Coastal villages are an important hub for human activities, integrating traditional lifestyle with the needs of modern life. With the increasing attention to reducing carbon footprints, these communities are facing unique challenges and opportunities. Their strategic location and various industrial models make the coastal villages an important contributor to carbon emissions, but also promising candidates who reduce carbon. Understanding specific factors affecting these areas of emissions is essential for formulating effective strategies to minimize its environmental impact.
With the intensification of global climate attention, the attention of the carbon reduction strategy has continued to expand, including rural areas. Due to its unique geographical and economic characteristics, coastal villages have the huge potential of carbon emissions optimization. Dr. Zejun Yu, Dr. Zejun Yu, Dr. Zejun Yu and Dr. Lei REN by Tianjin University. Their discovery was published in “Journal Buildings” and provided valuable insights for the sustainable development of these regions.
Zejun Yu and the team conducted a comprehensive research, focusing on introducing the coastal villages of Hebei Province, China. The study aims to classify carbon emissions, determine key influencing factors, and propose tailor -made reduction strategies. Researchers collected data through on -site research, questionnaire surveys and remote sensing maps to ensure a thorough analysis of carbon emissions of various sources, including agricultural activities, residential life, transportation and waste management.
Researchers use the K-average cluster algorithm to classify the village according to their carbon emissions characteristics. This method allows the identification of three main clusters, and each cluster has a unique launch curve. The results show that construction energy consumption and transportation are the biggest contributors to carbon emissions, followed by agricultural activities and waste management. In particular, the construction of energy consumption and waste emissions in a cluster is the highest, while agricultural and transportation emissions occupy another cluster.
QU said: “Our research shows that different types of villages need tailor -made methods to effectively reduce carbon emissions.” The classification of the study laid the foundation for each type of village to develop a specific reduction of carbon strategies. The study also explored the correlation between various factors and carbon emissions by returning analysis. Analysis of key factors such as population scale, cultivated land area, number of livestock and energy consumption to understand their impact on overall emissions. This analysis provides a detailed understanding of the driving force behind the types of carbon emissions of different villages.
The discovery of the research team emphasizes the key role of low -carbon planning in coastal villages. Due to the better infrastructure and economic foundation, these villages have huge potential to reduce carbon emissions. By focusing on optimizing energy consumption, improving the practice of waste management and promoting sustainable agricultural practice, coastal villages can make significant contributions to reducing the goals of the country and the world.
All in all, Zejun Yu, Guanhua Q and his colleagues comprehensively analyzed carbon emissions of coastal villages, and proposed targeted reduction strategies. The study emphasizes the importance of tailor -made methods in dealing with the unique challenges and opportunities of different villages. With the continuous development of the global climate crisis, such research provides valuable insights and practical solutions for sustainable rural development.
Journal reference
YU, Z., Q, G., Li, Z., Wang, y. , & Ren, L. Carbon launch ingredients and reduce the potential of coastal villages under the background of low -carbon. Building, 2023, 13, 2925. Doi: https: //doi.org/10.3390/buildings13122925
About the author
Guanhua du He obtained his doctorate degree he is currently employed by the School of Architecture of Tianjin University. He has the LEED AP: BD+C authentication and IWBI -granted well AP certification granted by USGBC. In addition, he also served as a reviewer of multiple journals and a member of the Editorial Committee of the International Conference. His main research fields include the effects of visual physiological characteristics of human -oriented factors, the physiological impact of indoor environment on human and environmental assessment. In these areas, he published more than 30 papers, applied for more than 10 invention patents, and led or participated in more than 10 research projects.
Zejun yu He is a doctoral candidate at the Institute of Architecture Technology of Tianjin University. His main research interest is to establish light ecology and energy conservation. At present, he is mainly engaged in exploring the current status of carbon emissions in China’s rural areas, and has designed the best development path of carbon emissions in rural areas, and has studied and published several important papers in the field. His scientific focus is on the current status and best development path of carbon emissions in Beijing-Tianjin-Hebei, China.
KingScholars at Tsinghua University focused on the research of smart buildings and BIM technology. She is a scientific research manager of the Scientific Research and Management Department, a member of the Smart Construction Department of the China Construction Standardization Association (CECS), an engineer, a contract author of the new magazine “Housing and Real Estate”, and a member of the expert Zoominglian Standard acquisition committee. She participated in the compilation of 2 lives and intelligent building standards, published more than 30 academic papers, 6 public business model patents, drafted 2 industry magazines, and participated in more than 10 research topics.
Lei ren He is a doctoral candidate at the School of Architecture of Tianjin University. She has the LEED AP: BD+C authentication and IWBI -granted well AP certification granted by USGBC. Her main research interest focuses on human factors that affect the indoor environment, as well as detection and prediction of environmental factors. She has been engaged in these fields for more than six years, published more than 20 papers, and applied for more than 10 invention patents. Her main core achievement is to reveal the effect of visual physiological factors on visual perception.
