喜报:我校李艳菊副教授指导城乡规划专业本科生第一作者在A&HCI期刊《Journal of Asian Architecture and Building Engineering》网络首发科研论文
论文题目为“The transformation of microclimate adaption in public spaces by smart ventilation approach: a case study of Eastern Banlieue Memory Industrial Park, China”。该教研成果为2022年世界智慧可持续城市组织(WeGO)举办“世界青年智慧城市创新大赛”中国区前三名CDUT-Warriors竞赛作品的后续研究成果,科研团队成员由指导教师李艳菊副教授(通讯作者),2019级城乡规划专业本科生谢昊(第一作者)、刘勇杰、钟佩卿、刘欢欢、李朝龙、谢恩康组成。该论文获得国际专家评审为高度原创论文,在我校本科生作为第一作者发表A&HCI期刊论文尚属首次,也是我校教学质量工程项目实施以来的教学科研成果(2022YJG027)。
该论文摘要如下:
【Abstract】 With the normalization of the COVID-19 pandemic prevention and control, there is an urgent need to develop a healthy urban public space. However, because of the fast urbanization process with a series of problems, such as PM2.5 air pollution, the Urban Heat Island, and the relatively high frequency of static winds under the influence of its topography, the ventilation problem in the public spaces of Chengdu is of great importance. Along these lines, in this work, the history of theoretical research on urban ventilation is summarized and reviewed first to evaluate the urban wind environment. Second, so far, qualitative methods are mainly adopted for the evaluation methods of microclimate adaptation. However, the practical application has achieved few results. Meanwhile, there is still a lack of comprehensive and unified research on the multi-element of human microclimate comfort in public space. For this reason, the urban ventilation assessment system was established in this work according to the physical, physiological, and psychological aspects, with 9 indices selected and ranked. Then, an optimization strategy for rebuilding the urban public space was proposed for improving the wind environment microclimate adaption on three levels: macro city-regional level, meso block linear space, and micro space node. By taking Eastern Banlieue Memory Industrial Park as an example, the statistical data were systematically investigated on the spot from the results of 249 wind environment questionnaires, and 30 Delphi expert consultation questionnaires. Combined with the Computational Fluid Dynamics (CFD) simulation, the results reveal that most public spaces in the study area were below 0.6 m/s in more than 80% of the public space, and wind-based environmental problems obviously exist without any ventilation improvement measures. Combined with the background of the carbon peak era, the ventilation environment of the urban public space is not conducive to using active ventilation equipment. The solution of a complete set of regional intelligent ventilation systems was thoroughly discussed here, while some innovative sustainable systematic solutions and urban ventilation furniture combined with a geothermal heat pump and cloud data platform were formulated.
该教研项目获得2020年四川省留学人员科技活动项目择优资助计划、四川省哲学社会科学基金(SC22B173)、成都理工大学中青年骨干教师计划支持。通过多年的产学研实践,目前已经形成良好的“教学——科研——竞赛——论文”培养链条。该成果调研报告“太阳神鸟”——基于低碳智慧通风的成都市公共空间微气候适应性改造”将参加第十八届“挑战杯”全国大学生课外学术科技作品赛事,预祝再创佳绩。
感谢WeGO世界智慧可持续城市组织、成都人民政府外事办公室、成都理工大学国际交流与合作处给予师生团队的竞赛机会和成绩认可;感谢成都理工大学地质灾害防治与地质环境保护国家重点实验室给予三维激光扫描仪设备支持;成都理工大学旅游与城乡规划学院给予无人机、眼动仪、风速仪等设备支持;MSC Hexagon (北京) 公司提供软件支持。
1.原文链接:https://doi.org/10.1080/13467581.2023.2189453。
2.WeGO参赛作品简介参见“国际蓉”微信公众号“元宇宙、区块链、物联网——看全球青年智慧创变世界”【2022-06-24】文章。
3.成都理工大学国际交流与合作处微信公众号“喜报:旅规院学生在2022世界青年智慧城市创新大赛中荣获佳绩”【2022-07-01】文章。
4.世界智慧可持续城市组织成都东亚地区代表处和成都市人民政府外事办公室于2022年7月4日致贺电。
