App 1A of Davis-Besse PSAR, Technical Qualifications.

ML19319C281
Person / Time
Site:	Davis Besse
Issue date:	08/01/1969
From:	TOLEDO EDISON CO.
To:
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NUDOCS 8002110781
Download: ML19319C281 (17)
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D-B APPENDIX 1A x,'

TECHNICAL QUALIFICATIONS TABLE OF CONTENTS Section Page 1 THE 'IDIEDO EDISON COMPANY-TECHNICAL Q.UALIFICATIONS 1A-1 a

1.1 GENEPAL 1A-1 1.2 PARTICIPATION IN NUCLEAR PROJECTS 1A-2 13 THE 'IOLEDO EDISON COMPANY ORGANIZATION 1A-2 AND BACKGROUND OF KEY OFFICERS 1.4 POWER PIANT DESIGN AND CONSTRUCTION EXPERIENCE 1A-4 2 BABCOCK & WILCOX - TECHNICAL QUALIFICATIONS 1A-5 2.1 GENERAL 1A-5 2.2 DIVISIONS AND SUBSIDIARIES 1A-5 2.3 NUCLEAR EXPERIENCE 1A-6 3 BECHTEL COMPANY - TECHNICAL QUALIFICATICNS 1A-10 3.1 GENERAL 1A-10 3.2 NUCLFAR EXPERIENCE 1A-10 3.3 ORGANIZATION IA-13 l

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D-B APPENDIX 1A )

TECHNICAL QUALIFICATIONS LIST OF FIGURES (At Rear of Section)

Figure No. Title 9

1A-1 The Toledo Edison Company Organization Chart

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, APPENDIX 1A IECHNICAL QUALIFICATIONS 1 THE TOIEDO EDISON COMPANY-TECHNICAL QUALIFICATIONS 1.1 GENERAL Predecessors of The Toledo Edison Cc=pany engaged in the electric business in Toledo date from the 1880's. Toledo Edison was organized in 1901 under the na=e of The Toledo Railway and Light Cc=pany, which was acquired by Cities Service Company in 1912. The na=e was changed to The Toledo Edison Cc=pany in 1921 when the street railway properties were transferred to a separate corporation. During the period of 1912 to 1950 Toledo Edisen operated as a subsidiary of the Cities Service Cc=pany. In 1950, the ec==en stock held by Cities Service Cc=pany was disposed of by a rights offering to its share-holders and a sale of the balance to the public, and since this time, Toledo Edison has operated as an independent investor-owned public utility. The l1 cc=pany new serves a population of 708,000 in an area cf approxi=ately 2,500 square =iles in northwest Ohio. In addition to the production and sale of electricity, there are also 2 stall gas distribution syste=s in 2 areas vest of Toledo and a stea= heating i usiness in downtown Toledo. The = cst recent peak load on the electrical system was in June,1969 and m cunted to 882,000 kw.

At the time of this system peak load, the ec=pany was also selling to other utilities and the total peak demand was 1,082,000 kw.

At the present time the net system capability of Toledo Edisen is 1,256,000 k4. The generating stations are as follews:

No. of Capacity Station Units Kilowatts Coal-Fired Stea=-Electric Bay Shore h 636,000 Acme 7 34h,000 Water Street 1 7,000 Subtotal III 9c7,000 Cc=bustion Turbine Peaking Units Defiance 3 45,000 Stryker 1 20,000 3ay Shore 1 19,000 dubtotal ""5 c4,000 Internal Codbustien Units Clyde , 2 3,000 Wate rville 5 3,000 Subtotal 7 o,000 In addition t: the generating stations, the Cc=pany has 1 firm purchase con-tract with the Ohio Power Cc=pany for 100,000 MJ, Interlake Steel Corporation for 12,000 kw and is also entitled to purchase a 67,000 kw share of the Ohio Valley Electric Corporation power not required by the Atc=ic inerzy Cc==issicn.

These purchase contracts are considered a part of the total capability t

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D-B of 1,256,000 kv.

3 Du' ring the past ten years the Bay Shore Station has ranged frce nu=ber eight to number 30 a=ong the most efficient power stations in the country. In addition, the availability of major generating units at both the Acme Sta-tion and the Bay Shore Station has been among the highest in the industry and the forced outage rate on these units has been among the lowest.

