镇江内江水沙调控试验研究
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摘要
本文是针对当前水环境治理中普遍存在的泥沙淤积问题,结合国家863“十五”重大科技专项“镇江水环境质量改善及生态修复示范研究分项之二:湿地一内湖系统的水质改善、泥沙控制技术研究及示范工程”项目而开展的研究,主要内容包括:
(1)总结国内外环境调水和水沙调控的研究成果,回顾前人对内江的整治和研究工作;
(2)采用河工模型试验的方法,从水流流场、含沙量空间分布和泥沙淤积分布三个方面入手,对内江的水流泥沙运动特点以及存在的泥沙淤积问题进行分析;
(3)通过对内江的水流泥沙运动特征进行深入地研究和分析,探索出采用控制工程进行水沙调控的方法,并针对控制工程的引水防沙效果进行了模拟研究;
(4)在试验研究的基础上,采用优化规划的方法,对节制闸的运行调度方案进行研究,并且对节制闸的长效运行机制进行探讨。
通过这些研究工作,最终找到既满足内江环境需水量要求的同时,又能减少长江的泥沙进入内江的合理调度方案,从而加快镇江市水环境治理的进程,并为其它地区的水沙调控研究提供有益的借鉴和帮助。
This paper mainly deals with the sediment problems in water environment improvement. Theresearch background of this paper is the "Technical Study & Comprehensive Demonstrationon Improvement of Water Environment and Ecological Restoration in Zhenjiang", the majorspecial science & technology program of China during "the 10th Five-year Plan" period. Themain contents of this paper are as follows:
(1)Aggregated domestic and foreign research results about water diversion and sedimentcontrol, recalled the research results of Neijiang River.
(2)Through the physical model experiments, anaylzed water and sediment characteristics ofNeijiang River from three areas: the flow field, the concentration distribution and thesedimentation distribution.
(3)Through the study on water and sediment characteristics, the author made the reasonableproposal and did relevant researches on the flow dynamic characteristics and siltationmechanism, in order to predict the sediment deposition after the project.
(4)Based on the experimental results, the author used linear programming approach to theoperation of the regulator in scheduling options discussed, and study on the lasting runningprocess of the water level adjusting system.
By means of the research measures of diverting water against sediment in Zhenjiang waterenvironment, it explores scientific, feasible means and channels of water sediment regulation,offers scientific basis to Zhenjiang water environment control. On the other hand, the researchprovides a reference about water environment control to others cities.
(1)总结国内外环境调水和水沙调控的研究成果,回顾前人对内江的整治和研究工作;
(2)采用河工模型试验的方法,从水流流场、含沙量空间分布和泥沙淤积分布三个方面入手,对内江的水流泥沙运动特点以及存在的泥沙淤积问题进行分析;
(3)通过对内江的水流泥沙运动特征进行深入地研究和分析,探索出采用控制工程进行水沙调控的方法,并针对控制工程的引水防沙效果进行了模拟研究;
(4)在试验研究的基础上,采用优化规划的方法,对节制闸的运行调度方案进行研究,并且对节制闸的长效运行机制进行探讨。
通过这些研究工作,最终找到既满足内江环境需水量要求的同时,又能减少长江的泥沙进入内江的合理调度方案,从而加快镇江市水环境治理的进程,并为其它地区的水沙调控研究提供有益的借鉴和帮助。
This paper mainly deals with the sediment problems in water environment improvement. Theresearch background of this paper is the "Technical Study & Comprehensive Demonstrationon Improvement of Water Environment and Ecological Restoration in Zhenjiang", the majorspecial science & technology program of China during "the 10th Five-year Plan" period. Themain contents of this paper are as follows:
(1)Aggregated domestic and foreign research results about water diversion and sedimentcontrol, recalled the research results of Neijiang River.
(2)Through the physical model experiments, anaylzed water and sediment characteristics ofNeijiang River from three areas: the flow field, the concentration distribution and thesedimentation distribution.
(3)Through the study on water and sediment characteristics, the author made the reasonableproposal and did relevant researches on the flow dynamic characteristics and siltationmechanism, in order to predict the sediment deposition after the project.
(4)Based on the experimental results, the author used linear programming approach to theoperation of the regulator in scheduling options discussed, and study on the lasting runningprocess of the water level adjusting system.
