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HUB SIZE SELECTION CRITERIA FOR controlLABLE PITCH PROPELLERS AS A MEANS TO ENSURE systems INTEGRITY

NAVAL ENGINEERS JOURNAL 1978年第6期90卷 49-61页

作者： WIND, J The Authoris a citizen of the Netherlands. He studied Aircraft Engineering and Mechanical Engineering at the Delft Institute of Technology from which he received his MS degree in 1955. He began his career as a Research Engineer in the field of Nuclear Engineering employed by VMF—Stork and he holds several U.S. Patents relating to ultra—centrifuges for the separation of Uranium. He was next engaged. in design of control gear for radio astronomy aerials and operating gear for bridges and huge floodgates in the Scheldt and Rhine Delta. Later he became involved in the control of diesel engines and controllable pitch propellers and in 1967 joined LIPS Propeller Works where he developed CP propeller mechanisms solved the problem of high—pressure oil supply to large diameter marine shafts and made an improvement for high—speed propeller nozzles. As Head of the Design Department he was responsible for the design of large controllable pitch propellers for fast Container Ships and Naval Ships with gas turbine drive. Mr. Wind has authored several technical publications among which are “Controllable Pitch Propellers. Their Principles and Mechanisms” and “The Development of CP Propeller Systems.” At the present time he is a Corporate Engineering Consultant to the Propeller Division of LIPS B. V.

In a CP propeller the size of the hub largely influences the reliability of the system in operation. Accurate choice of the hub—size provides the best means to prevent the system from structural propeller failures and is therefore the best method to ensure reliability and optimized performance. Recent failures of high—power CP propellers, of which one Navy propeller had a serious mission failure, could have been avoided if a larger hub had been adopted. The paper contains two tools, available also to nonspecialists. One allows clear recognition of the technical degree of difficulty of all types of propellers and the other is a scale to determine the degree of load of each CP propeller hub. Information is given concerning the influence of the hub/diameter ratio on the hydrodynamic performance.

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A DYNAMIC ANALYSIS OF A COGAS PROPULSION PLANT

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Naval Engineers Journal 1977年第6期89卷 19-34页

作者： ABBOTT, JACK W. McINTIRE, JOHN G. RUBIS, C. JOSEPH Mr. Jack W. Abbott:is Head of the Systems Engineering and Analysis Branch Ship Design Division Naval Ship Engineering Center. He received his BSME degree from Stanford University in 1960 and his ME A degree from The George Washington University in 1975. He is a Lieutenant Commander USNR (Ret.) having served during his active duty period as Engineering Officer aboard a U. S. destroyer for 3 years and also a registered Professional Engineer in the State of California. In addition to holding several U.S. Patents he annually instructs courses in the Design of Naval Surface Ships at the Massachusetts Institute of Technology including the concept of total energy systems. He is a member of SNAME and has been a member of ASNE and a frequent contributor to the Journal since 1966 most recently having been a co—recipient of the “Jimmie Hamilton” Award for the best paper published in 1976. Mr. John G. Mclntire:received his BS and MS degrees from the University of California at Berkeley where he did his graduate studies in the field of Automatic Control Systems Design. He was employed by the Naval Ship Engineering Center in 1971 as a Mechanical Engineer and is currently serving as Acting Head of the Machinery Control Systems Section Machinery Systems Division. He is a member of the NA VAIR/NA VSEA Association of Scientists and Engineers the American Society of Mechanical Engineers and the National Society of Professional Engineers. Mr. C. Joseph Rubls:isPresident of Propulsion Dynamics Inc. Annapolis Md. where he is engaged in simulation and analytical studies of ship propulsion and automation systems. Previous to his present position he was a Scientific Consultant and Head of the Control Systems Branch David W. Taylor Naval Ship Research & Development Center Annapolis Laboratory where he was employed over a 10–year period. His other employment experience includes the Martin—Marietta Company as Senior Systems Engineer for Guidance Radar and for Communications Systems the U.S. Naval Academy American Universi

The paper provides a dynamic analysis of a COGAS Propulsion Plant, including mathematical modeling and simulation, and concludes with the results of a COGAS simulation which indicates encouraging conclusions regarding...

