Fluid Flow Control in Domestic Hot Water Systems During Days with Different Radiative Stability Levels

S. Budea, V. Badescu
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Abstract

Abstract This paper presents models/strategies for optimum performance of solar collector in closed loop systems. These models aim to maximize the obtained energy by thermal conversion of solar energy. The mass flow rate of the fluid from the primary circuit of the system is the control parameter. The semi empirical models and optimal control methods are in brief presented. The volume of the storage tank is important and the ratio Vs/Ac between this volume and area of the collectors is a key factor in appropriate sizing of the DHW system. Therefore, the paper establishes a relationship between this ratio and the mass flow rate of the fluid in the collector This paper also analyses the variation of the energetic performance (useful heat flux transferred to the storage tank, heat flux transferred to the water, water temperature in the storage tank) with the volume of the storage tank. Analysis was performed on an extensive set of meteorological data from Timisoara, Romania, with instantaneous data (measured at 15 seconds) for summer days, from July 2009, with different relative sunshine values, σ. Important differences have been observed between days with different stability levels - days more or less stable.
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不同辐射稳定水平下生活热水系统的流量控制
摘要本文提出了闭环系统中太阳能集热器性能最优的模型/策略。这些模型旨在最大限度地利用太阳能的热转换所获得的能量。系统一次回路流体的质量流量为控制参数。简要介绍了半经验模型和最优控制方法。储罐的体积很重要,该体积与集热器面积之间的Vs/Ac比率是DHW系统适当尺寸的关键因素。因此,本文建立了该比值与集热器内流体质量流量的关系,并分析了能量性能(传递给储罐的有用热流密度、传递给水的热流密度、储罐内水温)随储罐体积的变化规律。对罗马尼亚蒂米什瓦拉地区2009年7月以来具有不同相对日照值σ的夏季瞬时(15秒)气象资料进行了分析。在稳定程度不同的日子(稳定或不稳定的日子)之间观察到重要的差异。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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