By means of the research measures of diverting water against sediment in Zhenjiang waterenvironment, it explores scientific, feasible means and channels of water sediment regulation,offers scientific basis to Zhenjiang water environment control. On the other hand, the researchprovides a reference about water environment control to others cities.
引文
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[2] 陈静.引江济太水量水质联合调度研究[D].河海大学,2005.
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[4] Nobukazu Nakagoshi, Masahito Inoue. River system in Japan from a landscape ecological aspect[J]. Journal of Environmental Sciences, 2003,15(2): 160-166.
[5] 日本国土厅.日本全国水资源综合规划[M].北京:中国水利水电出版社,2002.
[6] Yurina Otaki. Water systems and urban sanitation in Tokyo and Singapore during the 19th to 20th centuries[J]. Internal Summer Academy on Technology Studies, 2004: 249-259.
[7] LiMa S Gaulke. Lessons Learned from Japan's System of Integrated Onsite Wastwater Management[J]. Nowra 2006 Proceedings, 2006,51.
[8] T Udagawa. Water recycling systems in Tokyo[J].Desalination, 1994,98:309-318.
[9] Motoyama T. Water supply in Tokyo[J]. Water21,2004,6:25-26.
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[11] Aoyama Toru, Kawamoto Shinji. Establishment of water distribution block system in Osaka Municipal Waterworks[J].Water Supply, 1999,17(3): 269-275.
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[21] Klopp R. Water management for development of water qnality in the Ruhr River basin[J]. Schriftent Ver Wasser Boden Lufthyg, 2000, 105(10): 5-10.
[22] 徐贵泉,褚君达.上海市引清调水改善水环境探讨[J].水资源保护,2001,(3):26-61.
[23] Yao Chunxia, Chen Zhenlou, Xu Shiyuan. Pollution characteristics of the rivers in suburban Shanghai[J]. Journal Of Geographical Sciences, 2005,15(1):29-36.
[24] 孙宗凤.基于生态的水利工程水量水质联合调度及效应评价研究[D].河海大学,2006.
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[28] 周俊,王焰新,蔡鹤生.构建“长江—东湖—长江”水循环及其在东湖污染治理中的意义[J].武汉大学学报,2002,35(4):64-67.
[29] 林劲松.冯家山水库水沙调控研究[D].西安:西北农林科技大学,2004.
[30] 安新代,石春先,余欣,等.水库调水调沙回顾与展望[J].泥沙研究,2002,(5):36-42.
[31] 张俊华,王国栋,陈书奎,等.小浪底水库运用初期库区水沙运动规律试验研究[J].人民黄河,2000(9).
[32] 李国英.基于空间尺度的黄河调水调沙[J].中国水利,2004,(3).
[33] 周兵利,务宗伟,王万祥.调水调沙试验对小浪底水库水质影响研究[J].中国水利,2005,(11):32-33.
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[38] 熊绍隆,胡玉棠.潮汐河口悬移质动床实物模型的理论与实践[J].泥沙研究,1999,1:1-6.
[39] 张红武,冯顺新.河工动床模型存在问题及其解决途径[J].水科学进展,2001(3).
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[42] 韩曾萃,戴泽蘅.李光炳等,钱塘江河口治理与开发[M].北京:中国水利水电出版社,2003.
[43] 李远发,张俊华,马怀宝,等.黄河河口局部实体模型设计[J].人民黄河,2006(1).
[44] 高曾伟.论镇江北湖的形成与整治开发[N].镇江高专学报,2005(1).
[45] 黄荣富.镇江港发展战略研究[D].上海海运学院,2001.
[46] 姚敦本,徐钦崇,范缢新.镇江港市内港区的前景分析[J].水运工程,1982(1).
[47] 李樟苏.镇江老港中口袋整治方案的探讨[J].水运工程,1982(11).
[48] 赵苇航,张明南.镇江港的整治和建堵坝的探讨[N].扬州大学学报(自然科学版),1989(3).
[49] 常福田.镇江老港整治效果分析[J].水运工程,1992(3).
[50] 庄敬东.名城镇江水体污染及防治对策[J].污染防治技术,1994(2).
[51] 刘继展,李萍萍,陶明清,等.镇江北固湿地的生态修复设计[J].环境科学与技术,2006(9).