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Abstracts

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Environmental Management 1977年第1期1卷 67-96页

作者： Frankenfeld, John W. Schulz, Wolfgang McMurty, George J. Petersen, Gary W. May, G. A. Hering, F. S. Schwartz, J. I. Heywood, J. B. Chigier, N. A. Grohse, E. W. Walker, J. D. Colwell, R. R. Petrakis, L. Pergament, H. S. Thorpe, R. D. Schoepf, Richard W. Krzyczkowski, Roman Henneman, Suzanne S. Hudson, Charles L. Putnam, Evelyn S. Thiesen, Donna J. Parks, G. A. McCarty, Perry L. Leckie, J. O. Schrumpf, Barry J. Simonson, G. H. Paine, D. P. Lawrence, R. D. Pyott, W. T. Leh, M. Elders, W. Combs, J. Caplen, T. Harrison, F. L. Wong, K. M. Heft., R. E. Charnell, Robert L. Lehmann, Edward J. Mallon, Lawrence G. Hatfield, Cecile Adams, Gerald H. Johanning, James Talvitie, Antti Noll, Kenneth E. Miller, Terry Smiarowski, Joseph F. Willis, Cleve E. Foster, John H. Schlesinger, Benjamin Daetz, Douglas Lear, Donald U. Smith, Mona F. Hundemann, Audrey S. Crockett, Pernell W. Werner, Kirk G. Carroll, Thomas E. Maase, David L. Genco, Joseph E. Ifeadi, Christopher N. Lowman, F. G. Christensen, S. W. Van Winkle, W. Mattice, J. S. Harrison, Elizabeth A. Barker, James C. Chesness, Jerry L. Smith, Ralph E. Shaheeen, Donald G. Raney, R. Keith Borton, T. Wezernak, C. T. Raney, R. K. Sherwani, Jabbor K. Moreau, David H. Eisenberg, Norman A. Lynch, Cornelius J. Breeding, Roger J. Johnson, J. D. Foster, K. E. Mouat, D. A. Clark, R. Hyden, John William Owen, Wilfred Bayfield, Neil G. Barrow, Graham C. Stolz, Stephanie B. Wienckowski, Louis A. Brown, Betram S. Keyfitz, Nathan Wilson, W. L. Newman, Peter W. G. Bammi, Deepak Bammi, Dalip Goddard, James E. Chisholm, Tony Walsh, Cliff Brennan, Geoffrey Thompson, K. S. Richardson, R. Jensen, Clayton E. Brown, Dail W. Mirabito, John A. Cowing, Thomas G. Binghamton, Suny Siehl, George H. Albrecht, O. W. Alexander, Ariel Barde, Jean -Philippe Darby, William P. McMichael, Francis Clay Dunlap, Robert W. Muckleston, Keith W. Frankenhoff, Charles A. Giulini, Lorenzo T. Wyatt, T. Black, Peter E. Keating, William Thomas Leonard, M. E. Fisher, E. L. Brunelle, M. F. Dickinson, J. E. Pethig, Rudiger Clapham Exxon Research & Engineering Co. Linden Government Research Lab Coast Guard Washington D.C. Department of Transportation Washington D.C. Office For Remote Sensing of Earth Resources. NASA Earth Resources Survey Program Pennsylvania State University Washington D.C. Department of the Navy Washington D.C. Cambridge. Dept. of Mechanical Engineering Massachusetts Inst. of Technology USA Huntsville. School of Graduate Studies and Research Alabama Univ. USA Dept. of Microbiology. Office of Naval Research Maryland Univ. Arlington Research and Development Co. Pittsburgh AeroChem Research Labs. Inc. Princeton Dept. of the Interior Office of Library Services. Bibliographic Series (Final) Washington D.C. Interplan Corp. Santa Barbara Urban Mass Transportation Adm. Washington D.C. Naval Underwater Systems Center Newport Calif. Mercury Project. National Science Found Stanford Univ Washington D.C. Div. of Advanced Environmental Research & Tech. USA Corvallis. NASA Earth Resources Survey Program Oregon State Univ. Washington D.C. Riverside. Inst. of Geophysics and Planetary Physics National Science Foundation California Univ. Washington D.C. Livermore Lawrence Livermore Lab. California Univ. USA Atlantic Oceanographic and Meteorological Labs. National Oceanic and Atmospheric Administration Miami National Technical Information Service Springfield Miami Univ. Coral Gables School of Law National Oceanic and Atmospheric Administration Rockville National Academy of Sciences Office of Sea Grant Washington D. C. School of Law National Oceanic and Atmospheric Administration Office of Sea Grant. Rockville Norman. Dept. of Civil Engineering and Environmental Science. Urban Mass Transportation Administration Oklahoma Univ. Washington D. C. Knoxville.Dept. of Civil Engineering. Federal Highway Administration Tennessee Univ. Washington D. C. Amherst.Water Resources Research Center. Office of Water Research and Technology Massachusetts Univ. Washington D. C. Calif. Dept. of Industria

