基于仿真的改进型放大离心颗粒接收器设计与成本研究

C. Frantz, R. Buck, L. Amsbeck
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引用次数: 6

摘要

利用在j lich太阳塔离心粒子系统实验测试活动中收集的测量数据,开发并验证了CentRec®接收器的数值模型。该模型已被用于计算不同几何形状的放大20mth接收机的热光效率。我们推导出了成本函数,并将其用于在CentRec®接收器概念的LCOH(热量平准化成本)基础上进行技术经济优化。有蓄热系统的LCOH可低至0.0209€/kWhth,无蓄热系统的LCOH可低至0.0150€/kWhth。本研究表明,从LCOH的角度来看,20兆瓦离心式颗粒接收器的最佳配置达到35€/kWth的特定接收器成本。因此,与原始配置相比,接收器的成本可以降低60%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design and Cost Study of Improved Scaled-Up Centrifugal Particle Receiver Based on Simulation
A numerical model of the CentRec® receiver has been developed and validated using the measurement data collected during the experimental test campaign of the centrifugal particle system at the solar tower Jülich. The model has been used to calculate the thermo-optical efficiency of a scaled-up 20 MWth receiver for various receiver geometries. A cost function has been deduced and was used to perform a technoeconomic optimization on an LCOH (levelized cost of heat) basis of the CentRec® receiver concept. Attractive LCOH as low as 0.0209 €/kWhth for a system with thermal storage, or as low as 0.0150 €/kWhth for the LCOH without storage, are predicted. This study has shown that the optimal configuration from an LCOH perspective for a 20 MWth centrifugal particle receiver reaches specific receiver costs of 35 €/kWth. Hereby the costs of the receiver can be reduced by 60 % compared to the original configuration.
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