Experimental and numerical study on the performance of a built-middle PV Trombe wall system

•A built-middle PV Trombe wall (MPVTW) system was designed and constructed.•The comparative experiments between the MPVTW and EPVTW are carried out.•Simulation models for two types PVTW systems are proposed and validated.•Parametric study is performed using a validated mathematical model. A built-mi...

Full description

Saved in:
Bibliographic Details
Published inEnergy and buildings Vol. 200; pp. 47 - 57
Main Authors Lin, Yuan, Ji, Jie, Zhou, Fan, Ma, Yang, Luo, Kun, Lu, Xiangyou
Format Journal Article
LanguageEnglish
Published Lausanne Elsevier B.V 01.10.2019
Elsevier BV
Subjects
Air layer
Computer simulation
Construction
Efficiency
Electricity
Energy consumption
Energy performance
MPVTW
Parameters
Performance evaluation
Photovoltaic cells
Photovoltaic Trombe wall
Photovoltaics
Solar power
Thermodynamic efficiency
Trombe walls
Photovoltaic Trombe wall
Energy performance
MPVTW
Air layer
Online AccessGet full text

Cover

More Information
Summary:•A built-middle PV Trombe wall (MPVTW) system was designed and constructed.•The comparative experiments between the MPVTW and EPVTW are carried out.•Simulation models for two types PVTW systems are proposed and validated.•Parametric study is performed using a validated mathematical model. A built-middle PV Trombe wall (MPVTW) with solar PV panel installed in the middle of the air channel is proposed, designed, and manufactured in the present study. Comparative tests with the traditional built-external PV Trombe wall (EPVTW) were conducted in Hefei (117°E, 32°N), China to evaluate the performance of the MPVTW system. The average electrical and thermal efficiencies of the MPVTW system were measured as approximately 12.0% and 38.2%, respectively. The average value of the total efficiency of the MPVTW system was 10.83% higher than that of the EPVTW system. In addition, the effects of different parameters (i.e. channel height, the PV cells coverage ratio, and the PV cells position) on the energy performance of the MPVTW system were investigated by using the validated simulation model. The results show that the variations of these parameters have significant effects on thermal performance, but have little effect on electricity efficiency. The present study also found that when the distance (between the glass cover and PV module) was in the range of 12 mm–30 mm, the optimum values of total efficiency, thermal efficiency and electricity efficiency were 57.3%, 38.3% and 12.0%, respectively.
ISSN:0378-7788
1872-6178
DOI:10.1016/j.enbuild.2019.07.042