报告题目:Use of three solid wastes/by-products for land reclamation and their stability/durability in seawater
报告人:新加坡南洋理工大学易耀林副教授
讲座时间:2024年7月10日(星期三)10:00-12:30
讲座地点:深圳大学粤海校区(南区)致理楼L1-1007会议室
报告人简介:
Dr. Yaolin Yi is an Associate Professor in the School of Civil and Environmental Engineering, Nanyang Technological University (NTU), and the Deputy Co-Director of Surbana Jurong-NTU Corporate Laboratory, Singapore.He’s current research focuses on (1) sustainable stabilization of problematic soils using industry by-products/wastes, (2) durability of stabilized soils in marine environment, and (3) carbonation of solid wastes for CO2 sequestration and heavy metal immobilization.He is the Secretary of ISSMGE technical committee ‘Sustainability in Geotechnical Engineering (TC307)’ and ASCE Geo-Institute Soil Improvement Committee. He serves Associate Editor for ASCE Journal of Materials in Civil Engineering and Editorial Member for ICE Geotechnical Engineering and Ground Improvement journals.
易耀林博士现为新加坡南洋理工大学土木与环境工程学院副教授,盛裕-南大联合研究院常务副主任。他的研究兴趣包括特殊土地基处理、固化土海洋耐久性、工业废料的碳化处理等。易博士现为国际土力学与岩土工程协会(ISSMGE)专业技术委员会“岩土工程可持续发展(TC307)”秘书长,美国土木工程协会岩土分会(ASCE Geo-Institute)地基处理专业委员会委员,Journal of Materials in Civil Engineering期刊副主编,Geotechnical Engineering和Ground Improvement期刊编委。
报告摘要:
Land reclamation is important for countires with limited land resources, like Singapore, and it requires a huge volume of filling materials. Traditionnal filling materials such as sand are depleting, which urges the discovery of new filling materials. The rapid growth of population and urbanization has also witnessed the increasing solid wastes generation. In this context, it is beneficial to turn the soild wastes into filling materials for land reclamation. This study investigate the feasibility of using three solid wastes/by-products, namely excavated marine clay (MC), incineration bottom ash (IBA), and ground granulated blast-furnace slag (GGBS) as filling materials for land reclamation. Considering the seawater exposure at land reclamation site, the stability of materials in water environments are examined.
