水库补偿机理和补偿效益计算方法研究
|
摘要
随着我国水电梯级大开发和水资源统一管理制度健全,水库的作用不仅表现在综合利用,而且呈现出流域化、生态化趋势,水库群统一调度迫切需要解决补偿效益的计算和分配问题,而现有的理论和方法已不能满足实践需求。因此,论文以黄河龙羊峡、刘家峡等水库为例,针对水库补偿效益产生机理、水库生态补偿效益、环境补偿效益、防凌补偿效益等进行了研究,具有重要的理论意义和应用价值。研究取得的主要成果如下:
(1)水库补偿效益产生机理研究。从调节型水库对过流水资源价值影响入手,揭示了水库补偿效益产生机理:通过大坝作功,水库改变过流水资源价值,水资源的流动特性使得相关对象在投资不变的情况下,直接或间接利用价值变化的水资源,所得的利益发生变化,利益变化部分是水库改变水资源价值的效益外部化,即产生水库补偿效益。
(2)环境补偿效益研究。水库环境补偿效益主要包括水库对大气环境补偿效益、河道水体环境补偿和环境资源补偿效益,给出相应定义和计算方法。研究建立了大气环境补偿效益成本模型,得出龙羊峡水库大气环境补偿效益有先增大后减小的变化趋势;刘家峡水库大气环境补偿效益具有随着时间推移而减小的规律。改进污径比,提出水库对下游河道水体环境补偿效益计算方法,并计算了2003年龙羊峡和刘家峡水库相应水环境补偿效益。环境资源补偿效益主要是指耕地环境、文化自然景观的旅游环境、人工湿地环境三个方面补偿效益,计算了龙羊峡水库和刘家峡水库的环境资源补偿效益。
(3)生态补偿效益研究。水库生态补偿效益分为河道外生态补偿效益和河道内补偿效益;河道外生态补偿效益包括湖泊补水、湿地补水、相邻河流补水对应的生态补偿效益;河道内生态补偿效益包括非汛期生态基流、防断流补水、汛期生态洪水输沙生态补偿效益。研究给出各种补偿效益的定义和计算方法。采用生态系统服务的意愿支付法,研究了2006年小浪底水库引黄济淀的河道外生态补偿效益;利用水库群补偿调节计算结果,研究了龙羊峡和刘家峡两库对黄河防断流补偿效益的动态特性。根据洪水塑造河流形态为生物提供生境的主要生态功能,提出多泥沙河流上水库生态洪水补偿效益正负判别依据和生态洪水补偿效益计算方法。
(4)防凌补偿效益研究。利用冰水力学理论,揭示了龙羊峡和刘家峡水库联合运用改变宁蒙河段冰塞特性的机理,从理论上得出凌汛新问题的根源是龙羊峡和刘家峡水库联合运用加剧了宁蒙河道淤积;调水调沙是宁蒙河段防凌和解决凌汛新问题的关键措施之一。研究给出水库防凌补偿效益定义及计算方法,大柳树水库的防凌补偿效益主要包括消减宁蒙河段凌灾、提高防护对象防凌标准和防凌安全、补偿上游梯级水库发电和补偿刘家峡水库综合用水。
The functions of reservoirs not only manifest on comprehensive utilization, but present the tendency of basined and eco-environmental while the development of cascade waterpower and the perfecting of unified management for water resources, then the problems in unified opertation of cascade system, such as compensation benefit calculation and its allocation are imperatively to resolved, however, the theories and methods in being can not meet the practice need, the Longyangxia and Liujiaxia Reservoir has been taken as demonstration for research on the mechanisms of reservoirs compensation benefits, environment compensation benefits, reservoirs ecologic compensation benefits, and ice-jam preventing compensation benefits in this thesis, maybe, the result has significant theoretical and applied value. The main achievements of the study are as follows:
(1) Research on the compensation benefits mechanism of reservoir. Based on the effects which the regulation reservoir acts on value of water resources, the mechanism of reservoirs compensation benefits is revealed: worked by the dam, the water resources value is changed by reservoir, reservoirs compensation benefits is generated by the directly or indirectly ultilization of value-changed flow while the investment is unchanged, and the changed part is the exterior chang of the reservoir acts on value of water resources, it is that the reservoir compensation benefits come into being.
(2) Research on the reservoir environment compensation benefits. The reservoirs compensation benefits for environment are mainly including reservoirs compensation benefits for atmospheric environment, river water quality and environment resources, then, the corresponding definition and calculation method are put forward. Moreover, the cost model for atmospheric environment compensation benefits was set up, the trend of atmospheric environment compensation benefits of Longyangxia Reservoir have increased after the first decrease trend which of Liujiaxia Reservoir is reduced over time have been gotten. The new dilution Ratio is proposed and the calculation method of compensation benefits is used in the relative water environment of Longyangxia and Liujiaxia Reservoir in 2003. The reservoirs environment resource compensation benefits mainly includes environment of land, tourism environment of natural and cultural landscape, environment of man-made wetland compensation benefits. The environment recourses compensation benefits of Longyangxia and Liujiaxia Reservoir is calculated in the paper.