[52] 陈宝冲,杨达源.长江六圩弯道的稳定性与建港条件浅析[J].水道港口,1988(1).
[53] 夏细禾,余文畴.长江中下游分汊河道稳定性与治理方略的探讨[J].人民长江,1999(9).
[54] 刘娟,刘宏,张岱峰.长江镇扬河段近期河床演变趋势分析.长江科学院院报,2003(4).
[55] 林木松,卢金友,张岱峰,等.长江镇扬河段和畅洲汊道演变和治理工程[J].长江科学院院报,2006(5).
[56] 李保如,我国河流泥沙物理模型的设计方法[J],水动力研究与进展,1991(12).
[57] 林秉南,对悬移质变态动床模型试验中掺混相似条件的剖析[J].人民长江,1994,25(3):1-6.
[58] 林秉南,再论悬移质变态动床模型试验的掺混相似条件[J].人民黄河,2003,25(9):14-15.
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[2] 陈静.引江济太水量水质联合调度研究[D].河海大学,2005.
[3] 吴春笃,倪晋仁,崔树彬,李天宏,等.论河流生态环境需水[J].水利学报,2002,(9):14-19.
[4] Nobukazu Nakagoshi, Masahito Inoue. River system in Japan from a landscape ecological aspect[J]. Journal of Environmental Sciences, 2003,15(2): 160-166.
[5] 日本国土厅.日本全国水资源综合规划[M].北京:中国水利水电出版社,2002.
[6] Yurina Otaki. Water systems and urban sanitation in Tokyo and Singapore during the 19th to 20th centuries[J]. Internal Summer Academy on Technology Studies, 2004: 249-259.
[7] LiMa S Gaulke. Lessons Learned from Japan's System of Integrated Onsite Wastwater Management[J]. Nowra 2006 Proceedings, 2006,51.
[8] T Udagawa. Water recycling systems in Tokyo[J].Desalination, 1994,98:309-318.
[9] Motoyama T. Water supply in Tokyo[J]. Water21,2004,6:25-26.
[10] 陈宗明.大阪市河流环境综合整治的启示[J].上海建设科技,1998,(3):23-24.
[11] Aoyama Toru, Kawamoto Shinji. Establishment of water distribution block system in Osaka Municipal Waterworks[J].Water Supply, 1999,17(3): 269-275.
[12] Robert D. Robertson. Regional Water Supply in Japan: A Study of Lake Biwa[J].Geographical Review, 1975, 65(3): 311-322.
[13] Goda T, Nakanishi H. Water Quality Management in the Yodo River Basin[J]. Water Science and Technology, 1991,23(1):65-74.
[14] L S Bykov, v S Gorbachev, N F Shuravin. 30 years of operation of the Moscow canal[J]. Gidrotekhnicheskoe Stroitel'stvo, 1967, (7):1-6.
[15] V V Bocharov. The 50th Anniversary of the Moscow Canal[J]. Gidrotekhnicheskoe Stroitel'stvo, 1987,(6): 1-7.
[16] Lvovich MI, Chernogaeva GM. The Water Balance of Moscow[J].Proceedings of the Amsterdam Symposium. 1977, 123: 48-51.
[17] O S Tsvirin'ko, Water-management significance of the Moscow Canal[J]. Gidrotekhnicheskoe Stroitel'stvo, 1987, (6): 7-11.
[18] 徐律涂,鲁尔河的水资源开发与保护[J].水资源保护,1992,(1):47-50.
[19] KirstenJane Robinson. Exploring Urban Ecosystems in the Ruhr Region of Germany[J]. 国外城市规划,2003,18(6):3-25.
[20] Schmidt WD. Ground water improvement in the Ruhr[J]. Zentralbl Myg Umweltmed, 1989, 188(1-2): 1-34.
[21] Klopp R. Water management for development of water qnality in the Ruhr River basin[J]. Schriftent Ver Wasser Boden Lufthyg, 2000, 105(10): 5-10.
[22] 徐贵泉,褚君达.上海市引清调水改善水环境探讨[J].水资源保护,2001,(3):26-61.
