[1]蔡正君,黄福昌,冯绍海,等.长江大保护之九江市水环境治理模式的探讨[J].中国给水排水,2024,40(8):93-101.
CAIZheng-jun,HUANGFu-chang,FENGShao-hai,et al.Discussion on the Water Environment Management Mode of Jiujiang under the Great Protection of Yangtze River[J].China Water & Wastewater,2024,40(8):93-101.点击复制
长江大保护之九江市水环境治理模式的探讨
中国给水排水[ISSN:1000-4062/CN:12-1073/TU] 卷: 第40卷 期数: 2024年第8期 页码: 93-101 栏目: 出版日期: 2024-04-17
Title:Discussion on the Water Environment Management Mode of Jiujiang under the Great Protection of Yangtze River
作者:蔡正君1, 黄福昌2, 冯绍海1, 李清1, 汤文浩3(1.九江市规划设计集团有限公司,江西 九江 332000;2.上海市城市建设设计研究总院<集团>有限公司,上海 200125;3.上海万朗水务科技集团有限公司,上海 200131)
Author(s):CAI Zheng-jun1, HUANG Fu-chang2, FENG Shao-hai1, LI Qing1, TANG Wen-hao3(1. Jiujiang Planning and Design Group Co. Ltd., Jiujiang 332000, China; 2. Shanghai Urban Construction Design & Research Institute Co. Ltd., Shanghai 200125, China; 3. Shanghai Wanlang Water Technology Group Co. Ltd., Shanghai 200131, China)
关键词:水环境治理; 提质增效; 雨污分流; 清污分流; 长江大保护
Keywords:water environment treatment; improving the quality and efficiency; stormwater and sewage diversion; clean water and sewage diversion; great protection of Yangtze River
摘要:为促进污水系统提质增效、水环境质量提升、污泥及餐厨垃圾资源化处理处置工作,以摸清本底为基础,以现状问题为导向,以总体规划为龙头,以污染物总量控制为依据,以“流域统筹、区域协调、系统治理、标本兼治”为总体思路,遵循“一个城镇、一个主体、一种模式”原则,开展了九江市中心城区水环境系统综合治理二期PPP项目建设和运营。该项目总投资为56.85亿元,污染物控制及水环境治理取得显著成效,构建了厂网河(湖)岸一体、泥水并重、资源能源回收、建设养护全周期等水环境综合治理新模式,有利于共抓长江大保护事业顺利推进。
Abstract:In order to promote the quality and efficiency of sewage system, the quality of water environment, and the treatment and disposal of sludge and kitchen waste, based on a thorough understanding of the background, guided by the current problems, led by the overall planning, based on the total amount of pollutants control, the phase Ⅱ PPP project for the comprehensive treatment of water environment system in the central urban area of Jiujiang was constructed and operated, taking the overall idea of “basin overall planning, regional coordination, systematic treatment, and treating both symptoms and root causes”, following the principle of “one town, one main body, one mode”. With a total investment of 5.685 billion yuan, the project has achieved remarkable results in pollutant control and water environment treatment, and established a new comprehensive water environment treatment mode of “integrating the plant, network, river (lake) and bank”, “emphasizing both sludge and water”, resource and energy recovery, and the whole cycle of construction and maintenance, which is conducive to the smooth progress of the cause of jointly seizing the great protection of Yangtze River.
相似文献/References:
[1]邢玉坤,曹秀芹,柳婷,等.我国城市排水系统现状、问题与发展建议[J].中国给水排水,2020,36(10):19.
[2]吴思,陈雄志.武汉市沙湖历史回顾及水环境提升工程规划方案[J].中国给水排水,2020,36(10):24.
[3]林佩斌,李小江,李辉,等.快速污水处理技术(RPIR)用于深圳水环境治理[J].中国给水排水,2020,36(12):117.
LIN Pei-bin,LI Xiao-jiang,LI Hui,et al.Application of Rapid Wastewater Treatment Technology (RPIR)in Water Environment Improvement in Shenzhen[J].China Water & Wastewater,2020,36(8):117.
[4]汤钟,张亮,俞露,等.深圳福田区水环境综合治理方案探索与实践[J].中国给水排水,2020,36(18):7.
TANG Zhong,ZHANG Liang,YU Lu,et al.Exploration and Practice of Comprehensive Treatment Scheme of Water Environment in Futian District of Shenzhen[J].China Water & Wastewater,2020,36(8):7.
[5]陆露,高峰,郭娟,等.排水管网运维管理问题分析与对策研究[J].中国给水排水,2022,38(2):8.
LU Lu,GAO Feng,GUO Juan,et al.Problem Analysis and Countermeasure Research for Sewer Operation and Maintenance Management[J].China Water & Wastewater,2022,38(8):8.
[6]张超,赵仔轩,张盈秋,等.九江市十里河流域水环境综合治理措施及成效[J].中国给水排水,2022,38(4):17.
