学术报告会

   发布时间: 2017-04-24    已访问: 13

英国考文垂(Coventry)大学 Babatunde Anifowose 博士学术报告

报告题目:Oil and gas pipeline safety in urban cities-managing stochastic incidents

时间:2017年4月26日,上午9:00

地点:明行楼345

报告人简介:

 Babatunde Anifowose PhD, CEnv. 

Senior Lecturer/Course Director, MSc Petroleum and Environmental Technology. Babatunde Anifowose is a Chartered Environmentalist whose research work experience dates back to about 17 years ago on a World Bank commissioned project on Rural Travels and Rural Transport Infrastructure in the riverine areas of selected oil producing communities in Nigeria’s Niger- Delta. He has been involved in a multinational company funded industry project to unravel how localised river hydrodynamics may have influenced oil behaviour. Dr Anifowose also served as an adviser to DFID’s Commonwealth Scholarship Commission on the quality of scholarship applicants and their suitability for UK post-doctoral fellowships in the field of Environmental Science relating to oil pollution. He currently supervises a number of PhD research projects in cognate areas. He is an invited peer-reviewer for a number of Elsevier Journals.



英国考文垂(Coventry)大学 陈永芳教授学术报告

报告题目:We are prepared and ready to face up to the challenges of new risks.

时间:2017年4月26日,下午13:30

地点:武进校区W11阶

报告人简介:

 Yung-Fang Chen PhD 

Senior Lecturer in Disaster Management and Emergency Planning / Director of Centre for Disaster Management and Hazards Research, Applied Research Group

School of Energy, Construction and Environment, Faculty of Engineering, Environment and Computing, Coventry University, England

Dr Yung-Fang Chen is Senior Lecturer at Coventry University, Director of Centre for Disaster Management Applied Research Group. The focus of her research is on the methodology of planning and evaluating emergency response training and exercises. Her current projects include tasks for post disaster assistance, in particular, shelter and housing and community reconstruction. She is also involved in training university students to deliver disaster risk reduction training for primary school children. Other research interests include e-learning pedagogy, risk assessment and risk communication.



英国考文垂(Coventry)大学 方跃平 博士学术报告

报告题目:高级建筑门窗研究的最新进展 (Current Development of Advanced Glazing)

报告人:方跃平 博士 英国考文垂大学 (能源,建筑与环境系)School of Energy, Construction and Environment, Coventry University,UK)

报告时间:2017年 4月25日

报告地点:明行楼

Abstract: The UK government report demonstrated that the buildings and construction consume 40% of UK’s energy and contribute 40% of UK’s carbon dioxide emission. Based on significant scientific research, the UK government report also predicted that by applying technologies such as high performance windows, doors, cabinet wall and roof of buildings, improving energy efficiency can reduce energy consumption and carbon dioxide emission by 30%, which is the most cost effective way to reduce energy consumption and carbon dioxide, compared to other methods such as building up new buildings and new modern power plant. Since 1/3 of building energy lost is through window, development of high performance window is critical. The team of Coventry University has developed a serious advanced glazing which significantly can reduce thermal transmission U-value of window and provide thermal comfort for the building occupant. The U-values of single glazing and commercialized double glazing in the market are 5.8 Wm-2K-1 and 2.5 Wm-2K-1 respectively; those of double and triple vacuum glazing developed at Ulster University are 0.8 Wm-2K-1 and 0.3 Wm-2K-1 respectively. The heat lost through these advanced glazing is significantly reduced.          

报告摘要:据英国政府报告报导建筑消耗40%的国家能源,排放40%的二氧化碳。该报告还指出应用高性能建筑门窗,带隔热层墙体和天花板可以减少30%的能源消耗和二氧化碳排放。与其它技术相比,改进能源效率是减少能源消耗和二氧化碳排放最经济的方法,因为三分之一的热能是从窗户损失的,所以开发高性能门窗是关键的环节。考文垂大学的研究团队已经研究开发了一系列高级建筑门窗,可以极大地降低窗户的热传递系数,为建筑居住者提供舒适的温度。传统的单层玻璃窗的热传递系数是5.8 Wm-2K-1,双层玻璃窗的系数为 2.5 Wm-2K-1。目前,考文垂大学已开发的双层和三层玻璃真空窗的热传递系数分别是0.8 Wm-2K-1 和 0.3 Wm-2K-1,明显降低了真空窗的热损失。



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