In 1967 The Toledo Edison Co=pany entered into a memorandum of understanding with four other electric utilities in Ohio and Pennsylvania known as the Central Area Power Coordination Group (CAPCO) which calls for a power pool-ing arrangement. As a part of this understanding the Co=pany will buy a '

portion of the generation from pooled units starting in 1971 and continuing until 1974. The Davis-Besse Nuclear Power Station, Unit No.1, will be the fourth pooled unit, jointly owned by Toledo Edison and Cleveland Electric Illu=inating Company, and a portion of the Company's share of this generating capacity will be sold in diminishing amounts to other CAPCO participants until the Co=pany's load growth fu2y utilizes its share.

l.2 PARTIC1/IMON IN NUCLEAR PROJECTS In 1952 the Dow-Detroit Edisen study group was formed to study the best methods of applying nuclear power to the production of electricity. The Toledo Edison Company was among the first electric utility companies to join this study group which in 1955 was incorporated as the Atomic Power Develop-ment Associates (APDA). APDA developed the design for the fast breeder reactor that has been built by the Power Reactor Development Co=pany (PRDCl -

at the Enrico Femi Atomic Power Plant near Monroe, Michigan. Toledo Edison )

has contributed both personnel and money to these organizations, as a charter of both, and continue as a menber of both at the time present time.

Three engineers currently engs.ged in the design of the Davis-Besse Station bye spent a total of 14p man-years with APDA and PRDC assigned to the Enrico Fermi project starting with the early conceptual design through the M ail design, construction, non-nuclear testing, fuel loading and initial critical-ity. In addition, Toledo Edison personnel are currently se- ving as an officer of APDA and as members of the Executive Cdttee, Board of Trustees and Technical and Engineering Co=mittee of both APDA and PRDC.

2. 3 THE TOLEDO EDISON COMPANY ORGANIZATION AND BACKGROUND OF KEY OFFICERS The total e=ployment of The Toledo Edison Company is approximately 1,600 people in all categories and classifications. Of these employees, about 270 are in an executive, supervisory or technical position with 90 of these employees holding an engineering degree and 90 holding a degree in a field other than engineering. An organization chart for the Company is shown on Figure IA-1.

Mr. J. K. Davis is the president and chief executive officer of The Toledo l

Edison Company. Mr. Davis received a BS Degree in Electrical Engineering from Virginia Military Institute in 1929 He was employed by the Public Service l Company of Colorado as a cadet engineer in 1929 and was transferred to the East Tennessee Light and Power Company in 1930 where he served until 1942 as a

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D-B electrical engineer, division superintendent and division manager. During 1942 to 1946 he served in the U. S. Army and after release in 1946 with the rank of Lt. Colonel, he joined Toledo Edison as personnel director. He has held the positions of sice president, executive vice president and was elected president in 1959 He was elected to the Board of Directors in 1949 Mr. Davts is currently executive vice president of Atomic Power Development Ascociates as well as a member of the Board of Directors and Executive Committee of Power Reactor Development Company.

Mr. Davis is a member of the Institute of Electrical and Electronic Engi-

neers, National Society.of Professional Engineers, and is a Registered Professional Engineer in the State of Ohio.

Mr. C. E. Flahie, Executive Vice President and Director, is responsible through two vice pruidents for the fuactioning of Toledo Edison's Operating Groups.

These two groups and their responsibilities are:

• 4 Power Group - Design, construction and operation of power generatir4 equipment.

Electrical Group - Design, construction and operation of transmission and distribution systems, system planning activities and design of electrical portions of generating stations.

Mr. Flahie is a 1930 graduate of the University of Michigan with a BS Degree

.in Mechanical Engineering and a Master of Arts Degree in 1960 frca the University of Detroit. He has advanced through various operating and engi-neering positions and was named vice president, Electrical Group in 1962. In

1965, he was named executive vice president and el2cted to the Board of j Directors.

l Mr. Flahie is a member of the Institute of Electrical and Electronic Engi-neers, National Society of Professional Engineers, and is a Registered Professional Engineer in the State of Ohio.

Mr. G. J. Sampson, Vice President, Power Group and Director, is responsible for all power generation a- 51vities in Toledo Edison. These responsibilities

'l- include the design (through the Mechanical Engineering Division), the con-struction (through the Power Plant Construction Division) and the operation (through the Power Prgduction Division) of all generating facilities.

