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...
Device representations, via multitape AFA (abstract families of acceptors), are given for the families of languages which result from applying the wedge (A) m)d the substitution operations to AFL (abstract families of...
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The papers in this volume give the reader focused information on the important extractive metallurgy unit operations of drying, roasting, and calcining
ISBN:
(数字)9783319482453
ISBN:
(纸本)9783319486000
The papers in this volume give the reader focused information on the important extractive metallurgy unit operations of drying, roasting, and calcining
作者:
CALOGERO, RMCMANUS, DRobert Calogero graduated from the University of Maryland with a Bachelor of Science in Electrical Engineering in February 1965. He entered the Magnetic Defense Section of Propulsion
Power and Auxiliary Systems Division of the Naval Ship Engineering Center where he had previously served as a summer student engineering aid. In December 1968 he transferred to the Maintenance Management Branch of NAVSHIPS where he assumed responsibility as Manager of the Operational Sequencing System. Calogero is presently in the Engineering Administration Program offered at the George Washington University and is a member of the Association of Senior Engineers of the Naval Ships Systems Command. Donald McManus graduated from the Maine Maritime Academy in 1954
and received his Bachelor of Marine Science Degree Commission in the U. S. Naval Reserve and a USCG Marine Engineer's license. After graduation he sailed as a licensed engineer aboard steam and diesel powered tankers and “dry cargo” vessels engaged in worldwide commercial trade. Upon release from active duty in 1958 he was employed for the next eight and one-half years at the Sun Shipbuilding and Drydock Co. Chester Pa. in various engineering capacities. McManus came to the Naval Ship Engineering Center in December 1966 and is presently employed as a Marine Engineer in the Control Section of Machinery Arrangement and Controls Branch. He is a member of the Association of Senior Engineers of the Naval Ship Systems Command.
The many varied types of engineering plants extent in today's modern Navy requires an ever creasing range and depth of operational knowledge by engineering personnel at all levels of shipboard operations. The Engi...
The many varied types of engineering plants extent in today's modern Navy requires an ever creasing range and depth of operational knowledge by engineering personnel at all levels of shipboard operations. The engineering Operational Sequencing system (EOSS) provides each of these levels with the required information to enable the engineering plant to respond to any demands placed upon it which are within its design capability. The engineering Operational Sequencing system is a set of systematic and detailed written procedures utilizing charts, instructions and diagrams which provide the information required for the operation of a shipboard propulsion plant. The purpose of this paper will be to define and discuss the EOSS; to describe the system background, current status and future implementation plans.
作者:
SONENSHEIN, N.U. S. NAVYTHE AUTHOR: is a graduate of the United States Naval Academy
Class of 1938. His graduate work has included instruction in Naval Construction and Marine Engineering at Massachusetts Institute of Technology leading to a Master of Science degree in 1944 and the Advanced Management Program at the Harvard Graduate School of Business in 1964. As an Engineering Duty Officer he has served in various Naval commands including the Mare Island Naval Shipyard the New York Naval Shipyard and as Fleet and Force Maintenance Officer on the staffs of Commander in Chief and Commander Service Force U.S. Pacific Fleet. Within the Naval Ship System Command formerly the Bureau of Ships his duties have included Director of the Facilities Division Head of the Hull Design Branch Director of the Ship Design Division and Assistant Chief of the Bureau of Ships for Design Shipbuilding and Fleet Maintenance. He is a member of Sigma Xi ASNE and SNAME. From October 1965 to 31 July 1967 he served as Project Manager Fast Deployment Logistic Ship Project. As of 1 August 1967 he has assumed the duties of Deputy Chief of Naval Material for Logistic Support.
作者:
WILSON, TBUSN (RET)COMMANDER T. B. WILSON
JR. USN (RET) served as an enlisted man aboard USS SPROSTON (DD 577) and other Destroyer Forces Atlantic Fleet ships prior to his entrance into the U.S. Naval Academy in 1944. After graduating in 1948 he served on PHIBPAC ships until 1951 when he entered Webb Institute of Naval Architecture. He graduated from Webb with a Bachelor of Science Degree in Marine Engineering and a Master of Science Degree in Naval Architecture in 1953. He has served as Planning and Design Officer for the Supervisor of Shipbuilding in Jacksonville Florida was Assistant Material Officer on the Staff
Commander Mine Forces U.S. Pacific Fleet and as Docking Officer and Ship Superintendent Long Beach Naval Shipyard. He then served in the Engineering Department of the USS RANDOLPH (CVS 15) after which he reported to the Bureau of Ships where he worked as Aircraft Carrier Project Officer in the Contract Design Division. He was Industrial Officer at the David Taylor Model Basin prior to assuming duties as Fleet Maintenance Officer Staff Commander in Chief U.S. Naval Forces Europe. Prior to retiring on 1 January 1969 he served as Repair Officer U.S. Naval Support Activity Saigon. Since retirement he has been Manager of System Engineering and Senior Member of the Technical Staff for the LHA Program at Litton's Advanced Marine Technology Group and is currently Manager Engineering Design with HARCO Engineering the design division of Harbor Boat Building Company Terminal Island California.
