垂直埋管地源热泵空调系统碳排放评估  被引量:2

Assessment on carbon emission of vertical buried pipe ground source heat pump air-conditioning system

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作  者:韩靖 李振文 张俊红 屈月月 王弘哲 Han Jing;Li Zhenwen;Zhang Junhong;Qu Yueyue;Wang Hongzhe(SIPPR Engineering Group Co.,Ltd.;SINOMACH Zhongxing Engineering Consulting Co.,Ltd.)

机构地区:[1]机械工业第六设计研究院有限公司 [2]国机中兴工程咨询有限公司

出  处:《制冷与空调》2022年第3期98-102,共5页Refrigeration and Air-Conditioning

基  金:机械工业第六设计界研究院有限公司课题“碳排放约束下浅层地能在建筑供暖、空调中应用优化研究”(RD2021000005)。

摘  要:建立垂直埋管地源热泵空调系统碳排放计算方法,计算某工程生命周期内空调系统的碳排放。结果表明:风管、水管、地埋管占生产阶段碳排放比重分别为43.13%、32.38%、7.99%;钻孔施工占地埋管施工阶段碳排放的比重为87.06%;生产、运输、施工、运行阶段占空调系统生命周期(20年)碳排放的比重分别为3.41%、0.02%、1.61%、94.96%;空调系统生命周期碳排放随着生命周期增长而增加,但生命周期内年均碳排放前5年有一定程度降低,5年后基本趋于平缓。The calculation method on carbon emission of vertical buried pipe ground source heat pump air conditioning system is established to calculate the life-cycle carbon emission on air conditioning system of a project. The results show that air pipe, water pipe and buried pipe accounted for 43.13%, 32.38% and 7.99% of carbon emissions in production stage respectively. The proportion of drilling carbon emission in the construction stage of buried pipe is 87.06%.Production, transportation, construction and operation stages account for 3.41%, 0.02%, 1.61% and 94.96% of the life-cycle(20 years) carbon emission of air conditioning system, respectively. With the increase of life-cycle, the life-cycle carbon emission of air conditioning system increases significantly, but the annual average life-cycle carbon emission decreases slightly in the first 5 years, and basically tends to be flat after 5 years.

关 键 词:垂直埋管地源热泵 碳排放 生命周期 

分 类 号:F42[经济管理—产业经济]

 

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