Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Knowledge mapping and research progress on personal cooling garments (PCGs) for energy saving from 2002 to 2022 based on literature review and bibliometric analysis
https://orcid.org/0000-0002-9364-8222
Graphical abstract Display Omitted
Highlights Current PCGs exhibit a diversified form with varied cooling strategies. The development of radiative cooling materials is a hotspot for new materials used in PCGs. The “performance” of the PCGs is the keyword with the most frequent occurrence. Developing multidisciplinary composite and innovative PCGs is the future direction.
Abstract Personal cooling garments (PCGs) can reduce heat stress in the human body by cooling the micro-environment beneath clothing and help to save space cooling energy. A comprehensive literature review and a bibliometric study were conducted to understand the theoretical background, primary design strategies, current research hotspots and future directions pertaining to PCGs. The visualization method was employed to analyze 1144 selected publications related to PCGs sourced from the core database of Web of Science spanning 2002 to 2022. Results indicated that the current PCGs exhibit a diversified form with varied cooling strategies realized by developing new cooling materials, devices, and their combinations. The development of the PCGs has displayed rapid growth and spanned multiple fields (e.g., materials science). Co-citation analysis revealed that radiative cooling materials have gained significant attention, marking them as research hotspots. Keyword co-occurrence analysis indicates that “performance”, with the most frequent occurrence, implying its pivotal role in PCG design. Based on cluster analysis, we have built an overall knowledge framework of the PCGs, including the development and performance evaluation of the PCGs, thermal regulation of the human body, as well as application and cooling scenarios. Future research is also predicted to develop multidisciplinary composite and innovative PCGs with the applications of new materials and microdevices. The findings of this study stand to offer a pragmatic reference for the future PCG design.
Knowledge mapping and research progress on personal cooling garments (PCGs) for energy saving from 2002 to 2022 based on literature review and bibliometric analysis
https://orcid.org/0000-0002-9364-8222
Graphical abstract Display Omitted
Highlights Current PCGs exhibit a diversified form with varied cooling strategies. The development of radiative cooling materials is a hotspot for new materials used in PCGs. The “performance” of the PCGs is the keyword with the most frequent occurrence. Developing multidisciplinary composite and innovative PCGs is the future direction.
Abstract Personal cooling garments (PCGs) can reduce heat stress in the human body by cooling the micro-environment beneath clothing and help to save space cooling energy. A comprehensive literature review and a bibliometric study were conducted to understand the theoretical background, primary design strategies, current research hotspots and future directions pertaining to PCGs. The visualization method was employed to analyze 1144 selected publications related to PCGs sourced from the core database of Web of Science spanning 2002 to 2022. Results indicated that the current PCGs exhibit a diversified form with varied cooling strategies realized by developing new cooling materials, devices, and their combinations. The development of the PCGs has displayed rapid growth and spanned multiple fields (e.g., materials science). Co-citation analysis revealed that radiative cooling materials have gained significant attention, marking them as research hotspots. Keyword co-occurrence analysis indicates that “performance”, with the most frequent occurrence, implying its pivotal role in PCG design. Based on cluster analysis, we have built an overall knowledge framework of the PCGs, including the development and performance evaluation of the PCGs, thermal regulation of the human body, as well as application and cooling scenarios. Future research is also predicted to develop multidisciplinary composite and innovative PCGs with the applications of new materials and microdevices. The findings of this study stand to offer a pragmatic reference for the future PCG design.
Knowledge mapping and research progress on personal cooling garments (PCGs) for energy saving from 2002 to 2022 based on literature review and bibliometric analysis
https://orcid.org/0000-0002-9364-8222
Graphical abstract Display Omitted
Highlights Current PCGs exhibit a diversified form with varied cooling strategies. The development of radiative cooling materials is a hotspot for new materials used in PCGs. The “performance” of the PCGs is the keyword with the most frequent occurrence. Developing multidisciplinary composite and innovative PCGs is the future direction.
Abstract Personal cooling garments (PCGs) can reduce heat stress in the human body by cooling the micro-environment beneath clothing and help to save space cooling energy. A comprehensive literature review and a bibliometric study were conducted to understand the theoretical background, primary design strategies, current research hotspots and future directions pertaining to PCGs. The visualization method was employed to analyze 1144 selected publications related to PCGs sourced from the core database of Web of Science spanning 2002 to 2022. Results indicated that the current PCGs exhibit a diversified form with varied cooling strategies realized by developing new cooling materials, devices, and their combinations. The development of the PCGs has displayed rapid growth and spanned multiple fields (e.g., materials science). Co-citation analysis revealed that radiative cooling materials have gained significant attention, marking them as research hotspots. Keyword co-occurrence analysis indicates that “performance”, with the most frequent occurrence, implying its pivotal role in PCG design. Based on cluster analysis, we have built an overall knowledge framework of the PCGs, including the development and performance evaluation of the PCGs, thermal regulation of the human body, as well as application and cooling scenarios. Future research is also predicted to develop multidisciplinary composite and innovative PCGs with the applications of new materials and microdevices. The findings of this study stand to offer a pragmatic reference for the future PCG design.
Knowledge mapping and research progress on personal cooling garments (PCGs) for energy saving from 2002 to 2022 based on literature review and bibliometric analysis
Tian, Miao (Autor:in) / Jiang, Qingyun (Autor:in) / Xie, Hua (Autor:in)
Energy and Buildings ; 304
22.12.2023
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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