ISSN print edition: 0366-6352
ISSN electronic edition: 1336-9075
Registr. No.: MK SR 9/7

Published monthly
 

Influence of dust accumulation characteristics on power generation of solar PV modules

Wenjun He, Jianhua Tu, Xueqing Liu, Song Yue, Mingxin Qu, Changjie Jia, Yongchao Shi, Qi Tao, Linqiang Cui, and Zhengming Yi

Energy Branch, POWERCHINA Hubei Electric Engineering Corporation Limited, Wuhan, China

 

E-mail: lxq_wust@wust.edu.cn

Received: 21 July 2023  Accepted: 6 October 2024

Abstract:

The dust accumulation on the surfaces of photovoltaic (PV) modules greatly limits the development and promotion of solar PV power generation. In this study, extensive research is conducted on the characteristics of dust accumulation on the surface of PV modules from Wuhan and Dengkou, China, and their power generation performance. In addition, the influence of dust accumulation on PV system efficiency is investigated. The results indicate that the primary phase compositions of dust in Dengkou and Wuhan are SiO2, Al2O3, CaAl2Si2O4·4H2O, CaCO3 and CaO. The PV characteristics and degree of particle agglomeration of roof PV modules in urban cities are weaker and greater, respectively, than those of desert PV modules in arid and semiarid areas. The PV system efficiency in Wuhan and Dengkou reaches a minimum value in October and August, decreasing by 40.8% and 32.8%, respectively, in comparison with those without dust accumulation. Throughout the year, the PV system efficiency in Wuhan and Dengkou is greatest in February. The power generation decreases by 74.8% and the dust accumulation coefficient increases by 61.2%, as the density of dust accumulation varies from 4.92 to 8.51 g/m2. The optical performance and PV module temperature reach their maximum values in July. Dust accumulation on the surface of PV modules can reduce their optical performance by 3.2–42.2%. The PV module temperature can be increased by a maximum of 1.1% with dust accumulation in September. PV system efficiency is greater in winter than in other seasons. These findings provide significant theoretical guidance related to solar PV module cleaning methods and power generation.

Keywords: Renewable energy; Solar energy; Photovoltaic; Dust accumulation

Full paper is available at www.springerlink.com.

DOI: 10.1007/s11696-024-03731-9

 

Chemical Papers 78 (17) 9103–9117 (2024)

Thursday, December 26, 2024

IMPACT FACTOR 2023
2.1
SCImago Journal Rank 2023
0.381
SEARCH
Advanced
VOLUMES
© 2024 Chemical Papers