We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
Optimization of Thermal Performance in Green Building Materials Based on Thermodynamic Principles.
- Authors
Shuling Liang
- Abstract
With the intensifying global energy crisis and environmental issues, the energy consumption and environmental impact of the construction sector have garnered significant attention. The development and application of green building materials have become crucial research areas. Traditional building materials cause substantial resource waste and environmental pollution during production, usage, and disposal. In contrast, green building materials based on thermodynamic principles, owing to their superior thermal performance and energy storage capabilities, have gradually gained attention. This paper aims to systematically optimize the thermal performance of green building materials through a research approach grounded in thermodynamic principles. The study consists of two main parts: first, constructing the control equations for the phase change thermal storage process of green building materials, and analyzing the thermodynamic characteristics during the phase change process in detail; second, conducting an in-depth analysis of the heat transfer process in phase change thermal storage green building materials to explore their thermal performance in practical applications. Despite extensive research on the thermal performance of green building materials, there are still shortcomings in the systematic analysis and optimization of material thermal performance, and existing research methods often fail to comprehensively and accurately reflect the actual thermal behavior of materials. This paper aims to provide a scientific basis for the optimized design of green building materials, further promoting their application and development in the construction field.
- Subjects
CONSTRUCTION materials; SUSTAINABLE architecture; BUILDING performance; HEAT storage; ENERGY consumption; SUSTAINABLE development; ENERGY shortages
- Publication
International Journal of Heat & Technology, 2024, Vol 42, Issue 3, p739
- ISSN
0392-8764
- Publication type
Article
- DOI
10.18280/ijht.420303