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Concrete for ocean thermal energy conversion structures online

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1. Lockheed Missiles and Space Company, Inc., Ocean Thermal Energy Con-
version (OTEC) , Power Plant Technical and Economic Feasibility, Vol I
Technical^ Report , Vol II Supporting Data. Prepared for National Science
Foundation Research, Applied to National Needs Program, NSF/RANN/SE/
G1-C937/FR/75/1 and 1MSC-DO-56566, Sunnyvale, CA, April 1975.

2. TRW Systems Group, Ocean Thermal Energy Conversion, Research on an
Engineering Evaluation and Test Program, Vol 1, 2, 3, 4 & 5, Final Report.
Prepared for Energy Research and Development Administration for Contract
No. NSF-C958, Redondo Beach, CA, June 1975.

3. University of Massachusetts. Progress report NSF/RANN/SF./GI-34979/PR/74/1
Research Applied to Ocean Sited Power Plants, by W. E. Heronemus, et al.
Cambridge, MA, 30 April 1974.

4. A. Lavi and C. Zener. Solar Sun Power Plants - Electrical Power from
the Ocean Thermal Difference, paper submitted to American Society of Naval
Engineers for the ASNE Day 1975 Program, 26 August 1974.

5. J. H. Anderson and J. H. Anderson, Jr. A Summary of the Anderson and
Anderson Analysis of the Sea Solar Power Process, 1964 to 1972. University
of Massachusetts, Technical Report NSF/RANN/SE/GI-34979/TR/73/5, March 1973.

6. Ben C. Gerwick, Jr., "Concrete Structures for 2000-meter Depth," in
Ocean 75 , record of combined meeting of IEEE Conference on Engineering in
Ocean Environment and MTS 11th Annual meeting, San Diego, CA, 22-25 September
1975, pp. 701-704.

7. Civil Engineering Laboratory, Technical Note N-1144, History of Concrete
Structures in a Marine Environment, by W. R. Lorman, Part 2 of Model Ocean
Basing System - A Concrete Concept. Naval Construction Battalion Center,
Port Hueneme, CA, January 1971.

8. C. C. Nichols, "Construction and Performance of Hood Canal Floating
Bridge," Paper No. 9 of Special Publication SP-8, American Concrete Insti-
tute, Detroit, MI, 1964.

9. Arthur R. Anderson, "Prestressed Concrete Structures (State-of-the-
Art)," Pre-print of Paper No. 11C presented at Society of Naval Architects
and Marine Engineers, Vancouver, B.C., 14-17 May 1975, pp. 123-144.

10. Rowland G. Morgan, "Concrete Ships," Proceedings FIP Symposium on
Concrete Sea Structures, Tbilisi, September 1972, Federation Internationale
de la Precontrainte, London, 1973.

11. Ben C. Gerwick, Jr., "Design and Construction of Prestressed Concrete
Vessels," Paper No. OTC 1886, Offshore Technology Conference, Houston, TX,
1973.



43



12. V. A. Mishutin, "Concrete Floating Dry-dock Bodies After 10 to 40
years of Use in Seas with Different Climates," Proceedings of FIP Symposium
Concrete Sea Structures , Tbilisi, September 1972, Federation Internationale
de la Precontrainte, London, 1973.

13. Ivar Foss, "Concrete Gravity Structures for the North Sea," Ocean
Industry, Vol 9, No 8, August 1974, pp. 54-58.

14. E. M. Q. Roven, K. Hove, and 0. Furnes, Det Norske Veritas Rules for
Design and Construction of Fixed Offshore Concrete Structures, A Review
and Outlook. Paper presented at American Concrete Institute Symposium on
Offshore Concrete Structures, ACI Convention, Boston, April 1975.

15. Anonymous, "World's Biggest Oil Platform," Sea Technology , Vol 16,
No. 10, October 1975, pp. 24-25.

16. Federation Internationale de la Precontrainte (FIP) , Recommendations
for the Design of Concrete Sea Structures, 2nd Edition, London, 1975.

17. Japan Society of Civil Engineers, Recommendations for the Design and
Construction of Concrete Sea Structures, Japan (in publication).

18. American Concrete Institute Committee 357, Offshore Concrete Structures.

19. Det Norske Veritas, Rules for the Design, Construction, and Inspection
of Fixed Offshore Structures, Grenseveien 92, Oslo, Norway, 1974.

20. ACI Committee 201, "Durability of Concrete in Service," ACI Journal,
Proceedings, Vol 59, No 12, December 1962.

21. Bryant Mather, Durability of Concrete Construction - 50 years of
Progress, Proceedings of the American Society of Civil Engineers, Journal
of the Construction Division, Vol 101, No C01, March 1975, pp. 5-14.

22. Ben C. Gerwick, Jr., "Practical Methods of Ensuring Durability of
Prestressed Concrete Ocean Structures," in Durabilility of Concrete ,
Publication SP-47, American Concrete Institute, Detroit, MI, 1975, pp. 317-324.

23. Povinda K.Mehta and Harvey H. Haynes , Durability of Concrete in Sea-
water, Journal of the Structures Division, Proceedings of the American
Society of Civil Engineers, Vol 101, No. ST8, August 1975, pp. 1679-1686.

24. Roger E. Carrier, et al. , "Factors Affecting the Durability of Con-
crete Bridge Decks," in Durability of Concrete , Publication SP-47, American
Concrete Institute, Detroit, MI, 1975, pp. 121-168.