Mr. Sampson has overall responsibility for the Davis-Besse Nuclear Power  ;

Station design, construction and operation.

He is a 1930 graduate of Rose Polytechnic Institute with a BS in Mechanical i Engineering and has advanced through various power plant engineering, con-struction and operating positions including chief construction engineer and general superintendent of Power Production. He was named vice president,

_ Power Group in 1964 and elected to the Board of Directors in 1968.

_ s 3 Mr. Sampson is a member of the Prime Movers Committee of the Edison Electric '

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D-B Institute, is a member of the National Society of Professional Engineers and g is a Registered Professional Engineer in the State of Ohio. 4 Mr. T. J. Kozak, Vice President, Electrical Group, is responsible for all electrical operations in Toledo Edison. These responsibilities include the design (through the Electrical Engineering Divisir a) and construction and operation (through the Transmission and Distribution Division, Substations Department and System Operations Department) of all transmission and distri-bution facilities. He is also responsible (through the Electrical Engineer-ing Division) for the design of the electrical portions of the generating stations.

He is a 1940 graduate of The University o'r Toledo with a BS in Electrical Engineering. He has held various positions in electrical engineering and from 1961 to 1905 was director of the Eate Division. He ..as named vice president, Electrical Group in 1965 Mr. Kozak is a member of the Institute of Electrical and Electronic Engi-neers, National Society of Professional Engineers and is a T.?gistered Professional Engineer in the State of Ohio.

1.4 POWER PIANT DESIGN AND CONSTRUCTION EXPERIENCE The Toledo Edison Company has traditionally retained overall responsibility for the design, purchase and installation of its generating units. The Company has always retained a consulting engineer to provide the bulk of the' design and drawing services but the responsibility for the basic cycle l arrangement, functional design, equipment arrangement and instrumentation and control has always been retained. In addition, the purchase of all power plant equipment and the letting of construction contracts has always been done by the Company. Construction of these units has been accomplished through individual subcontractors with the Company acting as its own construc-tion manager.

For the Davis-Besse Nuclear Power Station, the Bechtel Company has been engaged to perform the engineering, design and drafting; however, The Toledo Edison Company will retain full responsibility for the perfomance of func-tional design of all systems in the plant. In addition, The Toledo Edison Company will do all purchasing associated with' the project. The Bechtel Corporation, for the Davis-Besse Nuclea- . over Station, will perform con-struction management services with overall responsibility being retained by The Toledo Edison Company.

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2 BABCOCK & WILCOX - TECHNICAL CUALIFICATIONS 2.1 GENERAL Babcock & Wilcox was founded as a partnership in 1867 and organized as a corpo-ration in 1881. B&W is a videly diversified company serving the electric util-ity, transportation, steel, petroleum, chemical, pulp and paper, and machinery industries , as well as era of the world's leading suppliers of specielty steels.

B&W is one of the leading suppliers of components for the nuclear Navy.

The Company ranks as one of the larger A=erican industrial enterprises with cor-porate total assets of over $515,000,000 at the end of 1968. Orders received in 1968 exceeded $911,082,000, and 1968 inecme before taxes and minority in-terests was ov3r $L9,69h,000. The backlog at the end of December 1968 was more than $1,653,595,000. Current orders for nuclear equipment exceed $700,000,000.

B&W e= ploys over 30,000 persons in facilities throughtat the United States, Australia, Canada. Great 3ritain, and Sweden. Of this total, over 1,000 are technical and scientific personnel working in the nuclear power activities.

As the world's largest manufacturer of steam generating equipment, B&W is a recognized leader in the A=erican industrial family. The Cc=pany has contrib-uted =aterially to the development of fundamental materials data, heat trans-fer data, manufacturing and erection processes, and inspection techniques used in the steam generating equipment industry.

2.2 DIVISIONS AND SUBSIDIARIES  !

The major divisions and subsidiaries of the Company located in the United States, and their products, include 1

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a. Power Gerieration Division Ine Power Generation Division designs, manufactures, installs, and services nuclear and conventional steam generating systems and equip- l ment and heavy pressure-vessel equipment for the utility, petro-chemical, and other industries. The Division designs and manufac-tures reactor vessels, steam generators, and pressurizers for the i nuclear Navy, the USAEC, and for conmercial nuclear power plants. l The Division also manufactures reactor fuel assemblies for ec=mercial nuclear power plants and conducts development programs on advanced nuclear power plant concepts, systes designs, and nuclear fuel man-agement programs.

b. Tubular Products Divisien

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The Tubular Products Division is one of the world's leading suppliers of specialty steel tubing, extrusions, and fittings.

