Verfahren zur Herstellung eines multifunktionalen Betonbauteils

IF 0.3 4区工程技术 Q4 CONSTRUCTION & BUILDING TECHNOLOGY

Bauphysik Pub Date : 2025-07-31 DOI:10.1002/bapi.202500010

Prof. Dr.-Ing. Asko Fromm, Dipl.-Ing. Rolf Gross, M.Eng. Melanie Schomann, Dr.-Ing. Jagoda Smogor, Dipl.-Des. (FH) Florent Keller

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Abstract

Optimization of the heat storage capacity of load-bearing concrete components

Phase change materials (PCMs) are becoming increasingly important in the construction sector due to their potential for adjusting the indoor climate. They help to regulate building temperatures by storing excess heat when it is too warm and releasing it again when it gets cooler. This leads to a more even and comfortable indoor climate and reduces dependence on conventional heating and cooling systems. In connection with the challenges of climate change, PCMs are becoming increasingly important. The development of a process to specifically increase the heat storage capacity of load-bearing concrete components was funded by the Federal Ministry for Economic Affairs and Climate Protection (BMWK) as a ZIM cooperation project (PCMZ). The aim was to partially optimize the storage capacity of a concrete component by spatially enriching it with PCM particles, as an evenly distributed enrichment leads to considerable losses in the strength of the concrete. The production of these multifunctional components should therefore be carried out using additive manufacturing processes. The gain in storage capacity on the one hand and the loss in strength on the other were investigated as part of the project.

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制造多功能混凝土构件的工艺

优化承重混凝土构件的蓄热能力相变材料（pcm）由于其调节室内气候的潜力，在建筑领域变得越来越重要。它们通过在温度过高时储存多余的热量，并在温度较低时再次释放热量，从而帮助调节建筑物的温度。这使得室内气候更加均匀舒适，减少了对传统供暖和制冷系统的依赖。针对气候变化的挑战，pcm正变得越来越重要。德国联邦经济事务和气候保护部（BMWK）作为ZIM合作项目（PCMZ）资助了专门提高承重混凝土构件储热能力的工艺开发。其目的是通过在空间上富集PCM颗粒来部分优化混凝土构件的存储能力，因为均匀分布的富集会导致混凝土强度的相当大的损失。因此，这些多功能部件的生产应使用增材制造工艺进行。作为项目的一部分，研究了一方面存储容量的增加和另一方面强度的损失。

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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来源期刊

Bauphysik 工程技术-结构与建筑技术

CiteScore

0.80

自引率

33.30%

发文量

审稿时长

6-12 weeks

期刊介绍： Seit 35 Jahren ist Bauphysik die einzige deutsche Fachzeitschrift, die alle Einzelgebiete der Bauphysik bündelt. Hier werden jährlich ca. 35 wissenschaftliche Aufsätze und Projektberichte mit interdisziplinärem Hintergrund veröffentlicht und aktuelle technische Entwicklungen vorgestellt. Damit ist die Zeitschrift Spiegel der Forschung in Wissenschaft und Industrie und der Normung, mit starken Impulsen aus der Planungspraxis. Themenüberblick: Wärmeschutz Feuchteschutz Schallschutz und Raumakustik Brandschutz Tageslicht Stadtbauphysik Energiesparendes Bauen und Raumklima Berechnungs- und Simulationsverfahren Technische Regelwerke Innovative Lösungen aus der Industrie