报告题目:建筑碳排放测算、监控和减排
Title:Carbon estimation, monitoring and reduction for buildings
报告人:香港理工大学建筑及房地产学系副教授滕越博士
Speaker:Dr. Teng Yue,Associate Professorof the Department ofBuilding &Real Estate, Faculty of Constructionand Environment, theHong Kong PolytechnicUniversity (HKPolyU)
讲座时间:2024年12月6日(星期五)14:00-16:00
Time:14:00-16:00,December6, 2024
讲座地点:深圳大学粤海校区(南区)致理楼L3-716
Location:L3-716,Yuehai Campus,Shenzhen University
报告人简介:
滕越博士现任香港理工大学建筑及房地产学系副教授。她的研究方向包括装配式建筑和建筑碳中和。滕博士作为项目负责人已主持九个研究项目,资助总额超过700万港币,包括香港研究资助局优配研究金、中国国家自然科学基金青年基金、碳中和资助计划等。在学术期刊上发表了20余篇论文,累计被引用1400余次。她还获得多个最佳论文奖,例如中华建设管理研究会、CIB World Building Congress以及建设与房地产管理国际学术研讨会等。
Dr. Yue Teng is currently anAssociateProfessor at the Department of Building and Real Estate (BRE), the Hong Kong Polytechnic University (PolyU). Her research interests mainly focus on net zero carbon and construction industrialization. Dr. Teng has obtained nine research projects as a Principal Investigator (PI) with grants of over7million Hong Kong dollars, including the General Research Fund (GRF), the National Natural Science Foundation of China (NSFC), the Carbon Neutrality Funding Scheme, and so on. Dr. Teng has authored over25papers published in peer-reviewed academic journals, with 1900+ citations. She also held several best paper awards, e.g., CRIOCM 2022 and 2023, the CIB World Building Congress 2022, ICCREM 2024.
报告摘要:
建筑物占全球与能源相关碳排放的39%,其中11%是与材料生产、运输和建筑施工相关的隐含碳。尽管对建筑物碳排放的研究日益增多,但由于碳评估中系统边界定义不明确,以及采用多样化方法,导致研究结果不一致且难以比较。建筑物的隐含碳评估仍是一个劳动密集型过程,责任和可追溯性有限。滕博士将介绍她在香港高层建筑隐含碳评估、监测和减排方面的研究。涵盖了碳评估的系统边界以及多层次系统碳评估模型。为确保碳评估和监测的可信度与效率,研究了智能技术集成系统,该系统结合了物联网(IoT)、建筑信息建模(BIM)和区块链技术。此外,还将介绍几种低碳解决方案。
Buildings account for 39% of energy-related carbon emissions worldwide, and 11% of them are embodied carbon (EC) associated with material production, transportation, and building construction.While research assessing the carbon associated with buildings is growing, the absence of clearly defined system boundaries in the carbon assessment, along with the use of diverse methods, results in inconsistent and incomparable findings. Embodied carbon assessment of buildings remains a labor-intensive process with limited accountability and traceability.
Dr. Tengwill introduce her research on theembodied carbon assessment,monitoringand reductionfor high-rise buildingsin Hong Kong. Itwill inducethe system boundaries of carbon assessment and a novel systemic multi-leveled carbon assessment model. To ensure trustworthiness and efficiency in carbon assessment and monitoring, a smart-tech integrated system that integrates the Internet-of-Things (IoT), Building Information Modeling (BIM), and blockchain technologies are developed.Several low carbon solutions will beexplained.