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c. Refractories Division \,

The Refractories Division mines raw material and manufactures a com-plete line of refractory materials and high-temperature insulation for use in the utility, glassmaking, metal manufacturing, and space industries.

d. Automated Machine Division The Automated Machine Division furnishes the automotive and related

, industries with highly automated production machinery,

e. Naval Nuclear Fuel Division The Naval Nuclear Fuel Division Manufactures fuel for na'eal installa-tions.

f. Research and Develonment Division The Research and Development Division conducts research, development, and testing prcgrams for the other divisions and subsidiaries of the Company. Development programs are also conducted under contract in the areas of heat transfer, metallurgy, nuclear fuels development, l critical experiments, and radiochemistry programs. The Division's test reactor (BAWTR) and hot-cell facilities are utilized for irradi-ation testing, isotope production, and irradiation encapsulation j services. -

g. Bailey Meter Company Bailey Meter Co=pany designa and manufactures instruments, controls, and computers for power generation, industrial processes, and naval and merchant vessels. Bailey also produces a full line of nuclear instrumentation, safety systems, and process instrumentation for use in nuclear power plants.

h. Diamond Power Spscialty Company Diamond Power designs and msnufactures boiler cleaning equipment, special gauges, industrial television systems, stud tensioners, and reactor control rod drive mechanisms,

i. Babcock & Wilcox Canada, Limited This organization is a major Canadian supp11er of steam generators, pumps, and process equipment for a variety of uses in the utility, pulp sud paper, and chemical industries. It is also a major Canadian supplier of steam generators for nuclear power plants.

2.3 NUCLEAR EXPERIENCE B&W's participation in the development of nuclear power dates from the Manhattan i Project. The Company's broad nuclear activities include applied esearch to w

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, develop fundamental data, the design and manufacture of nuclear systems com-ponents, and design and manufacture of complete nuclear steam generating sys-tems.

The major activities and accomplishments of B&W in the water-cooled and mod-erated reactor field are su=marized as follows:

a. Indian Point 1 (Consolidated Edison Company of New YJ 't, Inc. )

In 1955, B&W contracted for the development, design, and supply of the nuclear steam supply system, reactor core, and related control system for Consolidated Edison's Indian Point Station Unit No. 1.

This unit is a light-water-cooled-and-moderated pressurized-water reactor system rated at 585,000 thermal kilowatts. The unit includes a separately fired superheater which heats steam from the reactor system before introduction into a 275,000 kilowatt electric generator. .

Indian Point i vent into commercial operation in January 1963.

b. NS Savannah (USAEC)

B&W was awarded a contract in 1957 to develop, design, and supply the entire propulsion plant for the NS Savannah. 3&W's initial con-tract scope included, in addition to the design and supply for equip-ment and reactor core, the responsibility for safety analysis work, supervision of propulsion plant equipment erection, crew training, and advice in fuel loading, testing, and operation. Through later ancillary contracts, 3&W personnel developed and directed the propul-sion testing, startup, and initial operational programs.

The NS Savannah vent into co=mercial operation in May 1962 and has been in continuous service since except for a one-year enforced out-age resulting from a labor dispute.

The Savannah r.uclear steam supply system is a light-water-cooled-and-moderated pressurized-vater plant rated at 80,000 thermal kilowatts.

c. Advanced Test Reactor (Ebasco/USAEC)

B&W was retained in 1960 as the nuclear subcontractor to Ebasco Ser-vices, Inc. , for the design of the Advanced Test Reactor. B&W's final scope of work included the design of the nuclear portion of the reac-tor complex including the reactor core, critical experiments, control rod drives, reactor vessel internals, and fuel handling tools. In addition, 3&W was responsible for supervising the research and devel-opment programs including corrosion testing, fuel assembly development and heat transfer testing, and the supply of the reactor control rod drive system, as well as the design of in-pile test loops. The Ad-vanced Test Reactor is a light-water-cooled-and-moderated high-flux test reactor rated at 250,000 thermal kilowatts.

