前沿│城市灰绿基础设施多阶规划新路径

作者:时间:2022年11月20日 18:52点击数:

近日,我院风景园林硕士研究生张宇同学作为第一作者于国际顶级期刊《Science of the Total Environment》发表题为《Multi-stage planning of LID-GREI urban drainage systems in response to land-use changes》的研究论文。该研究就灰绿基础设施的多阶段规划建构了实现框架,以香港科技大学(广州)校区空间规划为例,提出了可响应土地利用变化情景不同时间维度导向适应性规划路径,耦合系统的韧性增强路径提供创新方法。该框架可用于支持灰绿基础设施的多阶段规划与投资,有机会为海绵城市及韧性城市建设提供重要的空间决策底座。

该成果共同作者有研究生刘铭和江知雨,得到城市声振与关联风险适应性规划研究团队的培养指导,获广东省自然科学基金2019A1515010873广州市科技项目(2022010104312023广州大学-香港科技大学联合研究合作基金的共同资助。

Science of the Total Environment中科院一顶级期刊2022年影响因子为10.753。该成果的发表为我校风景园林硕士科研工作的新突破。张宇同学在校期间已发表SCI论文4篇,其中3篇为中科院一区顶级期刊,总影响因子接近40

 

 

 

2020级风景园林研究生

[1] Multi-stage planning of LID-GREI urban drainage systems in response to land-use changes [J]. Science of The Total Environment, doi: 10.1016/j.scitotenv.2022.160214.

[2] Designing coupled LID-GREl urban drainage systems: Resilience assessment and decision-making framework [J]. Science of The Total Environment, 2022, 834: 155267.

[3] A Bayesian Decision Model for Optimum Investment and Design of Low-Impact Development in Urban Stormwater Infrastructure and Management [J]. Frontiers in Environmental Science, 2021: 462.

[4] Life-cycle cost analysis and resilience consideration for coupled grey infrastructure and low-impact development practices [J]. Sustainable Cities and Society, 2021, 75: 103358.

[5] Technological and operational resilience in multi-objective optimization of coupled green-grey stormwater infrastructure [J] Earth's Future, Under review.

[6] A comprehensive decision-making framework for Grey-Green coupled stormwater system in response to climate change [J] Water research, Major revision.

[7] Assessing hydrological performance for optimized integrated grey-green infrastructure in response to climate change based on shared socio-economic pathways [J]. Sustainable Cities and Society, Under review.

[8] A multi-objective optimization integrating life cycle cost and systematic resilience for planning of holistic grey-green stormwater infrastructure [J]. Sustainable Cities and Society, Under review.

Funding: The Graduate Student Innovation Ability Training Funding Program of Guangzhou University [grant number 2021GDJC-M38].

 

2020级风景园林研究生

[1] Multi-stage planning of LID-GREI urban drainage systems in response to land-use changes [J]. Science of The Total Environment, doi: 10.1016/j.scitotenv.2022.160214.

[2] Designing coupled LID-GREl urban drainage systems: Resilience assessment and decision-making framework [J]. Science of The Total Environment, 2022, 834: 155267.

[3] Technological and operational resilience in multi-objective optimization of coupled green-grey stormwater infrastructure [J] Earth's Future, Under review.

[4] A comprehensive decision-making framework for Grey-Green coupled stormwater system in response to climate change [J] Water research, Major revision.

[5] Assessing hydrological performance for optimized integrated grey-green infrastructure in response to climate change based on shared socio-economic pathways [J]. Sustainable Cities and Society, Under review.

[6] A multi-objective optimization integrating life cycle cost and systematic resilience for planning of holistic grey-green stormwater infrastructure [J]. Sustainable Cities and Society, Under review.

Funding: 2022 Guangzhou University full-time postgraduate "Guangzhou Research" project.

 

江知雨

2021级风景园林研究生

[1] Multi-stage planning of LID-GREI urban drainage systems in response to land-use changes [J]. Science of The Total Environment, doi: 10.1016/j.scitotenv.2022.160214.

[2] A multi-objective optimization integrating life cycle cost and systematic resilience for planning of holistic grey-green stormwater infrastructure [J]. Sustainable Cities and Society, Under review.

 

(稿件来源:刘铭等)