(3) research on the ecology compensation benefits. Ecology compensation benefits of reservoir include river-out and river-in ecology compensation benefits. The river-out one includes ecology compensation benefits of water supplement for lake, wetland and neighboring rivers. The river-in one includes ecology compensation benefits of basic ecological flow in non-flood season, water supplement for ceased flow, transmission of sediment in flood season. The definition and calculation method of compensation benefits are put forward in the paper. Based on the willingness to pay method of ecosystem service system, the river-out ecology compensation benefits of Xiaolangdi reservoir in 2006 are researched. The preventing ceased flow compensation benefits dynamic characteristic and ecology compensation benefits for Ningxia-Inner Mongolia reach of Longyangxia and Liujiaxia Reservoir are researched on the result of cascade reservoirs compensation regulation. The positive criterion and the calculation method of ecology flood compensation benefit are put forward based on the main ecology function of the flood shaping the river and affording environments for biology in the sediment river.
(4) research on the preventing ice jams compensation benefits. The impact of the Ningxia-Inner Mongolia reach ice jam characters by Long-Liu Reservoirs joint operation is discovered by the ice hydraulics theory. It has drawn a conclusion that the cause of the new ice regime is that the Ningxia-Inner Mongolia reach fill up because of Long-Liu Reservoirs joint operation on the theory. It is pointed out that the water and sediment adjustment is one of the key measures for preventing ice jam and settling the new ice regime. The definition and calculation method of control ice jams compensation benefits are put forward in the paper. It indicates that the ice jam preventing minimum compensation benefits of Daliushu reservoir including the compensation benefits of eliminating ice jam disaster in Ningmeng river reaches, the compensation benefits of improving ice jam preventing standard of Ningmeng river reaches, the compensation benefits of compensating upper, reaches cascade reservoirs electricity generation, and that of compensating Liujiaxia Reservoir down reaches water using.
(1)水库补偿效益产生机理研究。从调节型水库对过流水资源价值影响入手,揭示了水库补偿效益产生机理:通过大坝作功,水库改变过流水资源价值,水资源的流动特性使得相关对象在投资不变的情况下,直接或间接利用价值变化的水资源,所得的利益发生变化,利益变化部分是水库改变水资源价值的效益外部化,即产生水库补偿效益。
(2)环境补偿效益研究。水库环境补偿效益主要包括水库对大气环境补偿效益、河道水体环境补偿和环境资源补偿效益,给出相应定义和计算方法。研究建立了大气环境补偿效益成本模型,得出龙羊峡水库大气环境补偿效益有先增大后减小的变化趋势;刘家峡水库大气环境补偿效益具有随着时间推移而减小的规律。改进污径比,提出水库对下游河道水体环境补偿效益计算方法,并计算了2003年龙羊峡和刘家峡水库相应水环境补偿效益。环境资源补偿效益主要是指耕地环境、文化自然景观的旅游环境、人工湿地环境三个方面补偿效益,计算了龙羊峡水库和刘家峡水库的环境资源补偿效益。
(3)生态补偿效益研究。水库生态补偿效益分为河道外生态补偿效益和河道内补偿效益;河道外生态补偿效益包括湖泊补水、湿地补水、相邻河流补水对应的生态补偿效益;河道内生态补偿效益包括非汛期生态基流、防断流补水、汛期生态洪水输沙生态补偿效益。研究给出各种补偿效益的定义和计算方法。采用生态系统服务的意愿支付法,研究了2006年小浪底水库引黄济淀的河道外生态补偿效益;利用水库群补偿调节计算结果,研究了龙羊峡和刘家峡两库对黄河防断流补偿效益的动态特性。根据洪水塑造河流形态为生物提供生境的主要生态功能,提出多泥沙河流上水库生态洪水补偿效益正负判别依据和生态洪水补偿效益计算方法。
(4)防凌补偿效益研究。利用冰水力学理论,揭示了龙羊峡和刘家峡水库联合运用改变宁蒙河段冰塞特性的机理,从理论上得出凌汛新问题的根源是龙羊峡和刘家峡水库联合运用加剧了宁蒙河道淤积;调水调沙是宁蒙河段防凌和解决凌汛新问题的关键措施之一。研究给出水库防凌补偿效益定义及计算方法,大柳树水库的防凌补偿效益主要包括消减宁蒙河段凌灾、提高防护对象防凌标准和防凌安全、补偿上游梯级水库发电和补偿刘家峡水库综合用水。
The functions of reservoirs not only manifest on comprehensive utilization, but present the tendency of basined and eco-environmental while the development of cascade waterpower and the perfecting of unified management for water resources, then the problems in unified opertation of cascade system, such as compensation benefit calculation and its allocation are imperatively to resolved, however, the theories and methods in being can not meet the practice need, the Longyangxia and Liujiaxia Reservoir has been taken as demonstration for research on the mechanisms of reservoirs compensation benefits, environment compensation benefits, reservoirs ecologic compensation benefits, and ice-jam preventing compensation benefits in this thesis, maybe, the result has significant theoretical and applied value. The main achievements of the study are as follows:
(1) Research on the compensation benefits mechanism of reservoir. Based on the effects which the regulation reservoir acts on value of water resources, the mechanism of reservoirs compensation benefits is revealed: worked by the dam, the water resources value is changed by reservoir, reservoirs compensation benefits is generated by the directly or indirectly ultilization of value-changed flow while the investment is unchanged, and the changed part is the exterior chang of the reservoir acts on value of water resources, it is that the reservoir compensation benefits come into being.
(2) Research on the reservoir environment compensation benefits. The reservoirs compensation benefits for environment are mainly including reservoirs compensation benefits for atmospheric environment, river water quality and environment resources, then, the corresponding definition and calculation method are put forward. Moreover, the cost model for atmospheric environment compensation benefits was set up, the trend of atmospheric environment compensation benefits of Longyangxia Reservoir have increased after the first decrease trend which of Liujiaxia Reservoir is reduced over time have been gotten. The new dilution Ratio is proposed and the calculation method of compensation benefits is used in the relative water environment of Longyangxia and Liujiaxia Reservoir in 2003. The reservoirs environment resource compensation benefits mainly includes environment of land, tourism environment of natural and cultural landscape, environment of man-made wetland compensation benefits. The environment recourses compensation benefits of Longyangxia and Liujiaxia Reservoir is calculated in the paper.
