A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Research on Zero Carbon Sports Building Technology Strategy in Regions with Hot Summers and Cold Winters
With the arrival of the era of all-people sports and the rapid development of sports venue construction, under the background of “carbon peaking and carbon neutrality”, green and low-carbon construction of sports venues is imperative, and it is urgent to build a suitable and mature zero carbon technology system. In this thesis, a research is conducted on canonical zero carbon sports venues both domestically and internationally, summarizing the application and adaptive forms of zero carbon technology in sports buildings, as well as difficulties in implementation from actual engineering cases. Then, starting from the functional features of sports venues, the focus of energy conservation and emission reduction of sports buildings is clarified through comparative analysis, the appropriate low-carbon technology path for sports buildings in regions with hot summers and cold winters is refined, and its effectiveness is verified by the analysis on a typical actual case, by which the zero carbon strategy concept of “source reduction first, passive design priority, ontology focus, efficiency improvement as the core, and energy enhancement as the wing” is further proposed and refined into 20 key technologies and implementation points, thus constructing a zero carbon sports venue technology system with climate adaptability, and providing technical guidance for the construction of zero carbon sports venues.
Research on Zero Carbon Sports Building Technology Strategy in Regions with Hot Summers and Cold Winters
With the arrival of the era of all-people sports and the rapid development of sports venue construction, under the background of “carbon peaking and carbon neutrality”, green and low-carbon construction of sports venues is imperative, and it is urgent to build a suitable and mature zero carbon technology system. In this thesis, a research is conducted on canonical zero carbon sports venues both domestically and internationally, summarizing the application and adaptive forms of zero carbon technology in sports buildings, as well as difficulties in implementation from actual engineering cases. Then, starting from the functional features of sports venues, the focus of energy conservation and emission reduction of sports buildings is clarified through comparative analysis, the appropriate low-carbon technology path for sports buildings in regions with hot summers and cold winters is refined, and its effectiveness is verified by the analysis on a typical actual case, by which the zero carbon strategy concept of “source reduction first, passive design priority, ontology focus, efficiency improvement as the core, and energy enhancement as the wing” is further proposed and refined into 20 key technologies and implementation points, thus constructing a zero carbon sports venue technology system with climate adaptability, and providing technical guidance for the construction of zero carbon sports venues.
Research on Zero Carbon Sports Building Technology Strategy in Regions with Hot Summers and Cold Winters
Ding Yunxia (author) / Qiu Xilan (author) / Cai Jinxing (author)
2025
Article (Journal)
Electronic Resource
Unknown
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