Sizing and Techno-Economic Analysis of Utility-Scale PV Systems with Energy Storage Systems in Factory Buildings: An Application Study DOI Creative Commons
Kıvanç Başaran, Mahmut Temel Özdemir,

Gökay Bayrak

et al.

Applied Sciences, Journal Year: 2025, Volume and Issue: 15(7), P. 3876 - 3876

Published: April 1, 2025

In recent years, PV power plants have been widely used on the roofs of commercial buildings with grid connections, primarily to enhance self-consumption in distributed energy systems. addition, installing buildings’ is becoming increasingly important, especially crowded cities where land limited. Since Sun an intermittent source, cause frequency and voltage fluctuations grid. The way avoid this problem install together battery storage Battery systems prevent provide economic benefits. This article presents sizing techno-economic analysis a factory building’s rooftop system battery. amount produced by plant, temperature, irradiation were recorded data logger obtained various sensors. These real-time measurements continuously collected analyzed evaluate performance assess seasonal variations.Load demand through automatic meter reading system. installed capacity plant 645 kW. optimum determined for 130 kW 5 h. Techno-economic was carried out using metrics such as payback period, net present value, levelized cost energy. As result input variables, LCOE, NPV, PBP 0.1467 $/kWh, 4918.3 $, 7.03 respectively.

Language: Английский

A unified robust hybrid optimized Takagi–Sugeno fuzzy control for hydrogen fuel cell-integrated microgrids DOI
Ömer Faruk ÖZCAN, Heybet Kılıç,

Ömerül Faruk Özgüven

et al.

International Journal of Hydrogen Energy, Journal Year: 2025, Volume and Issue: unknown

Published: Feb. 1, 2025

Language: Английский

Citations

0
Renewable Energy and Hydrogen Storage System Analysis for Carbon Neutral Campuses with HOMER DOI Creative Commons

Faruk Barlaz,

Yusri Syam Akil, Cem Haydaroğlu

et al.

Türk doğa ve fen dergisi :/Türk doğa ve fen dergisi, Journal Year: 2025, Volume and Issue: 14(1), P. 136 - 145

Published: March 26, 2025

This study focuses on the design and techno-economic analysis of a Hybrid Energy System (HES) aimed at reducing carbon emissions for Dicle University in Diyarbakır, Turkey. The system integrates photovoltaic panels (PV), wind turbines (WT), battery storage systems (BSS), electrolyzers, hydrogen tanks (HST) to create sustainable efficient energy solution. Diyarbakır’s high solar radiation potential make it suitable location such an implementation. HOMER Pro software was utilized model optimize based local meteorological data, evaluating technical economic performance. designed HRES meets daily demand 34.3 kWh is composed 8 kW PV array, 5 WT, 18 BSS, 7 electrolyzer, 400 kg capacity. has total capital cost $287,577, Net Present Cost (NPC) $588,188, Levelized (LCOE) $11.09/kWh. results demonstrate feasibility efficiency integrating renewable with achieve reliability, sustainability, reduced emissions.

Language: Английский

Citations

0
Sizing and Techno-Economic Analysis of Utility-Scale PV Systems with Energy Storage Systems in Factory Buildings: An Application Study DOI Creative Commons
Kıvanç Başaran, Mahmut Temel Özdemir,

Gökay Bayrak

et al.

Applied Sciences, Journal Year: 2025, Volume and Issue: 15(7), P. 3876 - 3876

Published: April 1, 2025

In recent years, PV power plants have been widely used on the roofs of commercial buildings with grid connections, primarily to enhance self-consumption in distributed energy systems. addition, installing buildings’ is becoming increasingly important, especially crowded cities where land limited. Since Sun an intermittent source, cause frequency and voltage fluctuations grid. The way avoid this problem install together battery storage Battery systems prevent provide economic benefits. This article presents sizing techno-economic analysis a factory building’s rooftop system battery. amount produced by plant, temperature, irradiation were recorded data logger obtained various sensors. These real-time measurements continuously collected analyzed evaluate performance assess seasonal variations.Load demand through automatic meter reading system. installed capacity plant 645 kW. optimum determined for 130 kW 5 h. Techno-economic was carried out using metrics such as payback period, net present value, levelized cost energy. As result input variables, LCOE, NPV, PBP 0.1467 $/kWh, 4918.3 $, 7.03 respectively.

Language: Английский

Citations

0