(3) research on the ecology compensation benefits. Ecology compensation benefits of reservoir include river-out and river-in ecology compensation benefits. The river-out one includes ecology compensation benefits of water supplement for lake, wetland and neighboring rivers. The river-in one includes ecology compensation benefits of basic ecological flow in non-flood season, water supplement for ceased flow, transmission of sediment in flood season. The definition and calculation method of compensation benefits are put forward in the paper. Based on the willingness to pay method of ecosystem service system, the river-out ecology compensation benefits of Xiaolangdi reservoir in 2006 are researched. The preventing ceased flow compensation benefits dynamic characteristic and ecology compensation benefits for Ningxia-Inner Mongolia reach of Longyangxia and Liujiaxia Reservoir are researched on the result of cascade reservoirs compensation regulation. The positive criterion and the calculation method of ecology flood compensation benefit are put forward based on the main ecology function of the flood shaping the river and affording environments for biology in the sediment river.
(4) research on the preventing ice jams compensation benefits. The impact of the Ningxia-Inner Mongolia reach ice jam characters by Long-Liu Reservoirs joint operation is discovered by the ice hydraulics theory. It has drawn a conclusion that the cause of the new ice regime is that the Ningxia-Inner Mongolia reach fill up because of Long-Liu Reservoirs joint operation on the theory. It is pointed out that the water and sediment adjustment is one of the key measures for preventing ice jam and settling the new ice regime. The definition and calculation method of control ice jams compensation benefits are put forward in the paper. It indicates that the ice jam preventing minimum compensation benefits of Daliushu reservoir including the compensation benefits of eliminating ice jam disaster in Ningmeng river reaches, the compensation benefits of improving ice jam preventing standard of Ningmeng river reaches, the compensation benefits of compensating upper, reaches cascade reservoirs electricity generation, and that of compensating Liujiaxia Reservoir down reaches water using.
引文
【1】黄强,畅建霞.水资源系统多位临界调控的理论与方法[M].北京:中国水利水电出版社,2007:5-6.
【2】王彬.短缺与治理:对中国水短缺问题的经济学分析[D].上海:复旦大学,2004:3-4.
【3】中国水利水电科学研究院.黄淮海流域水资源合理配置研究简介[J].中国水利,2003,(2):39-47.
【4】张巧显,欧阳志云,王如松等.中国水安全系统模拟及对策比较研究[J].水科学进展,2002,13(5):569-577.
【5】肖笃宁,陈文波,郭福良.论生态安全的基本概念和研究内容[J].应用生态学报,2002,13(3):354-358.
【6】鲁春霞,谢高地,成升魁,于贵瑞.水利工程对河流生态系统服务功能的影响评价方法初探[J].应用生态学报,2003,14(5):803-807.
【7】王浩,王建华,秦大庸.流域水资源合理配置的研究进展与发展方向[J].水科学进展,2004,15(1):123-128.
【8】Dinar Ariel, Mark W, Rosegrant, et al. Water Allocation Mechanisms—Principles and Examples[R]. The World Bank,1995,15-21.
【9】秦建明.我国电力建设的现状与发展[J].电力建设,1999(10):1-4.
【10】李雪松.电力体制改革与水电业发展[J].中国农村水利水电,2003(8):75-77.
【11】韦直林,冯小春,崔占峰.论“以水库调控为中心”的治黄方略[J].人民黄河,2003.4:1-3.
【12】汪恕诚.实现由工程水利到资源水利的转变,做好面向21世纪中国水利这篇大文章.见汪恕诚.资源水利——人与自然和谐相处[M].北京:中国水利水电出版社,2003.
【13】汪恕诚.为实现水资源可持续利用而努力[N].北京:中国水利报,2000-3-21(1).
【14】汪恕诚.资源水利的理论内涵和实践基础[N].北京:中国水利报,2000-4-13(1).
【15】穆宏强,蔡长治.工程水利、资源水利、环境水利、社会水利和生态水利的内涵及其关系[J].长江职工大学学报,2002,19(1):1-3,8.
【16】汪恕诚.认清形势,转变思路,发展水利[N].北京:中国水利报,1999-11-25(1).
【17】张岳.论资源型水利与工程型水利[N].北京:中国水利报,1999-11-23(3).
【18】刘代荣.浅谈重庆水资源与“资源水利”[N].北京:中国水利报,1999-11-23(3).
【19】孙东坡,缑元有.环境水利[M].开封:河南大学出版社,1993:12.
【20】傅春,冯尚友.水资源持续利用(生态水利)原理的探讨[J].水科学进展2000,11(4):436-440.
【21】席家治.黄河水资源[M].黄河水利出版社,1996.
【22】黄委会断流研究项目组.黄河下游断流及对策研究报告[R].1997.
【23】黄委会勘测规划设计院.黄河水资源实时水量分配研究[R].郑州:“九五”国家重点科技攻关项目(98-928-01-01)
【24】中国21世纪议程-中国21世纪人口、环境与发展白皮书[M].北京:中国环境科学出版社,1994.
【25】李东.黄河下游断流成因及其对策研究[C],黄河断流生态影响及其对策研讨会论文集,北 京:中国环境科学出版社,1997.