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Cogas—A New Look for Naval Propulsion

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Naval Engineers Journal 1974年第5期86卷 41-56页

作者： Abbott, Jack W. Baham, Gary J. Head of the Systems Engineering Section Naval Ship Engineering Center. He received his Bachelor of Science degree in Mechanical Engineering from Stanford University in 1960 and was then commissioned in the U.S. Navy serving as Engineering Officer in the USS Braine (DD-630). Upon completion of his active duty assignments he entered industry as a Development Engineer and became involved with marine application of gas turbine and fluid power systems. In 1966 he assumed full responsibility for the installation design and equipment acceptance tests of the gas turbine generator/waste-heat boiler system for the DDH-280 Class Destroyer including all associated controls ducting and silencing equipment. In 1970 he became Manager of the DD-963 Auxiliary Power “Trade-Off” Study which resulted in significant modification to the electric steam and compressed air systems. A registered Professional Mechanical Engineer in the State of California and the holder of several patents he is presently enrolled in the Masters Program at George Washington University in Engineering Administration. He is a member of ASNE and SNAME and currently holds the rank of Lieutenant Commander in the U.S. Naval Reserve. Head of the Mechanical Systems Department Washington D. C. Office of George G. Sharp Inc. He received his BS degree in Engineering from the University of California at Los Angeles. His career started in the design and development of turbomachinery for commercial and marine applications with the Douglas Aircraft Co. He subsequently was employed by the Southern California Edison Co. and later the Turbo-Power and Marine Department of Pratt & Whitney Aircraft in development of power systems for marine and electrical generation applications. At Litton Ship Systems Inc. he participated in development of propulsion power train machinery for the DD-963 and LHA ship programs. He is a member of SNAME a registered Professional Mechanical Engineer in the State of California and is currently completing requirements for a Masters

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THE PATROL FRIGATE PROGRAM‐A NEW APPROACH TO SHIP DIGIGN AND ACQUISTION

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Naval Engineers Journal 1973年第4期85卷 82-91页

作者： NEWCOMB, JOHN W. DITRAPANI, ANTHONY R. Mr. John W. Newcomb received his undergraduate education at Webb Institute of Naval Architecture graduating in 1966 and is currently completing requirements for a Master of Business Administration degree at the George Washington University. After gradwlting from Webb he was employed by Texaco Inc. Marine Department and later served three years active duty in the Navy as the DEG-7 Project Oficer at Supervisor of Shipbuilding Conversion and Repair Third Naval District. Subsequent thereto he was employed by the Naval Ship Research and Development Center prior to assuming his present position in the Ship System Design Division of the Naval Ship Engineering Center. He is a member of ASNE and SNAME. Mr. Anthony R. Di'hapani received his BS degree in Mechanical Engineering from the University of Wisconsin in 1958 and subsequently completed course requirements for a Master of Engineering Science while an evening student at the George Washington University. He began his engineering career in 1958 in the BuShips Steam Turbine and Gear Branch specializing in steam turbine systems for nuclear submarines. In 1962 after completing a Navy-sponsored Electronics Training Program he joined the SQS-26 Sonar Project and served as Head of the Special Projects Section and subsequently the Test and Analysis Section until selected in 1967 to head the ASW Branch for the newly-churtered DXIDXG Project now the DO963 Ship Acquisition Project in the Naval Ship System Command. In 1970 he was designated a8 Acting Director of the DD963 Technical Management Plans Division and when the PF Program emerged in 1971 was reassigned as Deputy Project Manager for the Patrol Frigate Project.