作者:
KINNEY, ETCONSTANT, AEdward T. Kinney
a native of Grand Rapids Michigan earned his Bachelor of Science degree with honors in Civil Engineering from Michigan State University in 1952. He began his career with the Bureau of Ships as a Naval Architect in the Hull Design Training Program in September 1952. Kinney has served as a Project Coordinator in the Machinery Systems Division and is currently Head of the Environmental Pollution Control Branch at the Naval Ship Engineering Center. He is a member of several committees including the Department of Defense Environmental Pollution Control Committee and the Interagency Committee on Vessel Pollution Standards. Alexander Constant graduated from Pennsylvania Military College in June 1960 with a B.S. in Civil Engineering. After two years with the U.S. Forest Services working as a Civil Sanitary Engineer designing recreational facilities
Constant joined the Vermont Water Resources Department as a Project Engineer. For the past five years he has been associated with the Naval Ship Engineering Center Piping System Branch responsible for design and development of systems and equipment to abate and control shipboard generated waste. He is presently Acting Head of the Sewage and Waste Water Section of the Environmental Pollution Control Branch NavSec.
The Navy, as well as other Federal Agencies and the private sector, has a clear mandate to stop polluting the environment, Various sources of environmental pollution caused by the operation of naval ships are discusse...
The Navy, as well as other Federal Agencies and the private sector, has a clear mandate to stop polluting the environment, Various sources of environmental pollution caused by the operation of naval ships are discussed and characterized by the following general categories: Sewage; Oil; Industrial; Combustion Products; and Other Mission Related Wastes. Existing procedures for controlling these pollutants and advanced concepts for more complete control are discussed. Currently a very small percentage of ships are equipped to control environmental pollution. Complete control of ship wastes will be very costly and technically challenging. The first steps to effect control have been taken but greater strides are required.
We have investigated the crystal structures and magnetic properties of DyFe1-x Mnx O3 (x = 0-1) perovskites. The Jahn-Teller distortion characteristic to the constituent Mn3 + was explored to result in the predominanc...
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作者:
HARRAHY, DJPOWELL, RILUTZ, RTHE AUTHOR:Mr. Donald J. Harrahy has eleven years of engineering experience
of which the past six years have been specifically in reliability/maintainability engineering or related product assurance activities in a managerial capacity. After five years as an equipment engineer at Western Electric Mr. Harrahy joined Raytheon in 1962 as a reliability engineer and group head and in January 1966 was appointed Product Assurance Manager of the Nike-X programs at Raytheon's Wayland Laboratory. In February 1967 he was appointed to his present position of Manager System Reliability/Maintainability Engineering at Wayland. Mr. Harrahy has had considerable experience in applying system reliability analysis and operations research techniques to the solution of system design and design tradeoff problems. He holds B.S. and M.S. degrees from Lowell Technological Institute and Northeastern University respectively. He currently teaches a two-course series in System Reliability Engineering Techniques as a part of Northeastern University's Professional State-Of-The-Art course program for engineers in their Center for Continuing Education. A registered professional engineer in the state of Massachusetts Mr. Harrahy is the co-author of the papers “Effects of Failure on Phased Array Radar Systems” and “Inventory Control Models for Logistics Planning and Operational Readiness with Cost Constraints.” He is a member of NSPE ASME and IEEE. Mr. Harrahy is co-chairman of the Boston Section IEEE Reliability Group's Education Committee and has organized and lectured in courses on reliability and maintainability engineering sponsored by the Boston Section IEEE. Robert Ingram Powell was born in San Diego
California on 24 August 1923. He served with Naval Communications Intelligence OP-20-G during World War II and as an officer with Army Security Agency Intelligence Branch during the Korean War. Mr. Powell worked as a Chief Engineer for Industry and U. S. Government organizations for over twenty years including U. S. Army U. S. Air
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