【26】刘昌明,成立.黄河干流下游断流的径流序列分析[J].地理学报,55(3),2000:257-265.
【27】苏人琼.黄河流域灾害环境综合治理对策[M].郑州:‘黄河水利出版社,1997.
【28】赵麦换.水库补偿效益理论与实践——以黄河干流水库为例[D].西安:西安理工大学博士学位论文,2004.
【29】周大兵,继往开来--为21世纪中国水电事业的更大发展而努力[J].水力发电学报,2001.(4):1-8.
【30】李生海.美国哥伦比亚河梯级电站系统管理运行分析[J].水力发电,1994(9):54-56,52.
【31】黄强,沈晋.黄河干流水库调度及智能决策支持系统[M].西安:陕西科学技术出版社,1996.
【32】J.D.C.Little. The use of storage water in a hydroelectric system [J]. Opera. Resource.1955(3):21-25.
【33】D.P.Louck. Developing and implementing decision support system:a critique and a challenge [J]. Water Resources Research,1995,31(4):41-43.
【34】W. A. Hall and W. S. Butcher. Optimal timing of irrigation[J]. ASCE, Irrigation. Drain. Div, IR2, 1968,(6):12-16.
【35】Young, G. K. Finding reservoir operating rules. J. Hydrous [M]. Div. Am. Soc. Civil Engorging.1967, 93(HY6),297-321.
【36】Willam W-G.Yeh. Multi-objective analysis of multi-reservoir operation. Water Resources Research [J].1982,18(5):97-102.
【37】Arvanitidis, N. V. and J. Rosing, Optimal operating of multi-reservoir systems using a composite representation [J]. IEEE, PAS-89(2):328-335.
【38】Jurgeon. A. A decomposition method for the long-term scheduling of reservoirs in series [J]. Water Resources,17(6):1565-1570.
【39】Simonovic, S. P., Reservoir systems analysis:Closing gap between theory and practice [J]. Water Resource. Planning. And Management, ASCE,1992,118(3):262-280.
【40】Papageorgiou, M., Optimization-Static, Dynamic, stochastic methods for practical use[J]. Old engorges, Munich, Germany (in German),1991 28(4):151-154.
【41】Wurbs, R. A., Reservoir-system simulation and optimization models [J]. Water Resource. Planning. And Management, ASCE,1993,119(4):455-472.
【42】Plate E J, Sustainable Development of Water Resources:A challenge to Science and Engineering [J]. Water International,1993,18(2):84-93.
【43】Haimes Y Y. Sustainable Development: A Holistic Approach to Natural Resources [J]. Water International,1992,17(4):187-192.
【44】陈守煜.系统模糊决策理论与应用[M].大连:大连理工大学出版社,1994.
【45】陈守煜.水文水资源系统的模糊、优化与数据计算[M].大连:大连理工大学出版社,1989.
【46】HEC-5 simulation of flood control and conservation systems user's manual [C]. (1982). U.S. Army Corps of Engineers, Hydrologic Engineering Center, Davis, Calif.
【47】Jain, S. K., and Goel, M. K. A model for simulation of multi-reservoir system for conservation operation[C], User's manual-46. National Institute of Hydrology, India: Rookies,1994:56-64.
【48】Hydrologic Engineering Center. Optimization of multi-purpose reservoir system operations:A review of modeling and analysis approaches[J]. US.Army Corps of Engineers, Davis, Res. 1991. (34):103-110.
【49】Kucaera, G., and Diment, G. General water supply system simulation model[J]. Water Resource. Planning And Management, ASCE,1988,114(4):365-382.
【50】Loucks, D. P., Salewicz, K. A., and Taylor, M. RIRIS, An interactive river system simulation program, user'manual[M]. Ithaca,Cornel University, N. Y.1990.
【51】Loaicida, H. A., and Marino, M. A., An approach to parameter estimation and stochastic control in water resources with an application to reservoir operation[J].Water Resources,198521(11): 1575-1584.
【52】Murray, D. M., Yakowitz, S. J.Constrained differential dynamic programming and its application to multi-reservoir control[J]. Water Resources,197915(5):1017-1027.
【53】黄涛珍,王宗源.电力规划模型及水电补偿调节研究动态[J].水利水电技术,2004(5):104-107.
【54】吴沧浦.年调节水库的最优运行[J].科学记录,1960(2):23-28
【55】陈洋波,陈安勇.隔河岩水库条件频率曲线分析计算[J].武汉水利电力大学学报,1997,19(6):18-22.
【56】徐鼎甲,张玉山.混联水电站群实时联合优化调度[J].水力发电学报,2001(3):68-70.
【57】杨振立,王军良,李福生.碛口水库与安康、石泉水库补偿调节效益[J].陕西水力发电,1998,14(4):27-31.
【58】刘鑫卿,顾宁昌.华中华南联网水电站群补偿调节优化算法研究[J].电力系统自动化,1999,23(15):30-32.
【59】高宏,王浣尘,刘可新等.系统工程学报[J].1999,14(3):205-210.
【60】解建仓,田峰巍,索丽生等.水资源调度管理决策支持系统的理论与实践[M].西安:陕西科学技术出版社,1998.
【61】谢新民.基于知识的水电站水库群模糊优化补偿调节模型研究[J].水利学报,1998,(3):74-81.
【62】万俊.大系统分解协调技术及DDDP算法在水库群优化补偿调节中的联合应用[J].水利水电技术,1994,(5):2-5.
【63】黄强,沈晋著.黄河干流水库调度及智能决策支持系统[M].陕西科学技术出版,1996.
