西北严寒半干旱地区太阳能地源热泵系统优化配比研究

作者：张宏葛李永福金光郝楠房丽硕张慧军

单位：建筑安全与环境国家重点实验室中建研科技股份有限公司西宁市建筑科技与节能中心内蒙古科技大学北京构力科技有限公司雄安雄创数字技术有限公司中筑创联建筑科技北京)有限公司

摘要：通过对西北严寒半干旱地区太阳能-地源热泵系统的优化配比进行研究，达到提高系统性能的目的。以包头市居住建筑为模型，对3种不同太阳能与地源热泵联合运行的模式进行仿真，结果表明，集热器侧一部分接入地埋管出口端、另一部分接入热泵机组出口端的模式性能最优，系统运行20 a后的COP从5.48减小至4.99,降低了9%。提出了负荷比和循环流体的分流比，当集热器侧承担总热负荷的40%左右时，COP最高，较最优模式下的COP(5.48)提高了1.45%。集热器侧分流比为0.6时，较优化前的平均COP提高了6.8%。

关键词：太阳能-地源热泵TRNSYS集热器负荷COP运行模式配置优化

作者简介：张宏葛，女，1995年生，硕士研究生，工程师100020北京市朝阳区北三环东路30号中建研科技股份有限公司低碳建筑研究中心，E-mail:annzhg@163.com;
基金：内蒙古自治区科技创新引导奖励资金项目(编号：2017CXYD-1);内蒙古自然科学基金项目(编号：2016BS0512、2015MS0561);内蒙古科技大学创新基金优青项目(编号：2017YQL07);

尊敬的用户，本篇文章需要2元，点击支付交费后阅读

限时优惠福利：领取VIP会员
全年期刊、VIP视频免费!

参考文献[1] 滕云，张铁岩，陈哲.多能源互联系统优化运行与控制技术研究现状与前景展望[J].可再生能源，2018(3):13- 19.

[2] RAD F M,FUNG A S,LEONG W H.Feasibility of combined solar thermal and ground source heat pump systems in cold climate,Canada[J].Energy and buildings,2013,61(3):224- 232.

[3] RAD F M,FUNG A S,ROSEN M A.An integrated model for designing a solar community heating system with borehole thermal storage[J].Energy for sustainable development,2017,36:6- 15.

[4] WEERATUNGE H,NARSILIO G,HOOG J D,et al.Model predictive control for a solar assisted ground source heat pump system[J].Energy,2018,152:974- 984.

[5] 李新国，胡晓辰，王健.太阳能、蓄热与地源热泵组系统能量分析与实验[J].太阳能学报，2012,33(4):640- 646.

[6] LIU L,ZHU N,ZHAO J.Thermal equilibrium research of solar seasonal storage system coupling with ground-source heat pump[J].Energy,2016,99:83- 90.

[7] ZHOU S,CUI W,LI Z,et al.Feasibility study on two schemes for alleviating the underground heat accumulation of the ground source heat pump[J].Sustainable cities and society,2016,24:1- 9.

[8] 徐伟.中国地源热泵发展研究报告[M].北京：中国建筑工业出版社，2013:25- 27.

[9] 内蒙古自治区城镇供热实施条例[EB/OL].[2021-06-21].http://m.law-lib.com/law/law_view.asp?id=408604&page=5.

[10] 郑瑞澄.太阳能供热供暖工程应用技术手册[M].北京：中国建筑工业出版社，2012:35- 36.

[11] SAKONIDOU E P,KARAPANTSIONS T D,BALOUKTSIS A I,et al.Modeling of the optimum tilt of a solar chimney for maximun air flow[J].Solar energy,2008,82(1):80- 94.

Research on optimal ratio of solar-ground source heat pump system in severe cold and semi-arid region of Northwest China

Zhang Hongge Li Yongfu Jin Guang Hao Nan Fang Lishuo Zhang Huijun

(State Key Laboratory of Building Safety and Environment China Construction Research Technology Co., Ltd. Xining Building Technology and Energy Conservation Center Inner Mongolia University of Science and Technology Beijing Constructor Technology Co., Ltd. Xiongan Xiongchuang Digital Technology Co., Ltd. China Construction Innovation Technology (Beijing) Co., Ltd.)

Abstract: By studying the optimal ratio of solar-ground source heat pump(SGSHP) systems in the severe cold and semi-arid region of Northwest China, the goal of improving the system performance is achieved. Taking the residential buildings in Baotou as the model, three different modes of the combined operation of solar and ground-source heat pumps are simulated. The results show that the performance of the mode in which one part of the collector side is connected to the outlet end of the buried pipe and the other part is connected to the outlet end of the heat pump unit is the best. The COP of the system after 20 years of operation has decreased from 5.48 to 4.99, which decreases by 9%. The load ratio and the split ratio of the circulating fluid are proposed. When the collector side takes about 40% of the total heat load, the COP is the highest, which increases by 1.45% compared with the COP of 5.48 under the optimal mode. When the split ratio on the collector side is 0.6, the average COP before optimization is increased by 6.8%.

Keywords: solar-ground source heat pump; TRNSYS; collector; load; COP; operating mode; collocation optimization;

783 0 0