为解决中深层地源热泵系统(GSHP)地温衰减的问题,以邯郸市某民用节能建筑为研究对象,基于TRNSYS建立一种PV/T耦合中深层地源热泵系统(PV/T-GSHP),并与GSHP系统对比,模拟分析运行20 a PV/T-GSHP系统运行特性。探究PV/T组件的相关参数对...为解决中深层地源热泵系统(GSHP)地温衰减的问题,以邯郸市某民用节能建筑为研究对象,基于TRNSYS建立一种PV/T耦合中深层地源热泵系统(PV/T-GSHP),并与GSHP系统对比,模拟分析运行20 a PV/T-GSHP系统运行特性。探究PV/T组件的相关参数对土壤平均温度的影响。最后,将PV/T-GSHP系统与其他系统进行能耗对比。研究结果表明:与GSHP系统相比,PV/T-GSHP系统机组COP从6.44提高到6.81,但由于增加了泵功,系统COP降到2.38,但考虑发电量,平均每年可获得10015.831元收益;相似结构建筑PV/T组件屋顶铺设占比越大,集热泵流量越小,土壤平均温升越快;不考虑发电量时,PV/T-GSHP系统比燃气锅炉系统能耗高8.46%,与燃煤锅炉和电锅炉系统相比,分别可节约11.04%和48.55%的能耗;综合发电量时,20 a实际获得的发电量收益折合成燃煤量为210.05 t。展开更多
Research into the characteristics of geothermal fields is important for the control of heat damage in mines. Based on measured geothermal data of boreholes from 200 m to 1200 m in a Jiahe Coal Mine, we demonstrate non...Research into the characteristics of geothermal fields is important for the control of heat damage in mines. Based on measured geothermal data of boreholes from 200 m to 1200 m in a Jiahe Coal Mine, we demonstrate non-linear but increasing relations of both geo-temperatures and geothermal gradients with increases depth. Numerically, we fitted the relationship between geo-temperatures and depth, a first-order exponential decay curve, formulated as: T(h) = 4.975 + 23.08 exp(h/1736.1).展开更多
文摘为解决中深层地源热泵系统(GSHP)地温衰减的问题,以邯郸市某民用节能建筑为研究对象,基于TRNSYS建立一种PV/T耦合中深层地源热泵系统(PV/T-GSHP),并与GSHP系统对比,模拟分析运行20 a PV/T-GSHP系统运行特性。探究PV/T组件的相关参数对土壤平均温度的影响。最后,将PV/T-GSHP系统与其他系统进行能耗对比。研究结果表明:与GSHP系统相比,PV/T-GSHP系统机组COP从6.44提高到6.81,但由于增加了泵功,系统COP降到2.38,但考虑发电量,平均每年可获得10015.831元收益;相似结构建筑PV/T组件屋顶铺设占比越大,集热泵流量越小,土壤平均温升越快;不考虑发电量时,PV/T-GSHP系统比燃气锅炉系统能耗高8.46%,与燃煤锅炉和电锅炉系统相比,分别可节约11.04%和48.55%的能耗;综合发电量时,20 a实际获得的发电量收益折合成燃煤量为210.05 t。
基金Financial support for this project,provided by the National Basic Research Program of China (No.2006CB202200)the Key Project of National Natural Science Foundation of China+1 种基金the Program for Changjiang Scholars,Innovative Research Team in University of China (No.IRT0656)the Fundamental Research Funds for the Central Universities (No.2010QL04)
文摘Research into the characteristics of geothermal fields is important for the control of heat damage in mines. Based on measured geothermal data of boreholes from 200 m to 1200 m in a Jiahe Coal Mine, we demonstrate non-linear but increasing relations of both geo-temperatures and geothermal gradients with increases depth. Numerically, we fitted the relationship between geo-temperatures and depth, a first-order exponential decay curve, formulated as: T(h) = 4.975 + 23.08 exp(h/1736.1).