Late in 1970, Admiral E. R. Zumwdt, Chid of Naval Operations, directed that study begin towards development of a new class of ocean escort to be known BS Patrol Frigate (PF) to take over some of the duties of the Navy's World War II destroyers as these 25 year old ships are retired from the active Fleet. At the same time, the department of Defense, was significantly revising its basic policies for the development and acquisition of major weapons systems, and PF became the Nay's first major ship claw acquisition under these new policies. This new requirement, as atmound in DOD Directive 5000.1, along with the program constraints imposed by the CNO, required the development of a philosophy and approach towards design, test and evaluation and acquisition which was significantly Merent from ship procurements of the recent past. This paper disc the overall acquisition proms for the Patrol Frigate Class BS it is being developed and implemented to meet these needs and constraints, and provides a commepfary regarding the effectiveness of the appraach as of January 1973. © 1973 by the American Society of Naval Engineers

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STUDIES OF A PLASMA PINCH SPACE ENGINE

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Journal of the American Society for Naval Engineers 1960年第4期72卷 715-725页

作者： GRANET, IRVING GUMAN, WILLIAM MCILROY, WILLIAM Irving Granet received his B.M.E. from The Cooper Union his M.M.E. from Polytechnic Institute of Brooklyn has taken Pre-Doctoral Studies at Polytechnic Institute of Brooklyn and is a graduate of the Oak Ridge School of Reactor Technology. He has worked in Republic's Plasma Propulsion Laboratory on nuclear propulsion systems space radiators thermodynamic power cycle considerations for generating electric power and system design and operation for space propulsion. He was formerly Director of Staff Engineering Nuclear Energy Department of Foster Wheeler Corporation where he directed engineering design and analysis for complete nuclear plants. Mr. Granet has taught thermodynamics and heat transfer at the Polytechnic Institute of Brooklyn and at present is Adjunct Assistant Professor of Engineering and Physics at Long Island University. He has published over 40 articles in the fields of thermodynamics applied mechanics heat transfer and nuclear energy. He is a member of the American Society of Mechanical Engineers National Society of Professional Engineers Pi Tau Sigma and Sigma Xi. He is a licensed Professional Engineer in the State of New York. Mr. Granet is listed in the 1960 edition of American Men of Science and is a reviewer for the American Chemical Society's technical publications. William J. Guman received degrees of B. Aero. E. M. Aero. E. from and has completed courses for Ph.D. Aero. E. at Rensselaer Polytechnic Institute. Since coming to Republic in 1959 Mr. Guman has been conducting theoretical and experimental studies on non-steady interactions and flow processes in plasma engine configurations. Mr. Guman was Assistant Professor at Rensselaer Polytechnic Institute lecturing on fluid mechanics aerodynamics performance and stability and conducting laboratory courses in experimental fluid dynamics and wind tunnel research. He also investigated flow induction and was head of Rensselaer's supersonic wind tunnel laboratory. Mr. Guman performed a theoretical analysis in experimental aerodynamic

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WHY WATERJETS?

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Naval Engineers Journal 1967年第5期79卷 779-783页

