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Assessing thermo-physical products' efficiency in the building and construction industry: a bibliometric analysis approach

期刊

ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH
卷 30, 期 7, 页码 16867-16877

出版社

SPRINGER HEIDELBERG
DOI: 10.1007/s11356-022-25103-0

关键词

Thermal properties; Thermal insulation materials; Energy and building; Bibliometric analysis

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This study aims to evaluate the performance of thermophysical materials in the construction industry and provide an academic basis for understanding trends, developments, and current state of research in this field. The Scopus database was used to analyze 159 papers published between 1968 and 2021 from 60 countries. The International Organization for Standardization has provided significant information on thermal insulating materials, products, components, and applications. Different forms of insulation exist, including solid-state foam insulation, liquid-state insulation, and gasifier form, each with its own characteristics and considerations for energy efficiency.
This study aims to assess the performance of thermophysical materials in the construction and building industry to establish the necessary academic basis for the interpretation of trends, developments, and status in this research field. The Scopus database contains 159 papers on this topic, which were published between 1968 and 2021 and originated in 60 countries. The International Organization for Standardization published significant information on thermal insulating materials, merchandize, elements, and applications. Several forms of insulation currently exist: (i) solid-state foam insulation composed of fibers, grains, and matrix; (ii) liquid-state insulation that encloses humidity within the filling; and (iii) gasifier form, which incorporates air, steam, or alternative gases. To reduce the amount of energy demanded, thermal insulation materials must be extended, current solutions must be modified, and new materials must be developed. Because high-temperature thermal insulation materials have more complex working conditions than alternative materials, their application requires further consideration.

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