25. G. W. DePuy and J, T. Dikeou , "Development of Polymer-Impregnated
Concrete as a Construction Material for Engineering Projects," Polymers

in Concrete , Publication SP-40, American Concrete Institute, Detroit, MI, 1973,
pp. 33-56.



44



,26. David W. Fowler, et al., "Polymer-impregnated Concrete Surface
Treatments for Highway Bridge Decks," Polymers in Concrete , Publication
SP-40, American Concrete Institute, Detroit, MI, 1973, pp. 93-117.

27. Odd E. Gjorv, "Concrete in the Oceans, " Marine Science Communications,
1(1), 1975, pp. 51-74.

28. R. D. Browne and P. L. J. Domone, The Long Term Performance of Con-
crete in the Marine Environment. Paper 5, Conference on Offshore Structures,
Institution of Civil Engineers, London, October 1974, pp. 31-41.

29. George J. Verbeck, "Mechanisms of Corrosion of Steel in Concrete,"
Corrosion of Metals in Concrete , Publication SP-49 , American Concrete
Institute, Detroit, MI, 1975.

30. T. E. Backstrum, "Use of Coatings on Steel Embedded in Concrete,"
Corrosion of Metals in Concrete , Publication SP-49, American Concrete
Institute, 1975, pp. 103-113.

-~^j>31. I. Cornet, et al., "Chromate Admixture to Improve Performance of Gal-
vanized Steel in Concrete Sea Structures," FIP Proceedings, Concrete Sea
Structures , Tbilisi, 1972, Federation Internationale Precontrainte, London,
1973.

32. G. Somerville and H. P. J. Taylor, Concrete in the Oceans, Report
RR SMT-7402, Cement and Concrete Association, London, August 1974.

33. Civil Engineering Laboratory, Technical Note, Seawater Absorption and
Compressive Strength of Concrete at Ocean Depths, by H. H. Haynes, R. S.
Highberg, and B. A. Nordby, Naval Construction Battalion Center, Port
Hueneme, CA (in publication).

34. ACI Committee 213, "Guide for Structural Lightweight Concrete," Title
No. 64-39, American Concrete Institute, Detroit, MI, 1967.

35. Bryant Mather, Behavior of Concrete Exposed to the Sea, Proceeding of
the Conference on Civil Engineering in the Oceans II, American Society of
Civil Engineers, Florida, December 1969, pp. 987-998.

36. Civil Engineering Laboratory, Special Report 52-030, Seawater Absorp-
tion by Precast Portland Cement Concrete Containing Lightweight Aggregate,
by W. R. Lorman, NCBC, Port Hueneme, CA, March 1973.

37. Civil Engineering Laboratory. Technical Note N-1392: Antifouling marine
concrete, by J. S. Muraoka and H. P. Vind. Port Hueneme, CA, May 1975.

"^-fc- 38. American Concrete Institute. Special Publication No. SP-44: Fiber
reinforced concrete. Detroit, MI, 1974.



45



39. Wai-Fah Chen and E. Dahl-Jorgensen, Polymer-Impregnated Concrete as a
Structural Material, Magazine of Concrete Research, Vol 26, No 86, March
1974, pp. 16-20.

y 40. L. H. Willis and W. E. Willis, II, Dry-Cast 12,000 psi Concrete,

Journal of American Concrete Institute, Proceedings Vol 71, No 6, June

1974, pp. N19.

41. Bureau of Reclamation, Concrete Manual, 7th edition, Denver, CO, 1966.

42. Civil Engineering Laboratory (SP-700) , Handbook for the Design of
Undersea Pressure Resistant Concrete Structures, by H. H. Haynes , NCBC, Port
Hueneme, CA (in publication).

43. Civil Engineering Laboratory, Technical Report R-805, Long-Term Deep-
Ocean Test of Concrete Spherical Structures - Part 1: Fabrication, Emplace-
ment and Initial Inspections, by H. H. Haynes, NCBC, Port Hueneme, CA,
March, 1974.

44. ACI Committee 215, Considerations for Design of Concrete Structures
Subjected to Fatigue Loading, American Concrete Institute, Proceedings
Vol 71, No 3, March 1974, pp. 97-121.

45. Civil Engineering Laboratory, Technical Note N-1144, Mobile Ocean Basing
System - A Concrete Concept, by J. J. Hromadik, et al. , NCBC, Port Hueneme,
CA, January 1971.

46. ACI Committee 349, Criteria for Reinforced Concrete Nuclear Power
Containment Structures, Journal of American Concrete Institute, Proceedings
Vol 69, No 1, January 1972, pp. 2-28.

47. P. A. Howdyshell, Rapid Testing of Fresh Concrete, CERL-CP-M-128,
Construction Engineering Research Laboratory, Champaign, IL, May 1975.

48. J. R. VanDaveer, Techniques for Evaluating Reinforced Concrete Bridge
Decks, Journal of American Concrete Institute, Proceedings Vol 72, No 12,
December 1975, pp. 697-704.

49. Highway Research Board Bulletin 182, Corrosion of Reinforcing Steel
and Repair of Concrete in a Marine Environment, Washington, DC, 1958.

50. C. F. Stewart, Considerations for Repairing Salt-Damaged Bridge Decks,
Journal of American Concrete Institute, Proceedings Vol 72, No 12, December

1975, pp. 685-690.

51. B. C. Gerwick, Jr., Prestressed Concrete Ocean Structures and Ships,
Prestressed Concrete Institute, Chicago, IL, September 1975.



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Online LibraryH. H. Civil Engineering Laboratory HaynesConcrete for ocean thermal energy conversion structures → online text (page 4 of 4)