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d. Otto Hahn Power Plant In 1960, B&W received a contract through its German Licensee, Deutsche Babcock & Wilcox, to provide technical and design consultation and assistance on the nuclear steam supply system and reactor core for the Germra Nuclear Ship, " Otto Hahn." The reactor is an advanced, light-water-cooled-and-moderated, pressurized-water reactor in which the core, steam generator, primary pumps, and piping are integrated into a single pressure vessel similar to B&W's Consolidated Nuclear Steam Generator (CNSG). The reactor is rated at 38,000 thermal kilowatts.

e. Oconee Nuclear Station Units 1, 2, and 3 (Duke Power Company)

B&W has a contract to supply three pressurized-water nuclear steam supply systems for installation near Seneca, South Carolina. Each system is rated at 2,k52 MWt for a net electrical output of 839 MW.

The first unit is scheduled for service in May 1971, the second in May 1972, and the third in June 1973. Each reactor uses chemical shim and control rods for reactivity control, and generates stea=

with a small amount of superheat in once-through steam generators.

f. Three-Mile Island Nuclear Station Unit 1 (Metropolitan Edison Company)

B&W will supply one pressurized-water nuclear steam supply system for installation near Harrisburg, Pennsylvania. Initial operation is scheduled for September 1971. The unit is rated at approximately 820 MWe (net), and is a near-duplicate of the units to be supplied l for Duke Power Company. )

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g. Crystal River Station Unit 3 (Florida Power Corporation)

B&W vill supply on'e pressurized-water nuclear steam supply system for i installation near Inverness, Florida. Initial operation of Unit 3 is L

scheduled for April 1972. This unit, rated at approximately 8k0 MWe, is very similar to the Duke and Met-Ed units.

h. Arkansas Nuclear One (Arkansas Power and Light Company)

B&W will supply one pressurized-water nuclear steam supply system for installation near Russellville, Arkansas. Initial operation is sched-uled for December 1972. The unit is rated at approximately 850 MWe

.(gross) and is very similar to the Duke ari later commercial nuclear units described above.

i. Rancho Seco Unit 1 (Sacramento Municipal Utility District) l B&W vill supply one pressurized-water nuclear steam supply system for installation in the southeastern part of Sacramento County, Californ'a.

Initial operation is scheduled for May 19'3 The unit is rated at 4p-proximately 850 MWe (gross) and closely resembles the units for Duke and later commercial nuclear units described above.

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j. Three-Mile Island Nuclear Station Unit 2 (Jersey Central Power and Light Company)

B&W will supply one pressurized-water nuclear steam supply system at the same site as Three-Mile Island Nuclear Station Unit 1. Initial operation is scheduled for May 1973. This unit, rated at approximately 845 MWe, is very similar to the Duke and later commercial nuclear units described above,

k. Midland Plant Units 1 and 2 (Consumers Power Company)

B&W will supply two pressurized-water nuclear steam supply systems near Midland, Michigan. Initial operation of the first unit is sched-uled for February 197h and of the second unit .";r February 1975 The two units have a total co=bined capacity of 1,300 MWe and h,050,000 lb/hr of process steam. All of the process steam and a portion of the electricity vill be utilized by the Dow Chemical Company. These nuclear units closely resemble the units for Duke and other com=er-cial nuclear units described above.

1. Research Reactors B&W has designed and supplied seven research and test reactors rang-ing in size from 1,000 to 6,000 thermal kilowatts.

m. Research and Development B&W's research and development and study efforts are significant and range from development of basic physics and materials data through the development of complete reactor systems, inc; , ding a substantial effort in advanced converter and breeder reactor ,ystems.

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3 BECHTEL CORPOEATION - TECHNICAL QUALIFICATIONS

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3.1 GENERAL The Bechtel Corporation, established in 18981/ W. A. Bechtel, was initially engaged in heavy construction but gradually changed its emphasis from con-struction with engineering overtones to a well-balanced engineering and con-struction company in' the 1930's and early 19ho's. Bechtel first served industry and government in railroad work; then in highway tunnels, bridges, dams and pipelines. For the last twenty years, Bechtel has been active in the fields of petroleum, power generation and distribution; harbor develop-ment; mining and metallurgy; and chemical and industrial processing. The Bechtel organization has grown progressively to be one of the world's largest engineer constructors fcr industrial facilities and for development of natural resources. The company activities are world-wide with principal offices located in San Francisco, New York, Los Angeles , Gaithersburg, Toronto, Montreal, London, Melbourne and Paris. Bechtel Company, Bechtel Corporation's affilitate, is an engineering partnership qualified to perform its services in Ohio.

