电器
電器
전기
CHINA APPLIANCE
2012年
z1期
178-185
,共8页
仿真%冷柜%制冷系统%节能
倣真%冷櫃%製冷繫統%節能
방진%랭거%제랭계통%절능
Simulation%Freezer%Refrigeration system%Energy saving
家用冰箱/冷柜的系统设计过程复杂,需要综合考虑箱体漏热量、压缩机制冷量以及与蒸发器、冷凝器等的匹配,这一过程仅仅依赖经验往往难以快速、准确地达到最佳效果。计算机仿真技术近些年快速发展,已应用到许多领域,但在家用制冷器具中的应用尚刚刚开始。本文率先引入AMEsim模拟对家用冷柜制冷系统进行模拟,通过该模拟得到了系统的最佳灌注量以及能耗数据,并且与实际测得的数据一致。
傢用冰箱/冷櫃的繫統設計過程複雜,需要綜閤攷慮箱體漏熱量、壓縮機製冷量以及與蒸髮器、冷凝器等的匹配,這一過程僅僅依賴經驗往往難以快速、準確地達到最佳效果。計算機倣真技術近些年快速髮展,已應用到許多領域,但在傢用製冷器具中的應用尚剛剛開始。本文率先引入AMEsim模擬對傢用冷櫃製冷繫統進行模擬,通過該模擬得到瞭繫統的最佳灌註量以及能耗數據,併且與實際測得的數據一緻。
가용빙상/랭거적계통설계과정복잡,수요종합고필상체루열량、압축궤제랭량이급여증발기、냉응기등적필배,저일과정부부의뢰경험왕왕난이쾌속、준학지체도최가효과。계산궤방진기술근사년쾌속발전,이응용도허다영역,단재가용제랭기구중적응용상강강개시。본문솔선인입AMEsim모의대가용랭거제랭계통진행모의,통과해모의득도료계통적최가관주량이급능모수거,병차여실제측득적수거일치。
The process of designing a household freezer-refrigerator system is very complex, it needs total consideration of chest heat flux, cooling capacity of the compressor, and size of the evaporator/condenser. U-sually, it is hard for one to achieve optimized effectiveness on its own experiences. Computer simulation has been developed for several years, but seldom been used in household refrigeration system. This paper intro-duces AMEsim simulation into household freezer system for the first time. With the help of AMEsim, we can get the best refrigerant charge, energy consumption result, which finally be proved exactly right.
