 040.52 10 040.53 10 040.54 10 040.55 10 040.50 10 040.57 10 040.58 10 040.59 10 040.60 10 040.61 10 040.62 10 040.63 10 040.64 10 040.65 10 040.66 10 040.67 11 040.68 11 040.69 10 040.70 11 040.71 to 040.72 11 040.73 10 040.74 11 040.75 11 040.76 15 040.77 15 040.78 15 040.79 15 040.80 15 040.81 15 040.82 15 040.83 ___. 15 040.84 15 040.85 15 111.1 D 2

               "                         2 111.2 111.3                               2 1?1.4      N                        2 111.5                               4 g                        4 111.6 Amendment 15

TABLE 18.0-1 (Contin ued) NEC QUESTION STATUS response Transmitted Question Number via Amendment 111.7 2 111.8 2 111.9 2 111.10 2 111.11 2 111.12 2 111.13 2 111.14 2 111.15 2 111.16 2 111.17 2 111.18 2 111.19 4 111.20 4, 7, 11 111.21 5 111.22 2 111.23 2 111.24 2, 4 111.25 4 111.26 2 111.27 2 111.28 2 111.29 4 111.30 4 111.31 4 111.32 4 111.33 4 111.34 4 111.35 4 111.36 4 111.37 4 111.38 4 111.39 4

                 "                       7 111.40 111.41     W                       7 111.42      p                      7 111.43      s                       8,  11 111.44                              7 111.45                              7 111.46       N                      7 l      111.47       @                      7 l

111.48 N 7 111.49 7 I Amendment 15 l

TABLE 18.0-1 (Continued) NBC QUESIION STATUS response Transmitted Question Number via Amendment 111.50 7 111.51 7 111.52 7 111.53 7 111.54 7 111.55 9 111.56 9 121.I 2 121.2 2 121.3 5 121.4 5 121.5 5 122.1 4 122.2 4 122.3 5 122.4 4 122.5 4 122.6 5 122.7 9 122.8 9 322.9 9 122.10 9 122.11 9 131.1 2 131.2 4 131.3 2 General Comments A 6 General Comments a 5 131.1 5 131.2 5 131.3 5 131.4 5 131.5 5 131.6 5 131.7 5 131.8 5

               "                          5 131.9 131.10     W                          6 131.11       5>                       6 131.12      s                         5 131.13                                5 131.14                                5 131.15       N                        5 CJO u                                         Amendment 15

TABLE 18.0-1 (Continued) NRC QUESTION STATUS response Transmitted Question Musber via Amendment 131.16 5 131.17 5 131.18 5 131.19 5 131.20 5 131.21 5 131.22 5 131.23 5 131.24 5 131.25 5 131.26 5 131.27 5 131.28 5 131.29 5 131.30 5 131.31 5 131.32 6 131.33 5 131.34 6 131.35 5 131.36 5 131.37 7 131.38 5 131.39 5 131.40 5 131.41 5 131.42 5 131.43 5 131.44 5 131.45 5 131.46 5 131.47 _ 5 131.48 g 5 131.49 5 131.50 O 5

               "                       5 131.51 131.52                            8 131.53    N                       5 131.54     y                      5 131.55                            5 131.56      O                     8 131.57                            8 131.58                            8 h                 Amendment 15

TA8LE 18.0-1 (Continued) NEC QUESTION SIATUS response Transmitted Question Muaber via Amendment 131.59 8 131.60 8 131.61 8 131.62 8 131.63 131.64 b 131.65 8 131.66 8 131.67 8 131.68 8 131.69 8 131.70 8 131.71 8 131.72 8 131.73 8 131.74 8 131.75 8 131.76 8 212.1 4 212.2 5 212.3 5 212.4 5 212.5 4 212.6 5 212.7 5 212.8 4 212.9 4 212.10 4 and 5 212.11 5 212.12 5 212.13 4 212.14 5 212.15 4 212.16 W 4 and 5 212.17 5:n. 4 212.18 - 4 212.19 5 212.20 4 212.21 N 4 212.22 CO 5 212.23 W 5 212.24 5 212.25 5 and 7 Amendment 15

TABLE 18.0-1 (Continued) NBC QUESTION STATUS response Transmitted Question Number via Amendment 212.26 4 212.27 4 212.28 4 212.29 7 212.30 7 212.31 7 212.32 7 212.33 7 212.34 7 212.35 8 212.36 7 212.37 7 212.38 7 221.1 7 222.1 8 222.2 8 222.3 8 222.4 response to be submitted upon completion of analysis 222.5 8 222.6 8 311.1 2 311.2 2 311.3 2 311.4 2 311.5 2 311.6 2 311.7 2 311.8 2 311.9 3

               "                       3 311.10 311.1      LT1                     6 311.2      4                       7 311.3      ,                       5 311.4                              5 311.5                              6 311.6       N                      5 311.7       CO                     5 311.8       &                      6 311.19                             8 311.20                             8 311.21                             8 Amendment 15

TABLE 18.0-1 (Cantinued) NEC QUESTION STATUS response Transmitted Question busber via Amendment 320.1 2 320.2 2 321.1 6 321.2 o 321.3 6 321.4 6 321.5 6 321.6 6 321.7 6 321.6 6 321.9 6 321.10 6 321.11 6 321.12 6 321.13 6 321.14 6 321.15 6 321.1o 8 321.17 8 321.18 8 341.19 8 321.20 8 321.21 8 321.22 8 321.23 8 321.24 8 321.25 6 331.1 2 331.2 2 331.3 2 331.4 _ 2 331.5 2, 6 331.6 U 2 331.7 b 2 331.d - 6 331.9 7 331.10 g 6 331.11 6 331.12 6 331.13 N 7 371.1 2 371.2 2 421.0 2 Amendment 15

TABLE 18.0-1 (Contin ued) WRC QUESTION STATUS response Transmitted Question Number via Amendment 423.1 2 423.2 2 432.0 8

              -s (J1 4

N CX3 CO A mendment 15}}

ML19253C894

Text

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