Since the close of World War II, Bechtel has placed strow empt. asis on electric power generation projects. In this relatively short space of some 20 years, the company has compiled an imposing record of growth and achievement in this industry. This is evident in the fact that Bechtel has installed, or now has under design or construction, about 59 mil 3 ion kilowatts of generating capacity.

Of this number over 18 million kilowatts is capacity generated by nuclear-In addition, in the hydro-electric field, Bechtel has designed fueled units. -

projects totaling over'9 million kilowr.tts of capacity which have included dams of all types and sizes.

The ratings of thermal generating plants that Bechtel F responsibility for range from 7,500 kilowatts to 2,h00,000,and include nr . cypes of station designs and arrangements, both reheat and non-reheat, iLJoor and outdoor stat,'ons, single and multiple units, covering a vide range of steam conditions up to 3,500 psi, 1050/1000 F. Also, some of the larger units are fully auto =ated and computer controlled.

Over the last five years, the average amount of work ecupleted per year by the Bechtel organization is in excess rf $500,000,000. The majority of these contracts include complete responsibility for both engine >. ring and construc-tion,although several are strictly engineering design t.ssignments.

3.2 NUCLEAR EXPERIENCE

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Bechtel has been actively working on nuclear projects involving power plants, nuclear accelerators, research laboratories, hot cells, experimental reactors and nuclear fuel processing plants for. over 15 years.

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D-B The folleving list is a su= mary of some of the significant nuclear projects undertaken by Bechtel:

Boiling water and pressurized water nuclear generating stations that have been co=pleted include the following:

5000KW BWR Vallecitos (VBWR) Plant for General Electric Company and Pacific Gas and Electric Company 210,000 KW BWR Dresden Unit No. 1 for Cc=monwealth Edison Company 75,000 KW BWR Big Rock Point Plant for Consumers Power Company 70,000 KW BWR Humboldt Bay Unit No. 3 for Pacific Gas and Electric Company h50,000 KW PWR San Onofre Nuclear Station for Southern Cali-fornia Edison Cc=pany and San Diego Gas and Electric Company Bechtel currently has under design and construction the following pressurized water reactor and boiling water reactor plants:

Tarapur BWR Units No. 1 and No. 2 (190,000 KW each) for the Indian Atomic Energy Commission h50,000 KW PWR Robert 7- ett Ginna Nuclear Station for Rochester Gas & Electric Corporation (coastruction)

Turkey Point PWR Units No. 3 and No. h (760,000 KW each) for Florida Power and Light Company 770,000 KW PWR Palisades Unit No. 1 for Consumers Power Company Point Beach PWR Units No. 1 and No. 2 (h50,0'00 KW each) for Wisconsin-Michigan Power Company Oconee PWR Units No. 1, No. 2 and No. 3 (800,000 KW each) for Duke Power Company (engineering design-consulting services) 520,000 KW BW3 Monticello Unit No. 1 for Northern States Power Company 1,100,000 KW BWR Peach Bottom Unit No. 2 for Philadelpnia Elec-tric Company and associated companies 800,000 KW BWR Edwin I. Hatch Nuclear Plant for Southern Services and 'eorgia Power Company (engineering design-consulting services) 1,100,000 KW BWR Peach Bottom Unit No. 3 for Philadelphia Electric Cc=pany 800,000 KW PWR Rancho Seco Station for Sacramento Municipal 5 Utility District 02J4 1A-ll 1

D-B 650,000 KW BWR Pilgrim Station for Boston Edison Company Calvert Cliffs PWR Units No. 1 and No. 2 (800,000 KW each) for Baltimore Gas and Electric Company 800,000 KW PWR Arkancas Nuclear One for Kansas Power and Light /

Middle South Utilities.

Midland PWR Unit No. 1 (800,000 KW) and Unit No. 2 (500,000 KW) for Consuners Power Company 830,000 KW PWR Millstone Unit No. 2 for Northeast Utilities Company (The Millstone Point Company)

Bechtel's responsibility in the design and construction of water-cooled re-actor stations has included the preparation of specifications and evaluation of proposals for nuclear power equipment as follows:

Technical evaluation of pressurized water plant and boiling water plant proposals for Millstone Unit No. 1 for Millstone Point Com-pany (Northeast Utilities)--this unit had a base rating of 550,000 KW, with a stretch rating on the order of 650,000 KW.

