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AEESP讲座
Andreas Lendlein波茨坦大学
“空气中的粒子以各种形状、大小和化学成分存在。有些是天然的,有些是人类活动排放的,还有一些是在大气中由气体形成的。这些气体也可以是自然的或人为的。一旦在空气中传播,粒子在与表面相互作用并沉积之前,可以被风携带数百甚至数千公里。在这次演讲中,我们研究了大气粒子与各种表面相互作用的许多方式——自然植被、农业作物、景观美化、裸露的土壤、水、雪地和城市硬质景观表面。当预测微粒物质的最终命运时,这种理解是很重要的,无论这些微粒是被吸入并到达人体呼吸系统,还是它们是否沉积在表面并造成损害。在所有来自大气的沉降情况下,气流主流携带的颗粒必须以某种方式被输送到靠近地面的准层流边界层,然后必须穿过边界层停留在地面上。这两个步骤,以及粒子从表面反弹回气流中的第三个步骤,定义了沉积过程。对于高度小于几米的大面积均匀植被,风场和边界层特征是众所周知的,并且可以根据不同的粒径和风速预测植被上的沉积。对于更复杂的植被,如森林冠层,我们通常采用经验方法来估计沉积。 For water surfaces, the hygroscopicity of the particles may need to be taken into account. Deposition on large lakes and the oceans must also account for wave action. Deposition to snow is complicated by the porous nature of the surface, and the fact that the surface area of individual snow crystals may influence the motions of very small particles. Finally, estimating deposition to buildings, roads, and other urban surfaces can be a challenge due to the changes in geometry of the surface over short distance scales. We discuss the special case of estimating particle deposition onto urban surfaces, include a large extensive green roof. Both modeling and measurement of particle interaction with surfaces is presented, and use of well-controlled experimental surfaces in wind tunnels as well as in the ambient atmosphere is discussed as a means of improving our understanding of the deposition process. A separate tutorial covering the airflow and rain impinging on a green roof in Syracuse, NY will be presented. The tutorial will explain the capabilities of a new website showing real-time data and archived data from the green roof. The website is intended for use in the classroom to help students understand the physical processes taking place on a green roof and the functions of a green roof.”
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教授悬崖戴维森是纽约州锡拉丘兹大学土木与环境工程系托马斯和科琳·威尔莫特教授。他还担任环境工程项目主任和可持续工程中心主任。他获得了卡内基梅隆大学(Carnegie Mellon University)的电气工程学士学位,以及加州理工学院(California Institute of Technology)的环境工程科学硕士和博士学位。在获得博士学位后,他加入了卡内基梅隆大学土木工程系(现为土木与环境工程系)和工程与公共政策系,在那里工作了33年。他于2010年加入雪城大学。他在同行评议的期刊上发表了140篇论文,在会议、研讨会和研讨会上发表了大约200篇演讲。他是四个组织的成员:美国气溶胶研究协会(AAAR)、环境工程和科学教授协会(AEESP)、美国土木工程师协会(ASCE)和锡拉丘兹环境和能源系统卓越中心。1999-2000年,他担任AAAR的总裁。戴维森的长期研究兴趣是环境污染物的运输和命运,特别是大气中的酸和重金属。最近,他研究了工程师在可持续发展中的作用,重点是绿色基础设施。 He has also studied changes in education needed to train an engineering workforce for the 21st century.
问题吗?请联系詹妮弗·许,经理,对外关系jennifer.hsu@utoronto.ca.
