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季节性天气条件与焓能回收换热器空调系统能耗和CO2排放的关系

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季节性天气条件与焓能回收换热器空调系统能耗和CO2排放的关系(中文3200字,英文2100字)
提要
已经进行了与纸基焓能回收通气机相结合的空调的季节能量消耗和随后的二氧化碳气体排放分析。然后将结果与常规的空调系统进行比较,其在冷却和补给之前将室外新鲜空气与室内空气混合。焓热交换器和空气混合系统在空调系统中的影响使用修改的HPRate软件代码进行建模。不同天气条件下的季节能量分析表明,夏季焓能回收系统优越。对于300平方米的办公空间,只要使用膜焓热交换器代替常规的空气混合和调节系统,可以实现节能高达1.4GJ的能源消耗和900kg的二氧化碳气体排放量的每年减少。
关键字:焓换热器,能量回收、CO2排放量、 常规暖通空调系统、 膜换热器。

Seasonal Weather Conditions Effect on Energy Consumption and CO2 Emission for Air Conditioning Systems Coupled with Enthalpy Energy Recovery Heat Exchanger
Abstract
Seasonal energy consumption and subsequent CO2 gas emission analysis of an air conditioner coupled with paper based enthalpy energy recovery ventilator has been performed. Results were then compared with a conventional air conditioning system which mixes outdoor fresh air with room return air before cooling and resupplying. Effects of the enthalpy heat exchanger and air mixing system within the air conditioning system were modeled using a modified HPRate software code. Seasonal energy analysis for different weather conditions has shown that enthalpy energy recovery system is  superior in the summer season. For a 300m2 office space, a seasonal saving of up to 1.4GJ in energy consumption and 900kg annual reduction of CO2 gas emission could be achieved provided that the membrane enthalpy heat exchanger is utilized instead of a conventional air mixing and conditioning system.

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