Selected Properties of the Hybrid Micro-Installation Model Based on Electrochemical Battery and PV Module
Adrian Chmielewski , Jakub Możaryn , Krzysztof Jakub Bogdziński , Piotr Piórkowski , Tomasz Mydłowski , Robert Gumiński , Jędrzej Mączak
AbstractIn this paper, a theoretical model of an electrochemical battery connected with three diode model of a photovoltaic module is presented. To calculate selected parameters of the electrochemical battery model an iteration-approximation method has been employed. Then there are presented chosen curves of LiFePO4 batteries obtained from the experimental research and simulation of the thermal-electrochemical model well known as a combined model. Moreover, by using a combined model, the heat generation of the battery has been calculated. The model was prepared to analyze the influence of selected thermodynamic and electrochemical parameters including the shunt resistance value, series resistance value, solar radiation power density on the photovoltaic module power value for winter and summer season. As a result of the performed simulations with photovoltaic (PV) module and without PV module in the specific daily cycle, the curves of battery state of charge (SOC) have been shown. The presented results inform about the dynamic operation of the simulated LiFePO4 batteries which are integrated with PV module in hybrid micro-installation.
|Journal series||International Journal of Structural Stability and Dynamics, ISSN 0219-4554, (N/A 100 pkt)|
|Publication size in sheets||0.3|
|Keywords in English||Battery model, 3 diodes model, thermal model, hybrid micro-installation|
|ASJC Classification||; ; ; ; ;|
|License||Journal (articles only); published final; ; after publication|
|Score||= 100.0, 18-03-2020, ArticleFromJournal|
|Publication indicators||= 0; = 2; = 6.0; : 2018 = 1.221; : 2018 = 2.156 (2) - 2018=2.005 (5)|
|Citation count*||6 (2020-04-04)|
* presented citation count is obtained through Internet information analysis and it is close to the number calculated by the Publish or Perish system.