Experimental methodology for the heat losses estimation in TES tanks

K. Stokos, Marios C. Georgiou, C. Roussos, E. Stiliaris, C. Papanicolas
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引用次数: 1

Abstract

The present work introduces an indirect approach for the estimation of the heat losses in TES (Thermal Energy Storage) tanks. Heat losses are calculated taking into account the fact that in steady state condition they are equal to the heat input provided by electric heaters. The proposed methodology has been tested in the TESLAB (Thermal Energy Storage LABoratory) tank which is equipped with two electric heaters simulating the heat input from solar irradiation. Heaters’ operation is controlled by an industrial PID (Proportional Integral Derivative) controller regulating their duty factor to achieve the desired set temperature. Total electric power is calculated as the summation of the contribution of each heater, which is equal to the product of the duty factor and the measured electric power. Heat losses for the TESLAB tank are compared with the measured losses during the cooling process satisfactorily. The proposed methodology could be also applied for the measurement of the heat losses of larger tanks, receivers and even CSP (Concentrated Solar Power) plants under operation without solar irradiation. Preliminary testing at the CSP-DSW (Concentrated Solar Power-Desalinated Sea Water) plant of The Cyprus Institute at PROTEAS (Platform for Research, Observation and TEchnological Applications in Solar energy) is quite promising.The present work introduces an indirect approach for the estimation of the heat losses in TES (Thermal Energy Storage) tanks. Heat losses are calculated taking into account the fact that in steady state condition they are equal to the heat input provided by electric heaters. The proposed methodology has been tested in the TESLAB (Thermal Energy Storage LABoratory) tank which is equipped with two electric heaters simulating the heat input from solar irradiation. Heaters’ operation is controlled by an industrial PID (Proportional Integral Derivative) controller regulating their duty factor to achieve the desired set temperature. Total electric power is calculated as the summation of the contribution of each heater, which is equal to the product of the duty factor and the measured electric power. Heat losses for the TESLAB tank are compared with the measured losses during the cooling process satisfactorily. The proposed methodology could be also applied for the measurement of the heat losses of larger tanks,...
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TES储罐热损失估算的实验方法
本工作介绍了一种间接估算TES(热储能)罐热损失的方法。热损失的计算考虑到在稳态条件下,它们等于由电加热器提供的热量输入。所提出的方法已在TESLAB(热能储存实验室)水箱中进行了测试,该水箱配备了两个模拟太阳辐射热量输入的电加热器。加热器的操作由工业PID(比例积分导数)控制器控制,调节其占空因数以达到所需的设定温度。总电功率计算为每个加热器贡献的总和,等于占空因数与测量电功率的乘积。将TESLAB储罐在冷却过程中的热损失与实测热损失进行了比较,结果令人满意。所建议的方法也可用于测量在没有太阳辐照的情况下运行的大型储罐、接收器甚至CSP(集中太阳能发电)厂的热损失。在PROTEAS(太阳能研究、观察和技术应用平台)塞浦路斯研究所的CSP-DSW(集中太阳能-淡化海水)工厂进行的初步测试非常有希望。本工作介绍了一种间接估算TES(热储能)罐热损失的方法。热损失的计算考虑到在稳态条件下,它们等于由电加热器提供的热量输入。所提出的方法已在TESLAB(热能储存实验室)水箱中进行了测试,该水箱配备了两个模拟太阳辐射热量输入的电加热器。加热器的操作由工业PID(比例积分导数)控制器控制,调节其占空因数以达到所需的设定温度。总电功率计算为每个加热器贡献的总和,等于占空因数与测量电功率的乘积。将TESLAB储罐在冷却过程中的热损失与实测热损失进行了比较,结果令人满意。所提出的方法也可用于测量大型储罐的热损失。
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