ZHANGChao,ZHAOZi-xuan,ZHANGYing-qiu,et al.Measures and Achievement of Comprehensive Treatment of Water Environment in Shili River Basin of Jiujiang[J].China Water & Wastewater,2022,38(8):17.
[7]张旭东,马振华,王海玲,等.基于排水系统提质增效的集约治滇探索与实践[J].中国给水排水,2022,38(4):125.
ZHANG Xu-dong,MA Zhen-hua,WANG Hai-ling,et al.Exploration and Practice of Integrative Management of Dianchi Lake Based on the Quality and Efficiency Improvement of Drainage System[J].China Water & Wastewater,2022,38(8):125.
[8]胡小凤,袁芳,石鹏远,等.福鼎市污水系统问题识别及提质增效策略[J].中国给水排水,2022,38(12):61.
HUXiao-feng,YUANFang,SHIPeng-yuan,et al.Problem Diagnosis and Strategy of Improving Quality and Efficiency of Sewage System in Fuding[J].China Water & Wastewater,2022,38(8):61.
[9]凌云飞,雷木穗子,周飞祥,等.喀斯特地区(贵州六盘水市)黑臭水体治理策略[J].中国给水排水,2022,38(12):76.
LINGYun-fei,LEIMu-sui-zi,ZHOUFei-xiang,et al.Treatment Strategy of Black and Odorous Water in Karst Region of Liupanshui[J].China Water & Wastewater,2022,38(8):76.
[10]凌耀忠,胡和平,万晶晶,等.污水系统提质增效对策研究:以H岛污水系统为例[J].中国给水排水,2022,38(16):24.
LING Yao-zhong,HUHe-ping,WANJing-jing,et al.Study on Solutions for Quality and Efficiency Improvement of Wastewater System—Taking H Island Wastewater System as an Example[J].China Water & Wastewater,2022,38(8):24.
[11]方刚,唐颖栋,楼少华,等.茅洲河流域水质净化厂污水系统提质增效实践[J].中国给水排水,2022,38(20):96.
FANGGang,TANGYing-dong,LOUShao-hua,et al.Practice of Improving Quality and Efficiency of the Sewage System of a WWTP in Maozhou River Basin[J].China Water & Wastewater,2022,38(8):96.
更新日期/Last Update: 2024-04-17
中国给水排水杂志社官方网所有资料均源于网上的共享资源及期刊共享,请特别注意勿做其他非法用途 如有侵犯您的版权或其他有损您利益的行为,请联系指出,本网会立即进行改正或删除有关内容
论文发表投稿邮箱:cnwater@vip.163.com
CopyRight (C)2016 中国给水排水杂志社官方网 版权所有 津ICP备20004590号
[1]蔡正君,黄福昌,冯绍海,等.长江大保护之九江市水环境治理模式的探讨[J].中国给水排水,2024,40(8):93-101.
CAIZheng-jun,HUANGFu-chang,FENGShao-hai,et al.Discussion on the Water Environment Management Mode of Jiujiang under the Great Protection of Yangtze River[J].China Water & Wastewater,2024,40(8):93-101.
点击复制
长江大保护之九江市水环境治理模式的探讨
中国给水排水[ISSN:1000-4062/CN:12-1073/TU] 卷: 第40卷 期数: 2024年第8期 页码: 93-101 栏目: 出版日期: 2024-04-17
- Title:
- Discussion on the Water Environment Management Mode of Jiujiang under the Great Protection of Yangtze River
- 作者:
- 蔡正君1, 黄福昌2, 冯绍海1, 李清1, 汤文浩3
- (1.九江市规划设计集团有限公司,江西 九江 332000;2.上海市城市建设设计研究总院<集团>有限公司,上海 200125;3.上海万朗水务科技集团有限公司,上海 200131)
- Author(s):
- CAI Zheng-jun1, HUANG Fu-chang2, FENG Shao-hai1, LI Qing1, TANG Wen-hao3
- (1. Jiujiang Planning and Design Group Co. Ltd., Jiujiang 332000, China; 2. Shanghai Urban Construction Design & Research Institute Co. Ltd., Shanghai 200125, China; 3. Shanghai Wanlang Water Technology Group Co. Ltd., Shanghai 200131, China)
- 关键词:
- 水环境治理; 提质增效; 雨污分流; 清污分流; 长江大保护
- Keywords:
- water environment treatment; improving the quality and
efficiency; stormwater and sewage diversion; clean water and sewage diversion; great protection of Yangtze River
摘要:- 为促进污水系统提质增效、水环境质量提升、污泥及餐厨垃圾资源化处理处置工作,以摸清本底为基础,以现状问题为导向,以总体规划为龙头,以污染物总量控制为依据,以“流域统筹、区域协调、系统治理、标本兼治”为总体思路,遵循“一个城镇、一个主体、一种模式”原则,开展了九江市中心城区水环境系统综合治理二期PPP项目建设和运营。该项目总投资为56.85亿元,污染物控制及水环境治理取得显著成效,构建了厂网河(湖)岸一体、泥水并重、资源能源回收、建设养护全周期等水环境综合治理新模式,有利于共抓长江大保护事业顺利推进。
Abstract:- In order to promote the quality and efficiency of sewage system, the quality of water environment, and the treatment and disposal of sludge and kitchen waste, based on a thorough understanding of the background, guided by the current problems, led by the overall planning, based on the total amount of pollutants control, the phase Ⅱ PPP project for the comprehensive treatment of water environment system in the central urban area of Jiujiang was constructed and operated, taking the overall idea of “basin overall planning, regional coordination, systematic treatment, and treating both symptoms and root causes”, following the principle of “one town, one main body, one mode”. With a total investment of 5.685 billion yuan, the project has achieved remarkable results in pollutant control and water environment treatment, and established a new comprehensive water environment treatment mode of “integrating the plant, network, river (lake) and bank”, “emphasizing both sludge and water”, resource and energy recovery, and the whole cycle of construction and maintenance, which is conducive to the smooth progress of the cause of jointly seizing the great protection of Yangtze River.
