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基于太阳能的低温蓄热型空气源热泵系统的分析与研究 被引量:2

Analysis and Research of Low Temperature Regenerative Air Source Heat Pump System Based on Solar Energy
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摘要 本文通过对空气源热泵系统进行介绍以及应用分析,说明了空气源热泵系统的特点,指出了空气源热泵系统具有能源消耗低,能源利用率高,对环境友好,应用范围广的特点;同时说明了当前系统易受使用环境的影响,易于结霜等局限性.通过将太阳能系统与低温蓄热型空气源热泵系统进行耦合研究,发现新的系统可以兼顾二者优点,使得系统在良好运行的同时提升整个系统的效率,太阳能的引入提高了热泵系统的COP值,有利于扩展低温蓄热型空气源热泵系统应用范围. Through the introduction and application analysis of air source heat pump system, this paper illustrates the characteristics of air source heat pump system, points out that air source heat pump system has the characteristics of low energy consumption, high energy utilization rate, environmental friendliness and wide application range, and illustrates that the current system is vulnerable to the impact of the use environment. At the same time, it illustrates the limitations of the current system, such as easy to be affected by the use environment and easy to frost. Through the coupling study of solar energy system and low temperature regenerative air source heat pump system, it is found that the new system can take both advantages into account, so that the system can improve the ef ficiency of the whole system while running well. The introduction of solar energy improves the COP value of the heat pump system and is conducive to expanding the application scope of low temperature regenerative air source heat pump system.
作者 张国政 Zhang Guozheng(Senyuan Energy Conservation and Environmental Protection Co.,Ltd.,Shanxi Coking Coal Group,Shanxi,030000)
机构地区 山西焦煤集团森源节能环保有限公司
出处 《当代化工研究》 2019年第14期29-30,共2页 Modern Chemical Research
关键词 空气源热泵系统 耦合研究 应用范围 air source heat pump system coupling research application scope
分类号 T [一般工业技术]
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参考文献4

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  • 1李舒宏,武文彬,张小松,殷勇高.太阳能热泵热水装置试验研究与应用分析[J].东南大学学报(自然科学版),2005,35(1):82-85. 被引量:42
  • 2范存养,龙惟定.空气热源热泵的应用与展望[J].暖通空调,1994,24(6):20-24. 被引量:34
  • 3Chaturvedi SK, Chert DT, Kheireddine A. Thermal performance of a variable capacity direct expansion solar-assisted heat pump [ J ]. Energy Conversion and Management, 1998,39(3 ~ 4) : 181 - 191. 被引量:1
  • 4Aziz W, Chaturvedi SK, Kheireddine A. Thermodynamic analysis of two-component, two-phase flow in solar collectors with application to a direct-expansion solar-assisted heat pump [ J ]. Energy, 1999,24 ( 3 ) : 247 -259. 被引量:1
  • 5Hawlader MNA, Chou SK, Ullah MZ. The performance of a solar assisted heat pump water heating system [ J ]. Applied Thermal Engineering, 2001,21(10) : 1049 - 1065. 被引量:1
  • 6Kuang YH, Sumathy, K, Wang RZ. Study on a direct-expansion solar-assisted heat pump water heating system [ J ]. International Journal of Energy Research,2003,27(5) :531 - 548. 被引量:1
  • 7Chyng JP, Lee CP, Huang BJ. Performance analysis of a solar-assisted heat pump water heater[ J]. Solar Energy, 2003,74( 1 ) : 33 - 44. 被引量:1
  • 8清华大学建筑节能研究中心.中国建筑节能年度发展研究报告2009[M].北京:中国建筑工业出版社,2009. 被引量:30
  • 9Bo Nordel, Goran Hellstrom High temperature solar heated seasonal storage system for low temperature heating of building[J]. Solar Energy,2000,69:511-523. 被引量:1
  • 10Schmidt T, Mangold D, Miiller-Steinhagen H. Central solar heating plants with seasonal storage in Germany[J]. Solar Energy, 2004,76:165-174. 被引量:1

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当代化工研究
2019年 第14期

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