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- {{r|Vapor-compression refrigeration}}2 KB (323 words) - 12:57, 15 March 2024
- ...eferred to as "auto-refrigeration" and is the basis of most conventional [[vapor-compression refrigeration]] systems.9 KB (1,381 words) - 08:26, 1 September 2013
- ...eferred to as "auto-refrigeration" and is the basis of most conventional [[vapor-compression refrigeration]] systems.9 KB (1,404 words) - 02:16, 27 October 2013
- ...re 4 depicts a refrigeration system with a capacity of about 100 to 1000 [[Vapor-compression refrigeration#Miscellany|tons of refrigeration]] (i.e., 352 to 3,520 kW). The system util ...oad on the electric motor by some 6 to 15% as compared to a conventional [[vapor-compression refrigeration]] system that uses a [[Flash_evaporation#Flash_evaporation of a single-comp16 KB (2,411 words) - 09:37, 6 March 2024
- * In [[refrigeration]] and [[air conditioning]] systems (see [[Vapor-compression refrigeration]]).17 KB (2,493 words) - 19:22, 17 February 2010
- ...|right|335px|Thermodynamic cycle for the [[Vapor-compression refrigeration|vapor-compression refrigeration]] process.}}21 KB (3,073 words) - 20:08, 1 September 2020
- ...[[Germany|German]] engineer [[Carl Von Linde]] built the first practical [[vapor-compression refrigeration]] system in the 1870s.24 KB (3,746 words) - 09:37, 6 March 2024
- *{{pl|Vapor-compression refrigeration}}9 KB (1,159 words) - 17:35, 14 March 2024