【64】黄强.应用大系统递阶控制理论解梯级水电站水库群长期最优调度[J].水电能源科学,1993,11(2):80-87.
【65】田峰巍.梯级水电站群的规划与调度[M].科学技术文献出版社,1992.
【66】谢建仓,田峰巍.水资源调度管理决策支持系统的理论与实践[M].西安:陕西科学技术出版
社.1997.
【67】田峰巍,解建仓.用非平衡系统理论认识水资源系统分析中的几个问题[J].西安理工大学学报,13(4),1997:314-319.
【68】黄强.黄河干流水库联合调度模拟优化模型及人机对话算法[J].水利学报,1997,(4):56-61.
【69】S Ranjithan, J W Eheart and J H Garrett Jr. Neural network-based screwing for ground water reclamation under uncertainty [J]. Water Resources Research,1993,29(3):563-574.
【70】Labadie, J. W. and C. H. Sullian. Calculationized decision support systems for water managers [J]. Water Resources Planning And Managememt,1986,112 (3):299-307.
【71】Johnson, L. E. Water resources management decision support systems [J]. Water Resources PlanningAnd Management,1986,112(3):308-325.
【72】Grefenstette J J. Optimization of control parameters for genetic algorithms [J]. IEEE Trans. On System man and cybernetics,1986, SMC-16(1):124-136.
【73】黄涛珍.跨流域水电站群长期补偿调节优化数学模型研究[M].南京:河海大学,1993.
【74】董子敖,李英.大规模水电站群随即优化补偿调节调度模型[J].水力发电学报,1991,(4):7-14.
【75】管家宝,梁年生.梯级水电站群优化补偿调节模型及计算方法[J].水电能源科学,1989,(3):20-26.
【76】Turgeon A. Optimal short-term hydro scheduling from the principle of progressive optimality [J]. Water Resources,1981,17(3):481-486.
【77】周云,艾明建,李幼华.梯级水电站间水库调节效益偿付方法研究[J].水力发电,2000(3):7-10.
【78】董子敖.水库群调度与规划的优化理论和应用[M].山东科学技术出版社,1989.
【79】张功义.谈龙头水库投资如何在下游梯级电站中分摊[J].水利水电科技进展,2000,20(6):43-44,61.
【80】张平.关于外资建设水电站动能经济设计工作的探讨[J].水力发电,2000,(4):9-11.
【81】薛小杰,黄强,田峰巍等.梯级水电站补偿效益分摊方法研究[J].中国农村水利水电,2001,(4):45-47,53.
【82】赵麦换,徐晨光,黄强.应用离差平方法进行梯级水库补偿效益分摊[J].水利水电技术,2004,(5):104-107.
【83】畅建霞,黄强,田峰巍.黄河上游梯级电站补偿效益研究[J].水力发电学报,2002,(4):11-17.
【84】刘涵,黄强,赵麦换等.黄河干流供水发电补偿效益及其分配方案研究[J].水力发电学报,2003,(2):24-30.
【85】黄强,赵麦换等.黄河干流水电站补偿效益分配方案与实施对策初步研究[R].西安:西安理工大学,2001
【86】刘涵.黄河干流供水发电补偿效益及其分配方案研究[D].西安:西安理工大学,2003.
【87】万飚,高仕春,陶自成等.三峡梯级和清江梯级联合运行影响分析[J].水力发电学报,2007,(4):1-5.
【88】李安强,王丽萍,纪昌明等.跨流域混联式水电站群联合补偿效益分析[J].水电自动化与大坝监 测,2007,(5):5-9.
【89】黄强.水能利用[M].北京:中国水利水电出版,1998
【90】王礼育.现代水利展望述略[J].人民珠江,2002,(3):1-3,6.
【91】姜文来.资源水利理论基础初探[J].中国水利,1999(10):21-22.
【92】马万里,王新民.流域“龙头”大水库应优先开发——龙羊峡水电站概况及运行效益浅析[J].水力发电,1997,(9):38-42.
【93】史震古,徐宁娟.试论我国水电的经济效益[J].人民长江,1994,(10):25-31.
【94】席望潮,刘喜燕.大藤峡水利枢纽水资源配置任务简析[J].人民珠江,2006,(6):42-44.
【95】崔伟中,刘晨.松花江和沱江等重大水污染事件的反思[J].水资源保护,2006,(01):2-5
【96】黄河水利委员会.黄河流域水资源公报[R].郑州:黄河水利委员会水文局,1989~2002
【97】刘昌明,陈效国.黄河流域水资源演化规律与可再生性维持机理研究和进展[M].郑州:黄河水利出版社,2001
【98】史瑛珉,杨文华.龙羊峡、刘家峡梯级水库“81.9”“89.6”洪水特点与调度[J].水力发电,1997, (9):47-48.
【99】黄强,赵麦换等.黄河干流水电站补偿效益分配方案与实施对策研究[R].西安:西安理工大学,2002
【100】张泽中,黄强,薛小杰等.梯级水库群中防凌水库的防凌补偿效益计算[J].水力发电学报,2009,(1):58-63.
【101】张泽中,黄强,王义民等.龙刘两库补水调度对黄河水质环境补偿效益计算[J].水力发电学报,2008,(6):48-52.
【102】毛显强,钟瑜,张胜.生态补偿的理论探讨[J].中国人口·资源与环境,2002,(4):38-41.
【103】王金龙,马为民.关于流域生态补偿问题的探讨[J].水土保持学报,2002,16(6):82-83,150.
【104】刘涵、叶琳、赵麦换、黄强等.黄河干流梯级电站补偿效益初步研究[J].西北水力发电,2003,16(2):1-4.
