Enhancing Energy Efficiency in Poland’s Construction Sector: Simulating Renewable Energy and Storage Integration

International Journal of Energy Research, Journal Year: 2025, Volume and Issue: 2025(1)

Published: Jan. 1, 2025

This study examines the integration of renewable energy sources and advanced storage systems in Poland’s construction industry, emphasizing sustainability cost efficiency. The sector’s transition from fossil fuels to photovoltaic (PV) wind aims reduce carbon emissions operational costs. However, intermittency necessitates adoption solutions like lithium‐ion batteries ensure reliability. research utilizes simulation tools optimize performance economic feasibility construction. These enable precise planning, supporting goals cost‐effectiveness. A case is presented, detailing implementation a PV system with 56 modules hybrid inverter, designed enhance efficiency environmental impact. Key findings indicate 3‐year payback period total savings 767,479.48 Polish złoty (PLN) over 25 years, demonstrating significant financial benefits. also explores address supply intermittency, further optimizing use increasing long‐term savings. results highlight innovative role simulations improving bridging knowledge gaps, decision‐making within sector. underscores dual advantages benefits, reinforcing ecological viability solutions. By integrating tools, this provides actionable insights for industry stakeholders, facilitating sustainable aligned global decarbonization resilience

Language: Английский

Energy Transformation in the Construction Industry: Integrating Renewable Energy Sources

Energies, Journal Year: 2025, Volume and Issue: 18(9), P. 2363 - 2363

Published: May 6, 2025

The development of the building sector to use renewable energy, more so in photovoltaic (PV) systems, is a great step toward enhanced environmental sustainability and improved energy efficiency. This study seeks determine economic, environmental, operational effects integrating PV system into Polish production plant for buildings. Case methodology was followed with help actual operating histories simulation modeling present estimates carbon emission savings, cost power Key findings illustrate that 31.8% business’s full-year supply electricity through utilization solar it saves as much 10,366 kg CO2 emissions every year. economic rationale provided form 3.6-year payback period against long-term savings over EUR 128,000 26 years. work also addresses broader implications storage management systems on basis scalability reproducibility intervention at construction scale. provides evidence towards requirement informing decision-making by business managers policy decisionmakers solution issues interest industrial levels world agenda harmonization practice.

Language: Английский

Pioneering Advances in Energy Storage for Renewable Futures

IGI Global eBooks, Journal Year: 2025, Volume and Issue: unknown, P. 391 - 424

Published: April 18, 2025

The transition to renewable energy sources is critical for achieving sustainability and combating climate change. However, the intermittent nature of solar wind presents significant challenges reliable supply. “Harnessing Tomorrow: Pioneering Advances in Energy Storage Renewable Futures” explores innovative storage solutions that are essential integrating into grid effectively. This chapter highlights latest advancements technologies, including lithium-ion batteries, flow supercapacitors, emerging technologies such as solid-state batteries hydrogen systems. By examining case studies pilot projects, research emphasizes role enhancing stability, enabling peak shaving, providing backup power. Furthermore, discusses economic implications these their potential reduce costs, improve efficiency, support widespread adoption energy.

Language: Английский