Preparation of system study for determining the economics, power plant location, nuclear vs coal, and power plant construction cost projections to 1980 for Consumers Power Company. Prepared nuclear steam supply system and fuel specifications for a nuclear power plant unit addition with a rating of 600,000 KW and completed }

economic and technical evaluation of prcposals received for fur-nishing the NSSS, nuclear fuel an'. turbine-generator equipment.

Consulting-engineering services, including preparation of equip-ment and plant specifications, nuclear fuel specifications, and evaluation of proposals for Union Electric Madrilena of Spain for a lh0,000 KW PWR power plant.

Consulting-engineering services, including preparation of speci-fications and evaluation of proposals for the Pakistan Atomic Energy Commission for a 50,000 KW water-cooled reactor plant.

Consulting-engineering services, including economic and feasi-bility studies, equipment and plant specifications, fuel speci-fications, and evaluation.of proposals for a 250,000 to 300,000 KW water cooled reactor plant for Bernese Pover Company (Switzer-land).

Completed preliminary plant design and economic studies covering nuclear vs fossil plants for Orange & Rockland Utilities, Inc.

Preparation of specification, evaluation of proposals and balance-of-plant for 800,000 KW PWR Rancho Seco Station for Sacramento Municipal Utility District.

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D-B Preparation of specifications, eva]uation of proposals and balance-of-plant for 800,000 KW Arkansas Nuclear One for Arkansas Power & Light Cc=pany/ Middle South Utilities.

Preparation of specifications, evaluation of proposals and balance-of-plant for 770,000 KW Palisades Unit #1 for Con-su=ers Power Company.

Technical and economic evaluation of NSSS proposals for Mill-stone Unit #2 for Northeast Utilities Company. The nominal rat-ing of this unit was 800,000 KW. Assign =ent also included eval-uation of nuclear fuel proposals.

Consulting-engineering services, including economic studies of nuclear vs. coal, and technical and economic evaluation of pro-posals and balance-of-plant for 800,000 KW Edwin I. Hatch Nuclear Plant for Southern Services / Georgia Power Company. -

Technical and economic evaluation of USSS proposals for Susque-hanna Electric Station Units #1 and #2 for Pennsylvania Power

& Light Co=pany. Evaluation was based on nominal rating of 800,000 KW for each unit.

Engineering-consulting services covering technical and economic evaluation of NSSS, nuclear fuel and turbine-generator proposals for 800,000 KW Davis-Besse Nuclear Power Station for the Toledo Edison Company. Assignment also included preparation of NSSS, nuclear fuel and turbine-generator specifications, evaluation of proposals , balance-of-plant, comparative designs and estimates based on a scheduled operating date of 197h.

Consulting-engineering services including economic studies of nuclear vs. coal, and technical and economic evaluation of pro-posals for nuclear steam supply system and turbine-generator for 800,000 KW project for Southern Services / Alabama Power Company.

3.3 ORGANIZATION The total Bechtel staff, exclusive of manual verkers, is now in excess of 8,600 employees. This includes members of =anagement, professional personnel, and individuals in other non-manual functions.

Responsibility for engineering design and construction of nuclear power plants is centered in two separate divisions; they are the Power and Industrial Divis-ion and the Vernon Division. These two divisions now comprise approximately 2,000 engineers, draftsmen, specialists and key field men qualified in power <

plant work. They also receive additional necessary support from other com-ponents in Eechtel, including technical, legal, estimating and employee re-lation assistance.

Of particular i=portance to nuclear projects is the function of the Scientific Development Department. Established in 1958, the Department comprises a se- l lected staff of technical specialists whose functions include keeping abreast of the lates- developments in reactor design and safety features.

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i BOARD OF DIRECTORS PRESIDENT l

1 SENIOR VICE PRESIDENT EXECUTIVE VICE PRESIDENT l

MARKET GROUP POWER GROUP VICE PRESIDENT VICE PRESIDENT DIVISIONS MECHANICAL ENGINEERING DIVISION DEPARTMENT POWER PRODUCTION ADMINISTRATIVE GROUP vlCE PRESIDENT POWER PLANT CONSTRUCTION DIVISION

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0217 ORGANIZATION CHART FIGURE 1A-1 AMEN 0 MENT NO. 2