【105】彭晓明,王红瑞,董艳艳等.水资源稀缺条件下的水资源价值评价模型及其应用[J].自然资源学报,2006,21(4):670-674
【106】Mercer L J. The efficiency of water pricing: A rate of return analysis for municipal water department [J]. Water resource Bulletin,1986,23(2):92-108.
【107】Moncur J E T. Drought episodes management: the role price [J]. Water resource Research, 1988,24(2):88-96.
【108】Moncur J E T. Urban water pricing drought management [J]. Water resource Research,1987,23 (2):28-35.
【109】Murdock S H. Role of sociodemograpic characteristics in projections of water use [J]. Water resource Planning and management,1991,117 (2):100-112.
【110】Wichelns, Motivating reduction in drain water with block Ratter prices for irrigation water [J], Water resource,1991,27 (4):23-28.
【111】Hayward, K., Charged Response [J]. World water and environmental engineer,1991, (2):5-10.
【112】Michael, L., Estimating Urban residential water demand: Effects of price structure, conservation and education [J]. Water Resource,1992,28 (3):62-67.
【113】姜文来.我国水资源价值研究现状及展望[J].地理学与国土研究,1996,(1).1-6.
【114】雷佩托著.李金昌译.关于自然资源核算与折旧问题[R].北京:1987.
【115】李金昌等译.挪威的自然资源核算与分析[R].北京:1987.
【116】L.洛伦兹著.李金昌等译.自然资源核算与分析[R].北京:1988.
【117】李金昌.资源核算应列入国民经济核算体系[N].经济口报,1987-10-03.
【118】李金昌.经济发展中的资源空心化现象及其根源[N].北京科技报,1989-01-14.
【119】李金昌,建立科技引推型资源战略[N].科技日报,1990-01-01.
【120】李金昌.我国资源问题及其对策[J].管理世界,1990,(1):6-11.
【121】李金昌.现行国民经济体系核算应予完善[N].北京科技报,1989-03-04
【122】李金昌主编.资源核算论[M].第1版.北京:海洋出版社,1991.
【123】胡昌暖主编.资源价格研究[M].第1版.北京:中国物价出版社.1993.
【124】王彦.论自然资源价格的确定[J].价格理论与实践,1993,(2):32-36
【125】昊军晖.论资源价格[J].价格月刊,1993,(2):23-27.
【126】蒲志仲.自然资源价值浅探[J].价格理论与实践,1993,(4):12-16.
【127】姜文来,王华东.水资源价值和价格研究[J].水利水电科技进展,1995,(1):25-29.
【128】姜文来.水资源价值研究[D].北京:北京师范大学博士学位论文.1995
【129】黄贤金.自然资源二元价值论及其稀缺价格研究[J].中国人口、资源与环境,1994,4(4):42.-47.
【130】姜文来,王华东.水资源耦合价值研究[J].自然资源,1995,(2):43-48.
【131】姜文来,王华东等.水资源价值流研究[J].经济地理,1994,14(4):21-26..
【132】Jiang wenlai etal, studies on the controlling of sewage discharge by means of price management[J]. IAIA.1993, (52):121-126.
【133】姜文来,王华东.水资源负价值研究[J].生态经济,1993,(3):34-38.
【134】姜文来.水资源核算及其纳入国民经济核算体系研究[D].吉林大学硕士学位论文,1992.
【135】阮本清,张春玲.水资源价值流的运移传递过程[J].水利学报,2003,(9):1-5.
【136】阮本清,张春玲.水资源价值流的运移传递改进模型[J].水利学报,2005,(4):396-400.
【137】温善章.石春先.河流可供水资源影子价格研究[J].人民黄河,1993,(7):26-31.
【138】中国环境与发展国际合作委员会.资深核算价格政策研究工作汇报[R].1994
【139】姜文来.水资源价值论[M].北京:科学出版社,1998.
【140】辛长爽,金锐.水资源价值及其确定方法研究[J].西北水资源与水工程,2002.13(4):15-18
【141】何敦煌.论经济外部性、物质利益关系和生态环境破坏[J].社会科学战线,2001(4):19-24.
【142】左其亭.论生态环境用水与生态环境需水的区别与计算问题[J].生态生境,2005,14(4):611-615.
【143】孙汉贤,方润生.黄河上游水电站效益分析[J].西北水电,2000,(4):1-7
【144】刘涵,黄强,佟春生.龙刘两库补水对黄河中下游的环境补偿影响分析[J].水土保持学报,2005(1):145-148.
【145】GB3838-2002,地表水环境质量标准[S].北京:中国标准出版社,2002.
【146】郝伏勤,黄锦辉,李群.黄河干流生态环境需水研究[M].郑州-黄河水利出版社2005.12-18-117
【147】2003年黄河水资源公报[R].水利部黄河水利委员会.2004.
【148】2002年黄河水资源公报[R].水利部黄河水利委员会.2003.
【149】Costanza R, D'Arge R, Groot R, et al. The value of the world's ecosystem services and natural capital [J]. Nature,1997,386:253-260.
【150】Wackernagel M, Rees W. Qur Ecological Footprint-reducing Human Impact on the Earth [M]. Gabriola Island, B C, Canada: New Society Publishers,1996,61-83.
【151】Rees W, Wackernagel M. Urban ecological footprints: why cities cannot be sustainable-and why they are a key to sustainability [J]. Environmental Impact Assessment Review,1996,16(4):223-248.
【152】Wackernagel M, Onisto L, Bello P, et al. National natural capital accounting with the ecological footprint concept [J]. Ecological Economics,1999,29(3):375-390.
