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- Cryogenics | Journal | ScienceDirect. com by Elsevier
• Fluid properties • New applications of cryogenic technology to processes, devices, machinery • Refrigeration and liquefaction technology • Thermodynamics, heat transfer, and fluid mechanics • Thermometry and measurement science • Cryogenics in medicine • Cryoelectronics
- Cryogenics - an overview | ScienceDirect Topics
Cryogenic nitrogen rejection technology, which is the most common method of removing nitrogen from natural gas, uses the difference of boiling points between nitrogen and methane for separation
- The future is frozen: cryogenic CMOS for high-performance computing
Cryogenic environments pose unique thermal management challenges Managing heat dissipation becomes crucial, as the temperature difference between the cryogenic environment and the circuit itself can lead to temperature gradients, affecting device performance and reliability
- Review on design and development of cryogenic machining setups for heat . . .
Cryogenic and hybrid machining techniques must be encouraged because of their importance to sustainable manufacturing, and companies need to endeavour efforts towards developing industrial cryogenic and hybrid machining systems at affordable prices
- Cryogenic Heat Transfer - ScienceDirect
CRYOGENIC HEATTRANSFER 419 represents a condition where, because of the interfacial stability of an overriding dense phase (for horizontal upward-facing surfaces, at Ieast), the interface is disrupted and the surface is no longer in contact with vapor alone, but in contact with liquid as well
- Cryogenic Liquid - an overview | ScienceDirect Topics
In cryogenic systems, high pressures are obtained by gas compression during refrigeration, by pumping of liquids to high pressures followed by rapid evaporation, and by confinement of cryogenic fluids with subsequent evaporation
- Progress in research on composite cryogenic propellant tank for large . . .
This review discusses the progress in research on composite cryogenic tanks and identifies the technical difficulties encountered in manufacturing these components, including liquid oxygen compatibility and cryogenic mechanical properties and antileakage properties
- A review of cavitation problems of cryogenic fluids in gathering . . .
With the increasing understanding of cavitation phenomena, the cavitation mechanism of non-cryogenic fluids has been more thoroughly studied In contrast, there is a relative lack of research on cavitation in cryogenic liquids
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