Cover of: Design and development of cryogenic pumping evaluation facility | Carl M. Albero Read Online
Share

Design and development of cryogenic pumping evaluation facility by Carl M. Albero

  • 817 Want to read
  • ·
  • 59 Currently reading

Published by Naval Postgraduate School in Monterey, California .
Written in English

Subjects:

  • Mechanical engineering

Book details:

Edition Notes

ContributionsNaval Postgraduate School (U.S.)
ID Numbers
Open LibraryOL25129558M

Download Design and development of cryogenic pumping evaluation facility

PDF EPUB FB2 MOBI RTF

  How to Cite. Albero, M. (), Design and Development of A Cryogenic Pumping Evaluation Facility. Naval Engineers Journal, – doi: /j Design and development of cryogenic pumping evaluation.   DEVELOPMENT OF A HIGH CAPACITY CRYOGENIC PUMP FOR SUPERCRITICAL HELIUM chi, , a Technical Institute, Kawasaki Heavy Industries LTD., Akashi, Hyogo Pref., Japan , , ra, , o, oto Japan Atomic Energy Research Institute, Naka-machi, Ibaraki Pref., Japan We have successfully developed a cryogenic circulation pump Cited by: 1. EVALUATION OF ALTERNATIVE CRYOGENIC GREEN PROPULSION SYSTEMS IN TERMS OF AVIATION INFRASTRUCTURE Cryogenic pump on a tanker 65 m for the minimum distance possible of the cryogenic facility.

Introduction to Cryogenic Engineering MONDAY From History to Modern Refrigeration Cycles (G. Perinić) TUESDAY Standard Components, Cryogenic Design (G. Perinić) WEDNESDAY Heat Transfer and Insulation (G. Vandoni) THURSDAY Safety, Information Resources (G. Perinić) FRIDAY Applications of Cryogenic Engineering (T. Niinikoski). least partly covered with a porous sorbent material. The design of a cryopump has to combine cryogenic aspects and technological vacuum consider ations in a unique manner, as the generation of low temperature itself presupposes the existence of vacuum conditions and vice versa. Thus, the cryopump is by its physical principle a high-vacuum pump. or K. Cryogenics enginnering involves the design and development of systems and components which produce, maintain, or utilize low temperatures. C. ryogenics vessels are designed for storage and transport. of liquid gases at sub-zero temperatures. Manufacturing of cryogenic tanks requires special technical and sophisticated. the responsibility for public safety which includes these facilities, among others: • Pressure piping • Pressure vessels semiconductor and cryogenic plants and related processing plants and pumping, regulating, and metering stations. B Refrigeration Piping. Piping for refrigerants and secondary coolants. B Gas.

ITER is a large vacuum facility which comprises many service, diagnostic and monitoring vacuum sub-systems as well as three large cryogenic pumping systems for evacuation and maintenance of the. Try the new Google Books. Check out the new look and enjoy easier access to your favorite features. Try it now. DEVELOPMENT OF A SIMPLE LITRE PER HOUR LNG REFUELING SYSTEM. A LIQUID HELIUM CRYOGENIC SYSTEM DESIGN FOR THE GEM MAGNET. /5(1). The pumping speed for helium is about 20% higher than that for nitrogen, but the compression ratio is much lower. Therefore if the pump is to be used to pump helium from a vacuum space it is best to use a two stage rotary pump, so that the backing pressure is as low as possible. A diffusion pump is still better at pumping helium! Through the performance test at the room and the cryogenic temperature, the pump has verified a smooth and stable operation up to the maximum revolution of 32, rpm, satisfying the design specification. At the cryogenic temperature operation, the maximum pump head of more than MPa and the maximum flow rate of g/s were observed.