Our project proposal includes the following activities: -Implementation of 6 high-efficiency heat pumps designed for heating, cooling, and air conditioning of the production and administrative premises; -Installation of a local energy storage system – a battery module combined with an inverter, enabling the accumulation of electricity generated by the existing photovoltaic power plant (PVPP) and its efficient utilization during periods without sunlight. The photovoltaic power plant, installed on the roof of the production building, already provides a significant share of the company’s electricity consumption. However, due to the mismatch between periods of maximum generation and actual energy demand, part of the produced electricity remains unused at the time of generation. By implementing an energy storage system, the company will be able to balance electricity generation and consumption, utilizing its own green energy as efficiently as possible throughout the entire day and night cycle. The introduction of heat pump systems will allow the replacement of existing, less efficient or energy-intensive heating and cooling solutions with modern, high-efficiency, and low-carbon technologies, primarily powered by electricity generated from renewable sources. Expected results of the project: Improved energy efficiency of the production and administrative buildings; Reduction of electricity costs from external suppliers by more than 30–40%; Better utilization of the electricity generated by the PVPP through integration with an energy storage system. By implementing the project, the company will achieve a comprehensive optimization of the energy balance between production, storage, and consumption of electricity. The combination of a photovoltaic system, batteries, and heat pump installations represents a modern, integrated, and environmentally friendly solution that will ensure long-term savings, reduced emissions, and a sustainable energy model of operation.
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