科技通报
科技通報
과기통보
BULLETIN OF SCIENCE AND TECHNOLOGY
2015年
5期
163-166
,共4页
化学吸附%制冷%仿真%动态性能
化學吸附%製冷%倣真%動態性能
화학흡부%제랭%방진%동태성능
chemical adsorption%refrigeration%simulation%dynamic performance
在分析基本吸附制冷循环的基础上,建立了吸附制冷热力过程中的计算表达式。采用Matlab/Simulink模拟手段对氯化钙-氨制冷工况对制冷性能的影响进行了热力计算及分析。本文研究了不同解吸终了温度、蒸发温度、冷凝温度、吸附终了温度对系统COP的影响。经过分析发现,解吸终了温度在90℃附近时系统COP达到最大值,提高蒸发温度,降低冷凝温度和吸附终了温度有利于系统COP的提高。
在分析基本吸附製冷循環的基礎上,建立瞭吸附製冷熱力過程中的計算錶達式。採用Matlab/Simulink模擬手段對氯化鈣-氨製冷工況對製冷性能的影響進行瞭熱力計算及分析。本文研究瞭不同解吸終瞭溫度、蒸髮溫度、冷凝溫度、吸附終瞭溫度對繫統COP的影響。經過分析髮現,解吸終瞭溫度在90℃附近時繫統COP達到最大值,提高蒸髮溫度,降低冷凝溫度和吸附終瞭溫度有利于繫統COP的提高。
재분석기본흡부제랭순배적기출상,건립료흡부제랭열력과정중적계산표체식。채용Matlab/Simulink모의수단대록화개-안제랭공황대제랭성능적영향진행료열력계산급분석。본문연구료불동해흡종료온도、증발온도、냉응온도、흡부종료온도대계통COP적영향。경과분석발현,해흡종료온도재90℃부근시계통COP체도최대치,제고증발온도,강저냉응온도화흡부종료온도유리우계통COP적제고。
Based on the analysis of the basic adsorption refrigeration cycle, the heat energy equation in the process of adsorption refrigeration is listed. The model of the CaCl2-NH3 refrigeration condition is based on the Matlab, which is calculated and analyzed for the influence of the cooling performance. In this text, it affects the COP of the system, at different desorption temperatures, evaporating temperatures, condensing temperatures, adsorption temperatures. Discover that the COP of the system, will have a maximum value when the desorption temperature around 90℃,and will be greater when raising the evaporation temperature, lower the condensation temperature and adsorption temperature.