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Evaporation-Condensing Pump for Providing of Working Fluid Circulation in Two-Phase Heat Transferring System Moscow Power Engineering Institute

SAE Technical Papers (1906-current) Available online

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Format:
Conference/Event
Author/Creator:
Borodkin, A. A., author.
Conference Name:
International Conference on Environmental Systems (1995-07-10 : San Diego, California, United States)
Language:
English
Physical Description:
1 online resource
Place of Publication:
Warrendale, PA SAE International 1995
Summary:
One of relatively modern directions of two-phase technology in Russia is the development of thermoautofluctuating two-phase heat transferring devices (TTHD ).It is very complicated to classify these devices because of great amount of its constructive variations. However, it is possible to notice, that all TTHD differ from other two-phase heat transferring devices (such, as heat pipes, thermo-syphons, CPL and et cetera) by following: circulation of working fluid in TTHD happens periodically. In separate elements of TTHD the liquid, at first, is serially accumulated and then it is spended, and this process is periodically repeated.In some cases the element, in which there are excited the thermoautofluctuations, can functionally execute the role of usual pump providing circulation of liquid working fluid. At the same time thermoautofluctuations are supported by means of usual small-power heater (for example, electrical). These thermoautofluctuations mean the alternating processes of evaporation and condensation.In present article the main attention is paied to that part of TTHD technology development in which the thermoautofluctuating principle of pump of liquid can be combined with conventional principles of the construction of two-phase heat transferring systems (for example, in two-phase devices with separate channels for vapor and liquid transportaion).The schematic design and operation principle of Evaporating-Condensing Pumps (ECPs) which can be considered as some type of TTHD, are discussed in this paper. Such pumps in some cases can compete with capillary and electromechanical pumps, used in two-phase heat transferring systems of various application
Notes:
Vendor supplied data
Publisher Number:
951508
Access Restriction:
Restricted for use by site license

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