化工学报 ›› 2020, Vol. 71 ›› Issue (S1): 368-374.DOI: 10.11949/0438-1157.20191150
收稿日期:
2019-10-09
修回日期:
2019-11-06
出版日期:
2020-04-25
发布日期:
2020-04-25
通讯作者:
全贞花
作者简介:
杜伯尧(1996—),男,硕士研究生,基金资助:
Boyao DU(),Zhenhua QUAN(),Longshu HOU,Yaohua ZHAO,Haibo REN
Received:
2019-10-09
Revised:
2019-11-06
Online:
2020-04-25
Published:
2020-04-25
Contact:
Zhenhua QUAN
摘要:
以平板热管(微热管阵列)为核心部件,设计了一种新型太阳能光伏/空气集热蒸发器并建立了光伏直膨式太阳能/空气能多能互补热泵系统,实现全年供热水、冬季供热、夏季供冷以及全年光伏发电的功能。对北京地区3月至5月天气条件下的热泵系统性能进行不同运行模式(S、SA以及A模式)的实验研究。实验结果表明,在典型工况下S、SA与A模式的多能互补系统COPs分别为4.8、4.2与3.8,综合效率分别为109.7%、125.9%、32.4%,即在有太阳辐照的条件下,S与SA模式下多能互补系统性能优于A模式。该新型光伏直膨式太阳能/空气能多能互补热泵系统性能优良,研究结果为该系统应用提供了基础数据支撑。
中图分类号:
杜伯尧, 全贞花, 侯隆澍, 赵耀华, 任海波. 新型光伏直膨式太阳能/空气能多能互补热泵性能[J]. 化工学报, 2020, 71(S1): 368-374.
Boyao DU, Zhenhua QUAN, Longshu HOU, Yaohua ZHAO, Haibo REN. Performance of direct-expansion photovoltaic/thermal(PV/T)-air source heat pump system[J]. CIESC Journal, 2020, 71(S1): 368-374.
运行模式 性能参数 | ηt/ (%·℃-1) | Qc/ (W·℃-1) | Q/ (W·℃-1) | COP/ ℃ |
---|---|---|---|---|
S | 0.83 | 26.7 | 16.7 | 0.077 |
SA | 1.15 | 26.7 | 20 | 0.067 |
A | 6.7 | 0.07 |
表1 三种运行模式下系统热性能随水温变化(随水温升高而减低)
Table 1 Decreasing thermal performance of system in three models with increase of water temperature
运行模式 性能参数 | ηt/ (%·℃-1) | Qc/ (W·℃-1) | Q/ (W·℃-1) | COP/ ℃ |
---|---|---|---|---|
S | 0.83 | 26.7 | 16.7 | 0.077 |
SA | 1.15 | 26.7 | 20 | 0.067 |
A | 6.7 | 0.07 |
1 | 矫洪涛, 王学生, 魏国. 太阳能热泵技术研究进展[J]. 能源技术, 2007, 28(5): 270-274. |
Jiao H T, Wang X S, Wei G. Research development of solar assisted heat pump [J]. Energy Technology, 2007, 28(5): 270-274. | |
2 | 孔祥强, 林琳, 李瑛, 等. R410A直膨式太阳能热泵热水器性能研究[J]. 浙江大学学报(工学版), 2013, 47(9): 1666-1671. |
Kong X Q, Lin L, Li Y, et al. Performance of direct expansion solar assisted heat pump water heater using R410A [J]. Journal of Zhejiang University (Engineering Science), 2013, 47(9): 1666-1671. | |
3 | 赵伟强. 直膨式太阳能-空气复合热源热泵热水器的性能优化研究[D]. 南京: 东南大学, 2017. |
Zhao W Q. Study on performance optimization of direct expansion on solar-air source heat pump water heater [D]. Nanjing: Southeast University, 2017. | |
4 | 蒋澄阳, 代彦军. 基于肋片式集热板的直膨式太阳能热泵[J]. 化工学报, 2016, 67: 319-325. |
Jiang C Y, Dai Y J. Direct expansion solar assisted heat pump using novel fin-tube collector/evaporator [J]. CIESC Journal, 2016, 67: 319-325. | |
5 | Kong X Q, Sun P L, Li Y, et al. Experimental studies of a variable capacity direct-expansion solar-assisted heat pump water heater in autumn and winter conditions [J]. Solar Energy, 2018, 170: 352-357. |
6 | 李郁武, 王如竹, 王泰华, 等. 直膨式太阳能热泵热水器运行特性的实验研究[J]. 工程热物理学报, 2006, 27(6): 924-925. |
Li Y W, Wang R Z, Wang T H, et al. Experimental study on the operational characteristics of direct expansion solar assisted heat pump water heater [J]. Journal of Engineering Thermophysics, 2006, 27(6): 924-925. | |
7 | 孙振华. 直膨式太阳能热泵热水器性能改进及实验研究[D]. 上海: 上海交通大学, 2008. |
Sun Z H. Performance improvement and experimental research on a direct expansion solar assisted heat pump water heater [D]. Shanghai: Shanghai Jiao Tong University, 2008. | |
8 | 李振兴. 直膨式太阳能热泵热水系统性能的优化分析[D]. 青岛: 山东科技大学, 2010. |
Li Z X. Optimizing analysis of the performance of direct expansion solar assisted heat pump water heating system [D]. Qingdao: Shandong University of Science and Technology, 2010. | |
9 | 张东. 直膨式太阳能热泵热水器的模拟分析[D]. 青岛: 山东科技大学, 2010. |
Zhang D. Simulation analysis on a direct expansion solar assisted heat pump water heater [D]. Qingdao: Shandong University of Science and Technology, 2010. | |
10 | Chen H B, Wei P. Numerical study on a novel photovoltaic_thermal heat pump system [J]. Energy Procedia, 2011, 12: 547-553. |
11 | Zhao X D, Zhang X X, Saffa B R. Theoretical study of the performance of a novel PV/e roof module for heat pump operation [J]. Energy Conversion and Management, 2011, 52: 603-614. |
12 | 裴刚, 季杰, 刘可亮, 等. 光伏-直膨太阳能热泵系统在变水温工况下的实验研究[J]. 太阳能学报, 2007, 28(6): 588-592. |
