集成,控制和测试高温颗粒到sco2热交换器

Kevin Albrecht, M. Carlson, C. Ho
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引用次数: 3

摘要

颗粒制二氧化硅换热器的研制是实现颗粒光热系统的关键一步。本文介绍了100kwt移动填料床式换热器样机的集成和未来试验工作。该设备将与桑迪亚国家实验室的落粒接收器测试回路集成,并与高压sCO2流回路集成以进行散热。描述了包括低温(700°C)在内的测试活动。此外,还描述了sCO2混合三通的开发,该三通允许sCO2流动回路在超过700°C的温度下运行,而不需要高温散热或大量的高镍管道。颗粒制二氧化硅换热器的研制是实现颗粒光热系统的关键一步。本文介绍了100kwt移动填料床式换热器样机的集成和未来试验工作。该设备将与桑迪亚国家实验室的落粒接收器测试回路集成,并与高压sCO2流回路集成以进行散热。描述了包括低温(700°C)在内的测试活动。此外,还描述了sCO2混合三通的开发,该三通允许sCO2流动回路在超过700°C的温度下运行,而不需要高温散热或大量的高镍管道。
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Integration, control, and testing of a high-temperature particle-to-sCO2 heat exchanger
The development of a particle-to-sCO2 heat exchanger is a critical step toward the realization of a particle-based CSP system. In this paper, the work on the integration and future testing of a 100 kWt moving packed-bed heat exchanger prototype is reported. The device will be integrated with the falling particle receiver test loop at Sandia National Laboratories and integrated with a high-pressure sCO2 flow loop for heat rejection. A testing campaign is described including low-temperature ( 700 °C. Furthermore, the development of an sCO2 mixing Tee is described, which allows for the sCO2 flow loop to be operated at temperatures over 700 °C without requiring high-temperature heat rejection or significant amounts of high-nickel piping.The development of a particle-to-sCO2 heat exchanger is a critical step toward the realization of a particle-based CSP system. In this paper, the work on the integration and future testing of a 100 kWt moving packed-bed heat exchanger prototype is reported. The device will be integrated with the falling particle receiver test loop at Sandia National Laboratories and integrated with a high-pressure sCO2 flow loop for heat rejection. A testing campaign is described including low-temperature ( 700 °C. Furthermore, the development of an sCO2 mixing Tee is described, which allows for the sCO2 flow loop to be operated at temperatures over 700 °C without requiring high-temperature heat rejection or significant amounts of high-nickel piping.
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