Desing of Photovoltaic Power Plant with Energy Accumulation for Commercial Object
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Date
Authors
Hassan, Mamoon
Advisor
Referee
Mark
D
Journal Title
Journal ISSN
Volume Title
Publisher
Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií
ORCID
Abstract
The document presents the design of a photovoltaic (PV) system integrated with a battery energy storage system (BESS) to cover an annual energy consumption of 200,000kWh of a commercial building. Using PV*SOL simulation software, two system variants are analyzed and compared based on configuration, energy yield, self-consumption rates, and storage performance. Key design aspects include roof orientation, shading, inverter selection, and battery capacity. A financial analysis evaluates investment costs, payback periods, and long-term savings for both variants. Results highlight differences in efficiency and economic feasibility, supporting the selection of the more cost-effective and energy-efficient solution.
The document presents the design of a photovoltaic (PV) system integrated with a battery energy storage system (BESS) to cover an annual energy consumption of 200,000kWh of a commercial building. Using PV*SOL simulation software, two system variants are analyzed and compared based on configuration, energy yield, self-consumption rates, and storage performance. Key design aspects include roof orientation, shading, inverter selection, and battery capacity. A financial analysis evaluates investment costs, payback periods, and long-term savings for both variants. Results highlight differences in efficiency and economic feasibility, supporting the selection of the more cost-effective and energy-efficient solution.
The document presents the design of a photovoltaic (PV) system integrated with a battery energy storage system (BESS) to cover an annual energy consumption of 200,000kWh of a commercial building. Using PV*SOL simulation software, two system variants are analyzed and compared based on configuration, energy yield, self-consumption rates, and storage performance. Key design aspects include roof orientation, shading, inverter selection, and battery capacity. A financial analysis evaluates investment costs, payback periods, and long-term savings for both variants. Results highlight differences in efficiency and economic feasibility, supporting the selection of the more cost-effective and energy-efficient solution.
Description
Keywords
Renewable Energy Integration , Commercial Energy Systems , Photovoltaic Power Plant , Battery Energy Storage System (BESS) , Grid Connection Requirements , PV System Design , Simulation Software (PV*SOL) , Cost-Benefit Analysis , Project Documentation , System Topology Investment Evaluation. , Renewable Energy Integration , Commercial Energy Systems , Photovoltaic Power Plant , Battery Energy Storage System (BESS) , Grid Connection Requirements , PV System Design , Simulation Software (PV*SOL) , Cost-Benefit Analysis , Project Documentation , System Topology Investment Evaluation.
Citation
HASSAN, M. Desing of Photovoltaic Power Plant with Energy Accumulation for Commercial Object [online]. Brno: Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií. 2025.
Document type
Document version
Date of access to the full text
Language of document
en
Study field
bez specializace
Comittee
prof. Ing. Petr Toman, Ph.D. (předseda)
doc. Ing. Petr Baxant, Ph.D. (místopředseda)
Ing. Branislav Bátora, Ph.D. (člen)
Ing. Michal Krbal, Ph.D. (člen)
Ing. Jiří Ptáček, Ph.D. (člen)
prof. Ing. Karel Katovský, Ph.D. (člen)
Date of acceptance
2025-06-10
Defence
The student presented his diploma thesis titled Design of a Photovoltaic Power Plant with Energy Storage for a Commercial Facility. The supervisor's and opponent's evaluations were presented to the examination committee by Mr. Karel Katovský. The student answered the opponent’s questions. An additional question was posed by Assoc. Prof. Baxant regarding the inverter connection in the simulated scheme. The student was able to partially answer this question. Dr. Ptáček asked a further question concerning the differences between the battery types used and the reason for the initial conditions being set similarly in both cases. With the assistance of the committee, the student managed to respond.
Result of defence
práce byla úspěšně obhájena