Pei G, Ji J, Liu K L, et al. Experimental study on of PV-direct expansion solar assisted heat pump under the mode of condesing temperature rising [J]. Acta Energiae Solaris Sinica, 2007, 28(6): 588-592. | |
13 | 董科枫. 光伏太阳能热泵的结构优化和变容量控制研究[D]. 南京: 东南大学, 2017. |
Dong K F. Study on structure optimization and variable capacity control of photovoltaic/thermal integrated solar heat pump system [D]. Nanjing: Southeast University, 2017. | |
14 | 刘可亮. 光伏太阳能热泵的理论和实验研究[D]. 合肥: 中国科学技术大学, 2007. |
Liu K L. Theoretical and experimental study on photovoltaic solar assisted heat pump system [D]. Hefei: University of Science and Technology of China, 2007. | |
15 | Ji J, Liu K L, Chow T T. Performance analysis of a photovoltaic heat pump [J]. Applied Energy, 2008, 85: 680-693. |
16 | Long H, Chow T T, Ji J. Building-integrated heat pipe photovoltaicthermal system for use in Hongkong [J]. Solar Energy, 2017, 155: 1084-1091. |
17 | Wang Z Y, Qiu F, Yang W S, et al. Experimental investigation of the thermal and electrical performance of the heat pipe BIPV/T system with metal wires [J]. Applied Energy, 2016, 170: 314-323. |
18 | Zhang B Z, Lü J, Yang H X, et al. Performance analysis of a heat pipe PV/T system with different circulation tank capacities [J]. Applied Thermal Engineering, 2015, 87: 89-97. |
19 | Pei G, Fu H D, Zhu H J, et al. Performance study and parametric analysis of a novel heat pipe PV/T system [J]. Energy, 2012, 37: 384-395. |
20 | 朱绘娟, 裴刚, 符慧德. 不同管间距热管PV/T系统中光电/光热性能的对比研究[J]. 太阳能学报, 2013, 34(7): 1173-1176. |
Zhu H J, Pei G, Fu H D, et al. Comparative research between two different heat pipe spaces PV/T system [J]. Acta Energiae Solaris Sinica, 2013, 34(7): 1173-1176. | |
21 | 裴刚, 杨金伟, 张涛. 一种热管平板太阳能集热装置的性能研究[J]. 热科学与技术, 2011, 10(1): 139-141. |
Pei G, Yang J W, Zhang T. Research of flat heat pipe solar collector device [J]. Journal of Thermal Science and Technology, 2011, 10(1): 139-141. | |
22 | 郑仁春, 裴刚, 胡名科. 重力特性对热管PV/T装置年最佳倾角的影响[J]. 太阳能学报, 2015, 36(12): 2987-2992. |
Zheng R C, Pei G, Hu M K. Effect of gravity characteristics on the best inclination of heat pipe PV/T device [J]. Acta Energiae Solaris Sinica, 2015, 36(12): 2987-2992. | |
23 | Meysam M, Seyed M N, Iman A. Application of heat pipe in an experimental investigation on a novel photovoltaic_thermal (PV/T) system [J]. Solar Energy, 2014, 107: 82-88. |
24 | Chen H B, Zhang L, Jie P F, et al. Performance study of heat-pipe solar photovoltaic thermal heat pump system [J]. Applied Energy, 2017, 190: 960-980. |
25 | 符慧德. 光伏光热综合利用系统的理论和实验研究[D]. 合肥: 中国科学技术大学, 2012. |
Fu H D. Numerical and experimental study on a heat pipe photovoltaic/thermal system [D]. Hefei: University of Science and Technology of China, 2012. | |
26 | Fu H D, Zhao T. Performance Analysis of an integrated solar-assisted heat pump system with heat pipe PV/T collectors operating under different weather conditions [J]. Energy Procedia, 2017, 105: 1143-1148. |
27 | 孔祥强, 董山东, 姜开森, 等. 丙烷用于直膨式太阳能热泵实验系统设计[J]. 实验科学与技术, 2019, (3): 6-9. |
Kong X Q, Dong S D, Jiang K S, et al. The design of direct expansion solar heat pump experimental system by using propane [J]. Experiment Science and Technology, 2019, (3): 6-9. | |
28 | 孔祥强, 高琛, 董山东, 等. 微通道直膨式太阳能热泵实验平台设计与应用[J]. 实验技术与管理, 2017, 12(34): 78-80. |
Kong X Q, Gao C, Dong S D, et al. Design and application of experimental platform for micro-channel direct expansion solar energy heat pump [J]. Experimental Technology and Management, 2017, 12(34): 78-80. | |
29 | Zhou J Z, Zhao X D, Ma X L, et al. Experimental investigation of a solar driven direct-expansion heat pump system employing the novel PV/micro-channels-evaporator modules [J]. Applied Energy, 2016, 178: 484-495. |
30 | 赵耀华, 王宏燕, 刁彦华, 等. 平板微热管阵列及其传热特性[J]. 化工学报, 2011, 62(2): 337-343. |
Zhao Y H, Wang H Y, Diao Y H, et al. Heat transfer characteristics of flat micro-heat pipe array [J]. CIESC Journal, 2011, 62(2): 337-343. |
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