作者： BERG, DAVID J. JONES, WALTER S. MARRON, HUGH W. David Berg a native of Michigan received his Bachelor's Degree in Mechanical Engineering from the Michigan Technological University in 1951 after which he began his career with the Bureau of Ships in the Machinery Design Branch on noise shock and vibration problems. He was project engineer for the axial flow pumpjet development on USS Witek (DD848) and USS Glover (AGDE1) and received his Master of Engineering Degree in Naval Architecture in 1964 from the University of California Berkeley. Mr. Berg is currently acting head of the Ship Performance and Trials Section of the Propulsion Systems Analysis Branch in the Naval Ship Engineering Center. He received the Meritorious Civilian Service Award in 1962 for contributions to the design of the USS Thresher (SSN593) and was awarded the Superior Performance Award for Outstanding Performance in 1966. Hugh Marron a native of Pennsylvania received his Bachelor of Science Degree in Civil Engineering from the Pennsylvania State University in 1939. Upon graduation he was employed for one year with the Pennsylvania Department of Highways as a construction engineer. In July 1940 he became a Marine Engineer at the Philadelphia Naval Shipyard where after a period of apprenticeship and special training in this new field he was assigned to the Machinery Scientific Group of the Design Division. Then in October 1945 he was transferred to the Design Division of the Bureau of Ships. Mr. Marron is now a Project Coordinator in the Propulsion Power and Auxiliary Systems Division of the Naval Ship Engineering Center. Walter S. Jones a native of Virginia graduated from the George Washington University with a BME in June 1958. From July of that year through June 1965 he served with the Machinery Design Branch of the Bureau of Ships where he was Project Engineer for the Hydroneu-matic Ram Jet and Water jet Propulsion Systems. Mr. Jones is currently the Machinery Coordinator for the Computer Aided Ship Design Program in the Naval Ship Engineering Center.

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US NAVY GAS TURBINE POWERED OCEAN ESCORT

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NAVAL ENGINEERS JOURNAL 1969年第4期81卷 53-&页

作者： MARRON, HW BAYLES, GC ROBINSON, PG MITCHELL, WD Hugh Marron a native of Pennsylvania received his Bachelor of Science Degree in Civil Engineering from the Pennsylvania State University in 1939. Upon graduation he was employed for one year with the Pennsylvania Department of Highways as a construction engineer. In July 1940 he became a Marine Engineer at the Philadelphia Naval Shipyard where after a period of apprenticeship and special training in this new field he was assigned to the Machinery Scientific Group of the Design Division. In October 1945 he was transferred to the Design Division of the Bureau of Ships. Mr. Marron is now Head of the Project Coordination Office in the Machinery Systems Division of the Naval Ship Engineering Center. Mr. Marron is a member of ASNE ASE. Grover C. Bayles joined NAVSEC in February 1966 upon concluding a career in private industry in the allied field of engineering application of naval machinery. Responsibilities in NAVSEC have centered upon the application of gas turbine engines to naval combatant ships. Efforts have been directed primarily to technical coordination of procurement development of software requirements and technical liaison between the contractor and NAVSHIPS for the procurement of propulsion systems. Mr. Bayles is a member of ASNE ASE. Peter Robinson a native of Maine graduated from the Maine Maritime Academy in 1956 and received his Bachelor of Marine Science Degree U.S. Coast Guard License and Commission in the U.S. Naval Reserve. He presently holds a Second Assistant Engineers License for steam vessels. After a tour as Main Engines Officer aboard an aircraft carrier and some merchant service he entered the University of Maine. After four years he received his Bachelor of Science Degree in Mechanical Engineering. Upon graduation he was employed for four years with the Portsmouth Naval Shipyard in the Nuclear Power Division primarily in the Test Group. Mr. Robinson came to NAVSEC in 1966 and is presently employed in the Propulsion Systems Analysis Branch as a Marine Engineer. Mr. Robinson is

“This article is from a paper presented in Washington, D. C. at the Association of Senior Engineers Naval Ship System Command 6th Annual Technical Symposium. The paper describes the special features of a gas turbine propulsion system concept of integrating high horsepower and C. P. propellers into a complete propulsion system. This advanced propulsion system design is unique in that it was developed to fit into an existing D. E. ship design and proposed for the fiscal year 1968 building program. The ship has been cancelled, however, the design should be of interest to people both within the Navy and in that sector of private industry concerned with the future of our Navy shipbuilding programs. The focus is now on the gas turbine as a prime mover for warships, and it seems likely that there will be an increased emphasis on the use of gas turbines in the U.S. Navy's future shipbuilding programs.”

