Impact of bi-facial PV panels’ presence as the novel option on the energy management and scheduling of the interconnected grids: Comprehensive outlook

This study examines the effect of novel photovoltaic (PV) panels called bi-facial PV on the energy planning and management of the proposed interconnected grid. Dual buildings are assumed to be different applications interacting with each other and the upstream network. Various renewable and non-rene...

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Bibliographic Details
Published in:Journal of Building Engineering 2024-08, Vol.90, p.109495, Article 109495
Main Authors: Aryan Tabar, Masoud, Ahmadi Jirdehi, Mehdi, Shaterabadi, Mohammad
Format: Article
Language:English
Subjects:
Bi-facial photovoltaic
Energy audit and planning
Interconnected grid
Renewable energy resources
Solar energy
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Summary:This study examines the effect of novel photovoltaic (PV) panels called bi-facial PV on the energy planning and management of the proposed interconnected grid. Dual buildings are assumed to be different applications interacting with each other and the upstream network. Various renewable and non-renewable energy resources are considered, including CHP, boiler, wind turbine (WT), and electrical and thermal energy storage. The goal is to minimize multi-objective functions of total cost and contamination simultaneously. Bi-facial PV panels can also receive reflected light from the environment (depending on various albedo), resulting in an additional 20 % growth in produced power. The problem is formulated as the mixed integer linear programming (MILP) and solved in GAMS software by CPLEX solver. The optimization problem is solved by using epsilon constraints method and fuzzy satisfying approach. In order to reach accurate results, the diverse demands of the proposed buildings and renewable-based units’ obtainable power are calculated using Energy Plus and Design Builder software. The study represents two scenarios in which mono-facial and bi-facial planning are exerted. The final results show that a 20 % increase in produced power significantly impacts the exchangeable power between buildings and the upstream network, leading to a noticeable cost reduction. Furthermore, it depicts a slight change in overall pollution. •Investigating the impact of bi-facial PV panels on energy management issues.•Considering the cost and pollution of the interconnected grid as the objectives.•Energy Plus, Design Builder, and GAMS software made the results realistic.•Dual buildings were assumed to have various applications interacting with each other.•Reduction in the overall cost and pollution of the interconnected grid was obtained.
ISSN:2352-7102
2352-7102
DOI:10.1016/j.jobe.2024.109495