热活化组分的高太阳能分数

Conference proceedings ISEC 2018 Pub Date : 2018-10-03 DOI:10.18086/EUROSUN2018.06.11

T. Ramschak, Walter Becke, Christian Fink, W. Lerch, R. Heimrath, T. Mach

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引用次数: 0

摘要

近年来，热激活建筑元件(TABs)在建筑领域得到了成功的应用。从能源的角度来看，当与太阳能热装置或热泵结合使用时，这种低温系统特别有益。在国家资助计划和研发项目的范围内，研究了热活化建筑元素的集约使用，作为不同建筑的主要储热装置，重点是与太阳能技术(热、光伏)的结合，以提供能源。基于已实现建筑的测量数据和理论方法的调查，在技术，经济和生态标准下分析了单户(SFH)和多户住宅(MFH)的太阳能热或光伏热激活组件的各种技术系统概念。结果表明，通过激活和利用建筑质量中包含的蓄热潜力，可以实现高达100%的建筑热需求的高太阳能分数。

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HIGH SOLAR FRACTION BY THERMALLY ACTIVATED COMPONENTS

Thermally activated building elements (TABs) are employed successfully in the building sector in recent years. From an energetic point of view, such low temperature systems are especially beneficial when combined with solar thermal installations or heat pumps. Within the scope of national funding programs and R&D projects the intensive use of thermally activated building elements is investigated, as main thermal storage in different buildings, with focus on the combination with solar technologies (thermal, photovoltaic) for energy supply. Investigations based on measuring data from realised buildings and on a theoretical approach, various technical system concepts with solar thermal or photovoltaic in combination with thermally activated components for single(SFH) and multifamily houses (MFH) were analysed under technical, economic and ecological criteria. The results show that through the activation and use of the thermal storage potential contained in the building mass, high solar fractions up to 100 % of the building's heat demand can be achieved.

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Conference proceedings ISEC 2018

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