相似文献/References:
[1]邢玉坤,曹秀芹,柳婷,等.我国城市排水系统现状、问题与发展建议[J].中国给水排水,2020,36(10):19.
[2]吴思,陈雄志.武汉市沙湖历史回顾及水环境提升工程规划方案[J].中国给水排水,2020,36(10):24.
[3]林佩斌,李小江,李辉,等.快速污水处理技术(RPIR)用于深圳水环境治理[J].中国给水排水,2020,36(12):117.
LIN Pei-bin,LI Xiao-jiang,LI Hui,et al.Application of Rapid Wastewater Treatment Technology (RPIR)in Water Environment Improvement in Shenzhen[J].China Water & Wastewater,2020,36(8):117.
[4]汤钟,张亮,俞露,等.深圳福田区水环境综合治理方案探索与实践[J].中国给水排水,2020,36(18):7.
TANG Zhong,ZHANG Liang,YU Lu,et al.Exploration and Practice of Comprehensive Treatment Scheme of Water Environment in Futian District of Shenzhen[J].China Water & Wastewater,2020,36(8):7.
[5]陆露,高峰,郭娟,等.排水管网运维管理问题分析与对策研究[J].中国给水排水,2022,38(2):8.
LU Lu,GAO Feng,GUO Juan,et al.Problem Analysis and Countermeasure Research for Sewer Operation and Maintenance Management[J].China Water & Wastewater,2022,38(8):8.
[6]张超,赵仔轩,张盈秋,等.九江市十里河流域水环境综合治理措施及成效[J].中国给水排水,2022,38(4):17.
ZHANGChao,ZHAOZi-xuan,ZHANGYing-qiu,et al.Measures and Achievement of Comprehensive Treatment of Water Environment in Shili River Basin of Jiujiang[J].China Water & Wastewater,2022,38(8):17.
[7]张旭东,马振华,王海玲,等.基于排水系统提质增效的集约治滇探索与实践[J].中国给水排水,2022,38(4):125.
ZHANG Xu-dong,MA Zhen-hua,WANG Hai-ling,et al.Exploration and Practice of Integrative Management of Dianchi Lake Based on the Quality and Efficiency Improvement of Drainage System[J].China Water & Wastewater,2022,38(8):125.
[8]胡小凤,袁芳,石鹏远,等.福鼎市污水系统问题识别及提质增效策略[J].中国给水排水,2022,38(12):61.
HUXiao-feng,YUANFang,SHIPeng-yuan,et al.Problem Diagnosis and Strategy of Improving Quality and Efficiency of Sewage System in Fuding[J].China Water & Wastewater,2022,38(8):61.
[9]凌云飞,雷木穗子,周飞祥,等.喀斯特地区(贵州六盘水市)黑臭水体治理策略[J].中国给水排水,2022,38(12):76.
LINGYun-fei,LEIMu-sui-zi,ZHOUFei-xiang,et al.Treatment Strategy of Black and Odorous Water in Karst Region of Liupanshui[J].China Water & Wastewater,2022,38(8):76.
[10]凌耀忠,胡和平,万晶晶,等.污水系统提质增效对策研究:以H岛污水系统为例[J].中国给水排水,2022,38(16):24.
LING Yao-zhong,HUHe-ping,WANJing-jing,et al.Study on Solutions for Quality and Efficiency Improvement of Wastewater System—Taking H Island Wastewater System as an Example[J].China Water & Wastewater,2022,38(8):24.
[11]方刚,唐颖栋,楼少华,等.茅洲河流域水质净化厂污水系统提质增效实践[J].中国给水排水,2022,38(20):96.
FANGGang,TANGYing-dong,LOUShao-hua,et al.Practice of Improving Quality and Efficiency of the Sewage System of a WWTP in Maozhou River Basin[J].China Water & Wastewater,2022,38(8):96.
更新日期/Last Update: 2024-04-17
