Low-Loss Storage and Handling of Cryogenic Liquids (2nd Ed., 2nd ed. 2019) The Application of Cryogenic Fluid Dynamics International Cryogenics Monograph Series
Auteurs : Bostock Thomas D., Scurlock Ralph G.
1. Introduction.- 2 Evaporation of cryogenic liquids.- 3 Heat flows into a cryogenic storage system: overall picture.- 4 Insulation: the reduction of 'A' and 'B' heat in-flows.- 5 Multi-component liquids.- 6 The handling and transfer of cryogenic liquids.- 7 Design: some comments on the design of low-loss storage vessels, containers and tanks.- 8 Safe handling and storage of cyrogenic liquids.- Index.
Ralph Scurlock is Emeritus Professor of Cryogenic Engineering, and formerly Director of the Institute of Cryogenics, University of Southampton, UK. In 1999, Ralph Scurlock was selected by the CEC for the Samuel C. Collins Award for his work on cryogenic technology. He was the first person from outside the USA to be awarded this prestigious prize. He is the author of many papers and several books including "Low Temperature Behaviour of Solids", 1965, "History and Origins of Cryogenics",1994, and "Low Loss Dewars and Tanks", 2004.
Thom Bostock is a consulting engineer with Rifi at the University of Southampton, and has over ten years of experience in commercial testing and consultancy, specialising in bespoke testing, manufacture and development of custom test rigs and machines; particularly for thermal and mechanical testing. Since joining RIfI in 2008 Thom has completed over 100 consultancy projects characterising a diverse range of materials including; cellular solids, composites, polymers, metals and engineered woods. Thom is an expert in mechanical measurements at low temperatures. Previous work including testing metallic and polymer tapes under liquid helium, cellular solids under liquid nitrogen, and a vast range of materials in cold gas environments.
Date de parution : 07-2019
Ouvrage de 170 p.
15.5x23.5 cm
Thème de Low-Loss Storage and Handling of Cryogenic Liquids :
Mots-clés :
Cyrogenic liquid storage and transportation; Evaporation of cryogenic liquids; Heat flow in cryogenic storage systems; Insulation for cryogenic systems; Multi-component cryogenic liquids; Rollover and stratification of cryogenic liquids; Cooldown of cryogenic systems; Cryostat design; Low-loss cryogenic systems; Boil-off rate