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STATIC MOORING - A REVIEW OF STATE OF ART

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NAVAL ENGINEERS JOURNAL 1970年第4期82卷 63-&页

作者： KEAYS, K The authorgraduated from the U.S. Naval Academy in 1949 and received the Professional Degree of Naval Engineering at M.I.T. in 1955. He is currently the Administrative Officer in the Department of Naval Architecture and Marine Engineering at M.I.T. His previous positions include Project Manager and Section Chief in the Research and Development Department of the Electric Boat Division General Dynamics Corporation. He was responsible for projects which included the Large Object Salvage Study preparation of the U.S. Navy Submarine Salvage Manual (NAVSHIPS 0900-006-2010) and design of MARK II MOD O Deep Diving System. He served in the U.S. Navy as an Engineering Duty Officer in Submarine Design and Construction Billets. He is a member of the American Society of Naval Engineers American Society of Mechanical Engineers Society of Sigma Xi and the Society of Naval Architects and Marine Engineers. He holds professional engineering certification in California Connecticut and Massachusetts. He has authored papers in the fields of Diving Systems and Submarine Salvage.

The state-of-the-art of static mooring is reviewed with particular emphasis on its reliability, stability, and survivability since these three characteristics were emphasized by the U.S. Coast Guard in seeking systems engineering Services for the National Data Buoy System. Methods of estimating forces on the moored object are briefly reviewed. The lack of rational anchor design criteria and the inability to relate anchor holding power to ocean bottom physical characteristics is discussed. Recent research in the field of catenary analysis is briefly cited. Major material considerations, technical factors relating to wire rope, corrosion protection measures, quality assurance and component testing programs are highlighted. The conclusions are that the state-of-the-art of mooring systems will not permit an acceptable level of confidence in its reliability, stability, and survivability; that the major areas of effort must be in force and anchor holding power predictions, and that the attention to engineering details, quality assurance and component testing are of primary importance.

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Comparative Heave Dynamics Of Two Unusual Ship Configurations For Recovery Of Submersibles

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Naval Engineers Journal 1971年第5期83卷 30-36页

作者： MOTHERWAY, D.L. HELLER, S.R. D. L. Motherway received his Bachelor of Science Degree in Mechanical Engineering from the University of Rhode Island in June 1961. He was subsequently employed at General Dynamics/Electric Boat Division Groton Connecticut where he held positions in their Planning Department as a planning engineer for FBM Submarine Construction and in the Mechanical Division as a design engineer. Motherway went to the Naval Ship Engineering Center Washington D. C. in March of 1966 with the Submarine Hydraulics Section of the Hull Design Branch where he participated in the design of submarine hydraulic systems. He later transferred to the Ocean Engineering Section of the Deck Systems Branch where he participated in design related to deep submergence vehicles and ocean salvage and retrieval systems. During this period at NavSEC he received his Master Science Degree in Mechanical Engineering from the Catholic University of America Washington D. C. From April 1970 to May 1971 he was with the Undersea Long-Range Missile System (ULMS) Submarine Design Development Office in the capacity of Assistant Subsystem Design Director. Currently he is the Senior Project Engineer for the ULMS program at the office of the Supervisor of Shipbuilding Conversion and Repair Groton Connecticut. He is a member of ASNE and ASE. S. R. Heller Jr. a retired Engineering Duty Officer of the United States Navy received his undergraduate education at the University of Michigan in Naval Architecture and Marine Engineering and in Mathematics. Following typical shipyard duty during World War II he received postgraduate instruction at the Massachusetts Institute of Technology leading to the degrees of Naval Engineer and Doctor of Science in Naval Architecture. Since then he has had design responsibilities in the Bureau of Ships had a maintenance assignment with the Fleet directed structural research at the David Taylor Model Basin engaged in submarine design and construction at Portsmouth Naval Shipyard and was the last Head of Hull Design in the

The comparative heaving characteristics of two unusual ship configurations, a spar‐type ship similar to FLIP and a catamaran which employs a submerged cradle suspended by sophisticated motion attenuation devices, for recovery of small submersibles are presented. The two ships are described and their heaving characteristics are determined analytically using classical vibration theory. © 1971 American Society of Naval Engineers

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