Research on the Application of New Energy and Low-carbon Technologies in the Repair of Concrete Surface Defects

Authors

  • Yanxia Li Changzhou Vocational Institute of Engineering Changzhou, Jiangsu (China) Author

DOI:

https://doi.org/10.52152/4054

Keywords:

Low-carbon Energy, Photovoltaic Heating, Concrete, Surface Defects, Repair

Abstract

Photovoltaic heating is a new energy technology, which plays an obvious role in concrete curing, which can shorten the curing time of concrete. However, the role of this technology in concrete surface repair is not clear. In order to expand the application scope of low-carbon energy, this paper takes concrete surface repair as the research object and conducts photovoltaic heating analysis. Firstly, the data of concrete surface depression were collected, and then the repair effect of photovoltaic heating technology on the concrete surface was analyzed with C30 # as the research object, such as compressive strength, curing time, complex spacing, repair cost and energy consumption. and analyze the range of variation of each indicator; The results show that the photovoltaic heating technology can shorten the curing time by 20% and improve the compressive strength to 50kg/m2 with a complex spacing of less than 20 microns. At the same time, the repair cost and energy consumption are reduced, and the reduction range is 15~18%. Therefore, new energy and low-carbon technologies such as photovoltaic heating can effectively repair concrete surface defects, build on the cost and energy consumption of repair, improve the repair time, and meet the overall requirements of concrete construction.

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Published

2024-08-12

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Section

Articles