【153】St glehner G. Ecological footprint-a tool for assessing sustainable energy supplies [J]. Journal of Cleaner Production,2003, 11(3):267-277.
【154】Monfreda C, WackernagelM, Deumling D. Establishing national natural capital accounts based on detailed Ecological Footprint and biological capacity assessments [J]. Land Use Policy,2004, 21(3):231-246.
【155】Wackernagel M, Monfreda C, Schulz N B, et al. Calculating national and global ecological footprint time series:resolving conceptual challenges [J]. Land Use Policy,2004,21(3):271-278.
【156】徐中民,陈东景,张志强等.中国1999年的生态足迹分析[J].土壤学,2000,39(3):441-445.
【157】谢高地,鲁春霞,冷允法等.青藏高原生态资产的价值评估[J].自然资源学报,2003,18(2):189-196
【158】г.B.沃洛巴耶夫、A.B.阿瓦克扬主编,李砚阁、程玉慧等译,杨景辉等校.水库及其环境影响[M].北京:中国环境科学出版社,1994.
【159】方子云编著.水利建设的环境效应分析与量化[M].北京:中国环境科学出版社,1993.
【160】崔保山,杨志峰.吉林省典型湿地资源效益评价研究[J].资源科学,2001,23(3):55-61.
【161】盛连喜,冯江,王娓.环境生态学导论[M].北京:高等教育出版社,2004.
【162】王西琴.河流生态需水理论、方法与应用[M].北京:中国水利水电出版社,2007.4.
【163】Petts G. Impounded rivers: perspectives for ecological management [M]. Chichester: Wiley,1984
【164】陈庆伟,刘兰芬,刘昌明.筑坝对河流生态系统的影响及水库生态调度研究[J].北京师范大学学报(自然科学版),2007,43(5):579-582
【165】Ward J V, Stanford J A. The ecology of regulated stream[M]. New York: Plennum Press,1979
【166】Vorosmarty C J, Sharma K P, Fekete B M, et al. The storage and aging of continental runoff in large reservoir systems of the world[J]. Ambio,1997,26:210
【167】 夏继红,严忠民,蒋传丰,等.河岸带生态系统综合评价指标体系研究[J].水科学进展,2005,16(13):34
【168】倪晋仁,金玲,赵业安,等.黄河下游河道最小生态环境需水量初步研究[J].水利学报,2002,(10):1-4
【169】刘兰芬.河流水电开发的环境效益及主要环境问题研究[J].水利学报,2002,(8):121
【170】Nilsson C, Berggren K. Alterations of riparian ecosystems caused by river regulation [J]. Bioscience,2000,59(9):785
【171】万景文.论龙刘两库补水缓解黄河下游水量供需矛盾的巨大作用[J].水力发电学报,1996,(2):22-29.
【172】白洋淀概述[EB/OL].http://www.hwcc.com.cn.;水信息网.2007-12-5
【173】河北省水利厅建设与管理处.科学谋划精心实施河北省首次引黄补淀成效显著[J].河北水利,2007,(3):18-19.
【174】王立明,戴乙.引黄济淀生态调水环境影响评价[J].海河水利,2007,(10):12-14.
【175】Gore J A-Setting priorities for minimum flow assessments in Southern Africa[J]·South African Journal of Science,1989, (85):614-615.
【176】丰丽华.河流生杰环境需水理论方法及应用研究[D].南京:河海大学,2002,9.
【177】陈敏建,丰华丽,王立群等.生态标准河流和调度管理研究[J].水科学进展,2006,17(5):631-636.
【178】Tennant D I, in stream flow regimes for fish, wild life, recreation and related environmental resources [J] Fisheries,1976,1(4); 6-10.
【179】余建星,李彦苍,吴海欣等.基于熵的海洋平台安全评价专家评定模型[J].海洋工程,2006,24(4):90-54.
【180】王爱军,朱诚.黄河断流对全球气候变化的响应[J].自然灾害学报,2002,11(2):103-107.
【181】姚文艺,赵业安,汤立群等.黄河下游河道断流灾害初探[J].水科学进展,1999,10(2):160-164.
【182】杨朝飞.黄河断流的生态思考[J].中国环境管理,997,(5):4-7
【183】 杨志刚,杨洪昌,谷湘潜,等.近年来黄河下游断流干旱背景分析[J].气象学报,2000,58(6):751-758.
【184】黄朝迎,祝昌汉.黄河断流的气候分析与对策[J].人民黄河,1997,(10):39-4
【185】 王颖,张永战.人类活动与黄河断流及海岸环境影响[J].南京大学学报(自然科学),1998,34(3):257-271
【186】陈霁巍,穆兴民.黄河断流的态势、成因与科学对策[J].自然资源学报,2000,15(1):31-35.
【187】穆兴民,陈霁巍.黄河断流人之过[J].科学(中文版),1999,(3):49-50.
【188】徐乾清.关于黄河下游断流的几点看法[J].人民黄河,1997,(10):45-47.
【189】韦志刚,董文杰,惠小英.中国西北地区降水的演变趋势和年际变化[J].气象学报,2000,
58(2):234-243.
【190】吴凯,谢贤群,刘恩民.黄河断流概况、变化规律及其预测[J].地理研究,1998,17(2):125-130.
【191】夏正楷.黄土高原第四纪期间水土流失的地质记录和基本规律[J].水土保持研究,1999,6(4):49-53
【192】叶青超.黄河断流对三角洲环境的恶性影响[J].地理学报,1998,17(5):387-391.
