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低溫熱驅(qū)動雙級libr h2o吸收式制冷系統(tǒng)的理論分析----外文翻譯.doc

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低溫熱驅(qū)動雙級libr h2o吸收式制冷系統(tǒng)的理論分析----外文翻譯,摘要:一份詳細的理論分析,提出了兩級libr/h20吸收制冷系統(tǒng),是由一個蒸發(fā)器、低壓吸收器、低壓發(fā)生器、高壓吸收器、高壓發(fā)生器、冷凝器、低壓熱交換器和高壓熱交換器組成.是通過低溫熱源驅(qū)動的. 由理論分析和初步實驗比較結(jié)論表明,發(fā)展理論分析體系可以合理準確地描述一個實際系統(tǒng),并且今后的有廣闊的發(fā)展前途。關(guān)鍵字:吸收;溴...
編號:10-272009大小:301.50K
分類: 論文

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此文檔由會員 wanli1988go 發(fā)布

摘要:一份詳細的理論分析,提出了兩級libr/h20吸收制冷系統(tǒng),是由一個蒸發(fā)器、低壓吸收器、低壓發(fā)生器、高壓吸收器、高壓發(fā)生器、冷凝器、低壓熱交換器和高壓熱交換器組成.是通過低溫熱源驅(qū)動的. 由理論分析和初步實驗比較結(jié)論表明,發(fā)展理論分析體系可以合理準確地描述一個實際系統(tǒng),并且今后的有廣闊的發(fā)展前途。
關(guān)鍵字:吸收;溴化鋰--水溶液;雙級
文獻著作上的吸收式制冷系統(tǒng)是由低品位的能量驅(qū)動的,例如:太陽能,工業(yè)廢熱.圖1-5說明這些系統(tǒng)按照不同的工質(zhì)一般分為兩種類型:吸收式制冷系統(tǒng),利用水和溴化鋰工質(zhì)對,氨水工質(zhì)對,水-氯化鋰工質(zhì)對;吸附系統(tǒng),使用氯化物和氨吸附劑,水-硅膠,水合物,活性炭-甲醇.但是,只有吸收式制冷系統(tǒng)利用水合溴化物作為工質(zhì)對得以成功運作并已投入商業(yè)使用中。
單級溴化鋰吸收式制冷系統(tǒng)通常是由一個蒸發(fā)器,一個吸收器,一個發(fā)生器,一個冷凝器和一個熱交換器組成.這個系統(tǒng)的運作中,水作為制冷劑,溴化鋰作為吸收劑,并且熱源要求至少要在攝氏86度以上,為了達到一個合理的制冷系數(shù)(COP)。然而,存在大量小于86攝氏度的低溫熱源,例如:工業(yè)廢熱,太陽能和地熱.如果這些低溫熱源能被利用或再利用,它不但可以提高能源系統(tǒng)的整體效率,而且還可以減少對環(huán)境的熱污染。
雙級溴化鋰制冷系統(tǒng),以水作為制冷劑,溴化鋰作為吸附劑,然而它的運行要求75到86攝氏度的熱源即可并且它的制冷系數(shù)(COP)在0.38以上,這樣的系統(tǒng)可以達到當冷凝水是


Abstract: A detailed theoretical analysis is presented for a two-stage LiBr/H20 absorption refrigeration system, which consists of an evaporator, a low-pressure absorber, a low-pressure generator, a high-pressure absorber, a high-pressure generator, a condenser, a low-pressure heat exchanger and a high-pressure heat exchanger, driven by a low-temperature hot source. A comparison of results from the theoretical analysis and preliminary experiment indicates that the theoretical analysis developed can represent a real system with a reasonable accuracy, and is useful for future development.
Keywords: absorption; water-lithium ;bromide;two-stage
Literature on absorption refrigeration systems driven by a low-grade energy source such as solar energy or waste heat in industries has been presented 1-5. These systems can in general be classified into two types according to the different working fluids: absorption refrigeration systems, using water-lithium bromide (LiBr/H20), water-ammonia (H20/NH3), water-lithium chloride (LiCI/H20); and adsorption systems, using ammonia calcium chloride (CaCI2/NH3), water-silica-gel, water zealot, activated charcoal-methanol (CH3OH). However, only absorption refrigeration systems using water lithium bromide as working fluid have been operated successfully and have found commercial applications.

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