[23] Yao Chunxia, Chen Zhenlou, Xu Shiyuan. Pollution characteristics of the rivers in suburban Shanghai[J]. Journal Of Geographical Sciences, 2005,15(1):29-36.
[24] 孙宗凤.基于生态的水利工程水量水质联合调度及效应评价研究[D].河海大学,2006.
[25] Alvin S Goodman. Principles of Water Resouces Planning[M]. New Gersey:Prentice-Hall, Inc. 1984.
[26] Xu Muju. Sediment Problems at Dujiangyan Project[J].International Journal of Sediment Research, 1990,5(2):31-42.
[27] 汪常青,吴永红,刘剑彤.武汉城市湖泊水环境现状及综合整治途径[J].长江流域资源与环境,2004,13(5):499-502.
[28] 周俊,王焰新,蔡鹤生.构建“长江—东湖—长江”水循环及其在东湖污染治理中的意义[J].武汉大学学报,2002,35(4):64-67.
[29] 林劲松.冯家山水库水沙调控研究[D].西安:西北农林科技大学,2004.
[30] 安新代,石春先,余欣,等.水库调水调沙回顾与展望[J].泥沙研究,2002,(5):36-42.
[31] 张俊华,王国栋,陈书奎,等.小浪底水库运用初期库区水沙运动规律试验研究[J].人民黄河,2000(9).
[32] 李国英.基于空间尺度的黄河调水调沙[J].中国水利,2004,(3).
[33] 周兵利,务宗伟,王万祥.调水调沙试验对小浪底水库水质影响研究[J].中国水利,2005,(11):32-33.
[34] 左东启.模型试验的理论和方法[M].北京:水利电力出版社,1984.
[35] 李昌华,金德春,河工模型试验[M].北京:人民交通出版社,1981.
[36] 杨华,吴明阳,刘国亭.波流泥沙淤积模型相似律及选沙研究[J].水道港口,1998(04).
[37] 熊绍隆.潮汐河口泥沙物理模型设计方法[J].水动力学研究与进展A辑,1995,10(4):388-404.
[38] 熊绍隆,胡玉棠.潮汐河口悬移质动床实物模型的理论与实践[J].泥沙研究,1999,1:1-6.
[39] 张红武,冯顺新.河工动床模型存在问题及其解决途径[J].水科学进展,2001(3).
[40] H Engels.一九三四年黄河实验临时报告[J].水利,1935,8(4).
[41] 熊绍隆,等.杭州湾北岸深槽冲淤变化试验研究[J].水利学报,1994(10):69-76,89.
[42] 韩曾萃,戴泽蘅.李光炳等,钱塘江河口治理与开发[M].北京:中国水利水电出版社,2003.
[43] 李远发,张俊华,马怀宝,等.黄河河口局部实体模型设计[J].人民黄河,2006(1).
[44] 高曾伟.论镇江北湖的形成与整治开发[N].镇江高专学报,2005(1).
[45] 黄荣富.镇江港发展战略研究[D].上海海运学院,2001.
[46] 姚敦本,徐钦崇,范缢新.镇江港市内港区的前景分析[J].水运工程,1982(1).
[47] 李樟苏.镇江老港中口袋整治方案的探讨[J].水运工程,1982(11).
[48] 赵苇航,张明南.镇江港的整治和建堵坝的探讨[N].扬州大学学报(自然科学版),1989(3).
[49] 常福田.镇江老港整治效果分析[J].水运工程,1992(3).
[50] 庄敬东.名城镇江水体污染及防治对策[J].污染防治技术,1994(2).
[51] 刘继展,李萍萍,陶明清,等.镇江北固湿地的生态修复设计[J].环境科学与技术,2006(9).
[52] 陈宝冲,杨达源.长江六圩弯道的稳定性与建港条件浅析[J].水道港口,1988(1).
[53] 夏细禾,余文畴.长江中下游分汊河道稳定性与治理方略的探讨[J].人民长江,1999(9).
[54] 刘娟,刘宏,张岱峰.长江镇扬河段近期河床演变趋势分析.长江科学院院报,2003(4).
[55] 林木松,卢金友,张岱峰,等.长江镇扬河段和畅洲汊道演变和治理工程[J].长江科学院院报,2006(5).
[56] 李保如,我国河流泥沙物理模型的设计方法[J],水动力研究与进展,1991(12).
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