Analysis of Landscape Water Restoration Strategy in Loess Area Based on LID

CAO Shengxi; ZHANG Tao; ZHANG Yukun; ZHANG Xing

doi:10.13204/j.gyjzG21070907

Volume 53 Issue 2

Feb. 2023

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CAO Shengxi, ZHANG Tao, ZHANG Yukun, ZHANG Xing. Analysis of Landscape Water Restoration Strategy in Loess Area Based on LID[J]. INDUSTRIAL CONSTRUCTION, 2023, 53(2): 72-78,41. doi: 10.13204/j.gyjzG21070907

Citation:

CAO Shengxi, ZHANG Tao, ZHANG Yukun, ZHANG Xing. Analysis of Landscape Water Restoration Strategy in Loess Area Based on LID[J]. INDUSTRIAL CONSTRUCTION, 2023, 53(2): 72-78,41. doi: 10.13204/j.gyjzG21070907

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Analysis of Landscape Water Restoration Strategy in Loess Area Based on LID

doi: 10.13204/j.gyjzG21070907

1. Norendar International Ltd., Shijiazhuang 050000, China;
2. School of Architecture, Tianjin University, Tianjin 300072, China

Received Date: 2021-07-09
Available Online: 2023-05-25
Publish Date: 2023-02-20

Abstract

Abstract

With the acceleration of urbanization, a variety of ecological and environmental problems began to appear, especially in recent years. Under this background, LID (low impact development) has become a hot issue in landscape architecture industry.China is the most widely distributed loess country in the world, so the loess landscape has become an indispensable part of the landscape in China.Loess geology is prone to mutation, discontinuity and irreversibility, which makes it difficult to control flood peak discharge, runoff pollution and rainwater regulation.Aiming at the above special challenges,according to the site environment, through a series of analysis such as GIS, this paper selected LID measures to integrate the environment. In addition, aiming at the special geological condition of loess, artificial transformation was carried out according to local conditions to create ecological green landscape with unique northern landscape artistic conception. Based on the data model of GIS and MIKE, the rain flood of LID scheme of the project was evaluated and analyzed. After the transformation, the flood peak control, runoff pollution and rainwater regulation and storage capacity in the design site could meet the design expectations, which proved that it was feasible to integrate the scientific LID technology into the loess condition.
- collapsible loess landscape,
- LID,
- landscape restoration strategy

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References(24)

References

[1]	何常清.基于低影响开发的雨洪管理模式思考[J].江苏城市规划,2014(8):42-43,48.
[2]	王峤,臧鑫宇,曾坚.高密度中心城区暴雨防灾规划体系及策略研究[J].风景园林,2018,25(6):24-29.
[3]	任韶华. 现代城市内涝频发下的防涝体系及防涝设施规划研究[D].西安:西安建筑科技大学,2015.
[4]	景天奕. 海绵城市目标下的居住区低影响开发系统模型设计[D].南京:南京大学,2016.
[5]	CAMPISANO A, CATANIA F V, MODICA C. Evaluating the SWMM LID editor rain barrel option for the estimation of retention potential of rainwater harvesting systems[J]. Urba Waber Journal, 2017, 14(8):876-881.
[6]	王敏,侯晓晖,汪洁琼.基于传统生态智慧的江南水网空间韧性机制及实践启示[J].风景园林,2018,25(6):52-57.
[7]	黄剑,张杰龙.让自然做功的河道生态修复:以呼和浩特大黑河城区段景观概念规划为例[J].风景园林,2018,25(10):86-91.
[8]	张益章. 基于低影响开发的景观规划设计[D].北京:清华大学,2015.
[9]	魏翔燕. 基于低影响开发的雨水景观设计[D].北京:北京林业大学,2016.
[10]	景天奕. 海绵城市目标下的居住区低影响开发系统模型设计[D].南京:南京大学,2016.
[11]	BEECHAM S. Water sensitive urban design and the role of compute modelling[C]//International Conference on Urban Hydrology for the 21st Century. Kuala Lumpur:2002:21-45.
[12]	ELLIOTT A H, TROWSDALE S A. A review of models for low impact urban stormwater drainage[J]. Environmental Modelling and Software,2005,22(3):394-405.
[13]	胡爱兵,任心欣,俞绍武,等.深圳市创建低影响开发雨水综合利用示范区[J].中国给水排水,2010,26(20):69-72.
[14]	郑克白,范珑,张成,等.北京奥林匹克公园中心区雨水排放系统设计[J].给水排水,2008(8):85-92.
[15]	张辰,邹伟国.世博园区雨水收集利用技术[J].建设科技,2010(11):34-36.
[16]	张进丽. 基于海绵城市的黄土地区低影响开发雨水系统研究[D].兰州:兰州交通大学,2020.
[17]	马越,胡志平,姬国强,等.湿陷性黄土地区海绵城市建设雨水渗蓄风险防控若干问题探讨[J].给水排水,2020,56(9):70-77 ,92.
[18]	曹胜昔,李国欣,张兴,等.道由白云尽春与青溪长:翠屏山迎宾馆设计浅析[J].城市环境设计,2014(5):234-235.
[19]	成实.结合雨洪管理的城市设计探析[J].中国园林,2016,32(11):55-57.
[20]	张晋.可持续水设计视角下对于中国古典园林理水的几点思考[J].中国园林,2016,32(8):117-122.
[21]	中华人民共和国住房和城乡建设部.湿陷性黄土地区建筑标准:GB 50025-2018[S].北京:中国建筑工业出版社,2018.
[22]	李杰. 基于SWMM的湿陷性黄土地区海绵城市建设研究[D].西安:长安大学,2018.
[23]	曹胜昔, 张涛, 薛蕊, 等. 基于地理信息系统的崇礼冬奥风景道景观规划研究[J]. 工业建筑, 2021, 51(10):64-67.
[24]	黄黛诗,王宁,吴连丰,等.海绵城市理念下既有工业厂区建设方案研究[J].给水排水,2019,55(11):63-66 ,73.