FengChao, XuZhiqiang, JiangXimei, WangJianfu. Research on the potential of low temperature waste-heat heating resources based on multi-factor constraints[J]. Journal of Mining Science and Technology, 2020, 5(1): 108-114.
Citation:
FengChao, XuZhiqiang, JiangXimei, WangJianfu. Research on the potential of low temperature waste-heat heating resources based on multi-factor constraints[J]. Journal of Mining Science and Technology, 2020, 5(1): 108-114.
FengChao, XuZhiqiang, JiangXimei, WangJianfu. Research on the potential of low temperature waste-heat heating resources based on multi-factor constraints[J]. Journal of Mining Science and Technology, 2020, 5(1): 108-114.
Citation:
FengChao, XuZhiqiang, JiangXimei, WangJianfu. Research on the potential of low temperature waste-heat heating resources based on multi-factor constraints[J]. Journal of Mining Science and Technology, 2020, 5(1): 108-114.
Lowtemperaturewaste-heatheatingisanimportanttechnologyforcleanheating.Buttheresourcepotentialoflowtemperaturewaste-heatusedforheatingwillbeaffectedbytime,space,temperature,industrial development and other factors.Therefore,the resource potential of low temperature waste-heatforlong-term,effective&stableheatingshouldbestudied.Inthisstudy,theresourcepotentialoflowtemperaturewaste-heatforheatingwasstudiedbythescenarioanalysismethodandtheresultsshowthat,thelowtemperaturewaste-heatresourcesavailableforheatinginthenorthernregionare about62.262milliontce,andtheheatingareaisabout8.12 billionsquare metersin2017.Among them,thelowtemperaturewaste-heatresourcesabove80℃ accountfor25.2%.Inthefuture,thelow temperaturewaste-heatresourcesavailableforheatingwillbe68.98milliontce,andtheheatingareais about12.14billionsquaremetersin2020.Thelowtemperaturewaste-heatresourcesavailableforheat ingwillbe66.487milliontce,andtheheatingareaisabout11.7billionsquaremetersin2030.
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