Sensitivity analysis of design parameters of collector for direct-expansion solar assisted heat pump water heater

被引：0

作者：

Che J. ^{[1
]}

Nan X. ^{[1
]}

Liu L. ^{[2
]}

Yan Q. ^{[1
]}

机构：

[1] School of Building Services Science and Engineering, Xi'an University of Architecture and Technology, Xi'an

[2] School of Energy and Power Engineering, Xi'an Jiaotong University, Xi'an

来源：

Taiyangneng Xuebao/Acta Energiae Solaris Sinica | 2021年 / 42卷 / 05期

关键词：

Direct-expansion; Heat pump system; Mathematic model; Sensitivity analysis; Solar collector; Solar water heater;

D O I：

10.19912/j.0254-0096.tynxb.2018-1412

中图分类号：

学科分类号：

摘要：

In this paper, a mathematical model for the direct-expansion solar assisted heat pump water heater system is developed with verified experimental data. On this basis, the influence of design parameters of collector/evaporator on system performance are analyzed by sensitivity analysis method. Meantime, the sensitivity coefficient is introduced as an evaluation index to determine the key design parameters of collector/evaporator. The results show that the area of the collector/evaporator has the most significant effect on the heating coefficient of performance and heating capacity, and the sensitivity coefficients for them are 0.201 and 0.223, respectively. Finally, the area and absorption rate of collector/evaporator are determined as key design parameters. © 2021, Solar Energy Periodical Office Co., Ltd. All right reserved.

引用

页码：343 / 349

页数：6

共 28 条

[1] SPORN P, AMBROSE E R., The heat pump and solar energy proceedings of the world symposium on applied, Solar energy, 11, pp. 1-5, (1955)
[2] OZGENER O, HEPBASLI A., A review on the energy and exergy analysis of solar assisted heat pump systems, Renewable & sustainable energy reviews, 11, 3, pp. 482-496, (2007)
[3] HUANG W Z, ZHANG T, JI J, Et al., Numerical study and experimental validation of a direct-expansion solar-assisted heat pump for space heating under frosting conditions, Energy and buildings, 185, pp. 224-238, (2019)
[4] CAI J Y, JI J, WANG Y Y, Et al., A novel PV/T-air dual source heat pump water heater system: Dynamic simulation and performance characterization, Energy conversion and management, 148, pp. 635-645, (2017)
[5] DENG W S, YU J L., Simulation analysis on dynamic performance of a combined solar/air dual source heat pump water heater, Energy conversion and management, 120, pp. 378-387, (2016)
[6] ZHANG D, WU Q B, LI J P, Et al., Effects of refrigerant charge and structural parameters on the performance of a direct-expansion solar-assisted heat pump system, Applied thermal engineering, 73, 1, pp. 522-528, (2014)
[7] KONG X Q, LI Y, LIN L, Et al., Modeling evaluation of a direct-expansion solar-assisted heat pump water heater using R410A, International journal of refrigeration, 76, pp. 136-146, (2017)
[8] KONG X Q, SUN P L, DONG S D, Et al., Experimental performance analysis of a direct-expansion solar-assisted heat pump water heater with R134a in summer, International journal of refrigeration, 91, pp. 12-19, (2018)
[9] LI H, SUN Y., Performance optimization and benefit analyses of a photovoltaic loop heat pipe/solar assisted heat pump water heating system, Renewable energy, 134, pp. 1240-1247, (2019)
[10] KONG X Q, SUN P L, JIANG K L, Et al., A variable frequency control method and experiments of a direct-expansion solar-assisted heat pump system, Solar energy, 176, pp. 572-580, (2018)

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