In the Center for Electrical Energy Storage, the ACDC team focuses on two main areas: battery storage technologies and thermal storage technologies. In the field of battery technologies, the team is actively working on novel materials and innovative production processes for battery cells. They are also exploring new approaches for battery system technology, ranging from cells and modules to complete battery packs, including battery management and thermal management systems. The team is constantly optimizing procedures to determine the state of charge and state of health of batteries, as well as predicting their lifetime. Additionally, they are working on developing optimized charging and operating control strategies, and prototypes for various application areas. The team also utilizes modeling and simulation techniques to understand the behavior and performance of batteries at different levels, such as material, cell, and system. They conduct comprehensive testing and verification of batteries, including performance and aging investigations, thermal analyses, abuse tests, and post mortem analyses. Furthermore, they have expertise in testing various PV storage systems, including Pico PV systems, Solar Home systems, PV hybrid systems, grid-connected PV battery systems, and storage system components such as charge controllers and energy management systems.

In terms of thermal storage technologies, the ACDC team is focused on developing new highly efficient storage materials. They are particularly interested in classic sensitive storage materials, latent heat storage materials, and sorption materials. The team carefully examines these storage materials to understand their behavior in different storage systems. They conduct performance tests under realistic conditions to evaluate their efficiency and effectiveness. To facilitate their research, the team has access to various test stands and facilities that allow them to carry out characterizations of storage systems in a temperature range of -30°C to 550°C. The team also conducts detailed energy flow analyses at existing thermal plants in buildings, industry, and trade. This allows them to evaluate the optimal integration of thermal storage systems in terms of both energy and economic considerations. System simulations are an important tool used by the team to evaluate the suitability of different storage technologies for specific systems. They also use simulations to optimize the operating control strategies of thermal storage systems, ensuring smooth integration and efficient operation.

With their focus on both battery storage technologies and thermal storage technologies, the ACDC team is actively contributing to the advancement and development of energy storage solutions. By working on novel materials and innovative production processes for battery cells, they are pushing the boundaries of battery technology. Their research on battery system technology, including battery management and thermal management systems, helps improve the overall performance and efficiency of battery systems. The team's optimization procedures for determining the state of charge and state of health of batteries ensure their reliable performance and longer lifetimes. The development of optimized charging and operating control strategies further enhances the usability and effectiveness of batteries in various applications. The ACDC team's expertise in modeling and simulation enables them to gain a deeper understanding of batteries at different levels, which in turn leads to more accurate predictions and better design strategies. The team's comprehensive testing and verification methods ensure the reliability and safety of batteries, and their expertise in PV storage systems allows them to contribute to the development of sustainable energy solutions.

열 저장 기술 분야에서 ACDC 팀의 새로운 저장 재료에 대한 연구는 에너지 효율성과 저장 용량을 향상시키는 데 매우 중요합니다. 민감한 저장 재료, 잠열 저장 재료 및 흡착 재료에 중점을 두어 팀은 열 저장 솔루션의 옵션 범위를 확장하고 있습니다. 현실적인 조건에서 이러한 재료를 주의 깊게 조사하고 성능 테스트를 하면 해당 재료의 장점과 단점을 식별하는 데 도움이 되며 팀은 특정 응용 분야에 가장 적합한 재료를 선택할 수 있습니다. 다양한 테스트 스탠드와 시설을 이용할 수 있어 저장 시스템의 포괄적인 특성화가 가능해지며 넓은 온도 범위에서 정확한 성능 평가가 보장됩니다. 기존 열 발전소에 대한 팀의 상세한 에너지 흐름 분석은 다양한 설정에서 열 저장 시스템의 통합에 대한 귀중한 통찰력을 제공합니다. 팀은 시스템 시뮬레이션을 사용하여 다양한 스토리지 기술의 적합성을 평가하고 효율적인 스토리지 통합을 위해 운영 제어 전략을 최적화할 수 있습니다. ACDC 팀의 열 저장 기술 연구는 지속 가능하고 효율적인 에너지 시스템 개발, 에너지 활용도 향상, 전반적인 탄소 배출 감소에 기여합니다.

In conclusion, the ACDC team's work in the Center for Electrical Energy Storage focuses on two main areas: battery storage technologies and thermal storage technologies. Their research on novel materials and production processes for battery cells aims to push the boundaries of battery technology and improve overall system performance. Their expertise in battery management and thermal management helps optimize the charging and operation of battery systems. The team's modeling and simulation capabilities enable them to gain a deeper understanding of batteries and improve design strategies. Their comprehensive testing and verification methods ensure the reliability and safety of batteries, and their expertise in PV storage systems contributes to sustainable energy solutions. In the field of thermal storage technologies, the team is developing highly efficient storage materials and conducting performance tests to identify the most suitable options. They analyze energy flows and integrate thermal storage systems through detailed simulations and evaluations. The ACDC team's research in both battery and thermal storage technologies contributes to the development of sustainable and efficient energy storage solutions.

관련 상품:

자체 냉각-EN-215 실외 분산 에너지 저장 캐비닛 - 전원 유형

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참고사이트:http://cnnes.cc