Project Portfolio | SOLAR SLUSAKOWICZ – PV Energy Storage, Cabinet ESS & Microgrids

Commercial Campus Microgrid with PV-Storage Integration

Integrated microgrid solution featuring 2.9MW solar PV and a 2.4MWh BESS storage system using PV energy storage systems, cabinet ESS, and deep cycle batteries for extended battery cycle life. Achieved over 80% renewable penetration with detailed solar PV ROI analysis, optimized energy storage system capacity, and ongoing maintenance. Includes grid-connected storage cabinets with BMS and supports peak shaving valley filling. Designed according to energy storage system standards and incorporates wind power storage readiness.
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Utility-Scale Solar PV with Outdoor & High-Voltage Cabinets

A 57MW solar photovoltaic farm coupled with a 29MW/55MWh BESS system comprising outdoor energy storage cabinets, high-voltage battery cabinets, and PCS power conversion systems. Provides grid stabilization and grid-connected energy storage with competitive solar module pricing and full compliance with solar power generation standards. Incorporates containerized energy storage systems and vanadium redox flow batteries for long-duration storage, enabling clean energy storage and peak shaving valley filling. Highlights advantages of solar PV and supports energy storage market outlook.
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Industrial Containerized Storage with Distributed & Wall-Mounted Cabinets

4.6MWh containerized energy storage solution for peak shaving and backup power at a factory, using high-safety LiFePO4 battery packs with extended battery cycle life, distributed storage cabinets, and wall-mounted energy storage batteries for ancillary services. Reduces energy costs and enhances power resilience for industrial park carbon reduction while maintaining optimal solar PV ROI. Utilizes lithium battery specific cabinets with integrated BMS and offers competitive containerized energy storage system price. Designed for wind power storage integration and meets energy storage system standards.
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Residential Community Microgrid with Home Storage & Wall-Mounted Batteries

A community microgrid integrating rooftop solar PV with shared battery storage using home energy storage systems and wall-mounted deep cycle energy storage batteries across 265 homes. Includes solar PV ROI analysis, energy storage system capacity planning, and dynamic capacity expansion to maximize household savings. Features distributed PV grid connection and commercial industrial battery cabinets for community storage, enabling clean energy storage and peak shaving valley filling. Employs waterproof battery cabinets for outdoor installations and follows energy storage system design best practices.
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Grid-Scale BESS with Integrated Inverter Controllers for Frequency Regulation

A 39MW/77MWh Battery Energy Storage System (BESS) providing critical frequency regulation and voltage support, utilizing integrated inverter controllers, high-voltage battery cabinets, and PCS power conversion systems. Enhances grid-connected energy storage stability and optimizes renewable energy storage dispatch with dynamic capacity expansion. Incorporates vanadium redox flow batteries for enhanced longevity and supports peak shaving valley filling with optimal containerized ESS price. Features an advanced energy management system for real-time monitoring and energy storage system maintenance.
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Hospital Critical Power Microgrid with Telecom-Grade Backup

A resilient microgrid with solar PV, BESS storage using high-safety LiFePO4 battery packs with long battery cycle life, and backup generation ensuring near-uninterruptible power. Features telecom cabinets and telecom base station energy storage-grade reliability, plus wall-mounted energy storage batteries for space optimization. Includes grid-connected storage cabinets with BMS and ongoing energy storage system maintenance to maximize solar PV ROI. Designed with PV storage system design principles and integrates with an energy management system.
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Remote Island Renewable Microgrid with PV-Storage Integrated Unit

An island microgrid replacing diesel with solar PV and advanced battery storage using a PV-storage integrated unit and integrated inverter controllers. Cutting fuel costs by 71% through integrated PV+storage, detailed revenue analysis, dynamic capacity expansion, and optimized battery cycle life with regular maintenance. Utilizes solar containers and containerized energy storage systems for easy deployment, serving as a mobile PV container for the community and enabling clean energy storage with peak shaving valley filling. Showcases advantages of solar PV and energy storage market outlook.
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Data Center Energy Storage with Rack-Mounted Cabinets & Parallel Systems

High-density LiFePO4 battery packs in rack-mounted storage cabinets and parallel battery cabinet systems providing data center UPS and peak shaving for a data center, using integrated inverter controllers and PCS power conversion systems. Improves power reliability and efficiency with energy storage inverters, optimized energy storage system capacity, and ongoing maintenance. Includes an outdoor battery cabinet quotation for future expansion and battery cabinet wholesale options, supporting clean energy storage and solar PV ROI. Designed according to energy storage system standards and integrates with energy management system.
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Global Project Portfolio & Case Studies in PV Energy Storage