Simulation Analysis of Solar-air Dual Heat Source Heat Pump System

Wang Gang; Yang Yongqing; Yu Wan; Hu Tao; Han Xilian

doi:10.3969/j.issn.0253-4339.2023.01.150

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Simulation Analysis of Solar-air Dual Heat Source Heat Pump System

更新时间：2024-08-14

- Simulation Analysis of Solar-air Dual Heat Source Heat Pump System
- Journal of Refrigeration Vol. 44, Issue 1, (2023)
- 作者机构：
  
  1. 三峡大学机械与动力学院
  2. 兰州理工大学石油化工学院
- 作者简介：
- 基金信息：
- DOI：10.3969/j.issn.0253-4339.2023.01.150
  CLC：
- Published：2023，
- 稿件说明：
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WANG GANG, YANG YONGQING, YU WAN, et al. Simulation Analysis of Solar-air Dual Heat Source Heat Pump System. [J]. Journal of refrigeration, 2023, 44(1).
DOI：

WANG GANG, YANG YONGQING, YU WAN, et al. Simulation Analysis of Solar-air Dual Heat Source Heat Pump System. [J]. Journal of refrigeration, 2023, 44(1). DOI： 10.3969/j.issn.0253-4339.2023.01.150.

摘要

为保证复合热源热泵系统在复杂工况下的稳定运行和进一步优化系统各组件之间合理、高效的能量匹配

本文设计并搭建了基于微热管阵列的太阳能-空气复合热源热泵系统，采用集中参数法建立系统数学模型，分别从系统的发电效率、集热效率、制热功率和性能系数（COP）4个方面基于实验数据进行模型验证与分析，利用控制变量法研究了太阳辐照度和环境温度等参数对热泵系统在光伏/光热-水&空气源热泵运行模式下系统性能的影响，并对其运行特性进行综合评价。结果表明：所建数学模型具有较好的准确性，模拟值与实验值的相对误差均在±15%之间。光伏/光热-水&空气源热泵系统运行模式下发电效率和集热效率均值分别为13.91%和41.14%，COP均值为2.29。此外，当辐照度和环境温度分别以500 W/m2和15 ℃为单一变量时，系统COP分别提升21%和29.8%。

Abstract

This study designs and establishes a solar-air dual heat source heat pump system based on a micro-heat pipe array to ensure the stable operation of the multiple heat source heat pump system under complex operating conditions and further optimize the reasonable and efficient energy matching among the system components. A mathematical model of the system is established using the centralized parameter method. The model validation and analysis are based on experimental data from four aspects: system power-generation efficiency

heat-collection efficiency

heating capacity

and heat pump COP. The influence of parameters such as solar irradiance and ambient temperature on the performance of heat pump systems in the photovoltaic/thermal-water & air-source heat pump (PV/T-W&ASHP) operation mode is investigated using the control variable method

and the operational characteristics are comprehensively evaluated. The results show that the proposed mathematical model has considerable accuracy

and the relative errors between the simulated and experimental values are all between ±15%. The average values of the power-generation efficiency and heat-collection efficiency under the PV/T-W&ASHP operation mode are 13.91% and 41.14%

respectively

and the average COP is 2.29. Moreover

when irradiance and ambient temperature are considered a single variable of 500 W/m2 and 15 °C

the system COP is improved by 21% and 29.8%

respectively.

关键词

热泵性能系数光伏/光热传热性能

Keywords

heat pumpcoefficient of performancephotovoltaic/thermalheat transfer performance

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School of Energy and Power Engineering, University of Shanghai for Science and Technology

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