【193】万景文.黄河下游断流原因及其对策—兼论龙羊峡水库对缓解断流的重大贡献[J].西北水电,1997.(4):22-27
【194】孙志华.南水北调水价对引黄供水渠首价格的影响研究[J].中国物价,2005,(11):25-29
【195】陈敏建,丰华丽,王立群等.适宜生态流量计算方法研究[J].水科学进展,2007,18(5):745-760.
【196】刘晓燕,张原锋,侯素珍.黄河冲积性河段洪水塑槽机理初步研究[J].人民黄河,2006,(4):13-16.
【197】申冠卿,张原锋,侯素珍等.黄河上游干流水库调节水沙对宁蒙河道的影响[J].泥沙研究,2007,(1):67-75
【198】侯素珍,王平.黄河宁蒙河道排洪指标及径流条件分析[J].人民黄河,2005,27(9):24-27
【199】姚惠明,秦福兴,沈国昌等.黄河宁蒙河段凌情特性研究[J].水科学进展,2007,18(6):893-898
【200】蔡琳,卢杜田.水库防凌调度数学模型的研制与开发[J].水利学报,2002,(6):67-71
【201】李会安,黄强,沈晋.黄河上游水库群防凌优化调度研究[J].水利学报,2001,(7):51-56
【202】饶素秋,高治定,霍世青等.黑山峡水利枢纽在宁蒙河段防凌中的运用研究[J].人民黄河,2006,28(10): 16-19
【203】王军, 储成流,付辉,高月霞,尹运基.基于人工神经网络模拟弯槽段水内冰冰塞厚度分布[J].水力发电学报,2007,26(2):104-107
【204】梅亚东,熊莹,陈立华.梯级水库综合利用调度的动态规划方法研究[J].水力发电学报.2007.26(2): 1-4
【205】王煜,黄强,侯传河等.小浪底水库兴利目标关系参数的初步分析[J].水力发电学报,2002,21(2):17-23
【206】徐剑峰.黄河内蒙古段凌洪灾害及防凌减灾对策[J].冰川冻土,1995,17(1):1-7
【207】可素娟,吕光圻,任志远.黄河巴彦高勒河段冰塞机理研究[J].水利学报,2000,(7):66-69
【208】王进学.黄河上游梯级水库对宁蒙河段防凌的作用分析[J].西北水电,2004,(3):83
【209】可素娟,王敏,饶素秋等.黄河冰凌研究[M].郑州:黄河水力出版社,2002.8-103
【210】 鲁春霞,张耀军,成升魁等.黄河大柳树水利工程开发的机会成本分析[J].水利学报,2003,(10):124-128
【211】林来照,顾明林,朱云通.黄河宁蒙段2001-2002年度凌汛特点分析[J].内蒙古水利,2003,(1):101-104.
【2】王彬.短缺与治理:对中国水短缺问题的经济学分析[D].上海:复旦大学,2004:3-4.
【3】中国水利水电科学研究院.黄淮海流域水资源合理配置研究简介[J].中国水利,2003,(2):39-47.
【4】张巧显,欧阳志云,王如松等.中国水安全系统模拟及对策比较研究[J].水科学进展,2002,13(5):569-577.
【5】肖笃宁,陈文波,郭福良.论生态安全的基本概念和研究内容[J].应用生态学报,2002,13(3):354-358.
【6】鲁春霞,谢高地,成升魁,于贵瑞.水利工程对河流生态系统服务功能的影响评价方法初探[J].应用生态学报,2003,14(5):803-807.
【7】王浩,王建华,秦大庸.流域水资源合理配置的研究进展与发展方向[J].水科学进展,2004,15(1):123-128.
【8】Dinar Ariel, Mark W, Rosegrant, et al. Water Allocation Mechanisms—Principles and Examples[R]. The World Bank,1995,15-21.
【9】秦建明.我国电力建设的现状与发展[J].电力建设,1999(10):1-4.
【10】李雪松.电力体制改革与水电业发展[J].中国农村水利水电,2003(8):75-77.
【11】韦直林,冯小春,崔占峰.论“以水库调控为中心”的治黄方略[J].人民黄河,2003.4:1-3.
【12】汪恕诚.实现由工程水利到资源水利的转变,做好面向21世纪中国水利这篇大文章.见汪恕诚.资源水利——人与自然和谐相处[M].北京:中国水利水电出版社,2003.
【13】汪恕诚.为实现水资源可持续利用而努力[N].北京:中国水利报,2000-3-21(1).
【14】汪恕诚.资源水利的理论内涵和实践基础[N].北京:中国水利报,2000-4-13(1).
【15】穆宏强,蔡长治.工程水利、资源水利、环境水利、社会水利和生态水利的内涵及其关系[J].长江职工大学学报,2002,19(1):1-3,8.
【16】汪恕诚.认清形势,转变思路,发展水利[N].北京:中国水利报,1999-11-25(1).
【17】张岳.论资源型水利与工程型水利[N].北京:中国水利报,1999-11-23(3).
【18】刘代荣.浅谈重庆水资源与“资源水利”[N].北京:中国水利报,1999-11-23(3).
【19】孙东坡,缑元有.环境水利[M].开封:河南大学出版社,1993:12.
【20】傅春,冯尚友.水资源持续利用(生态水利)原理的探讨[J].水科学进展2000,11(4):436-440.
【21】席家治.黄河水资源[M].黄河水利出版社,1996.
【22】黄委会断流研究项目组.黄河下游断流及对策研究报告[R].1997.
【23】黄委会勘测规划设计院.黄河水资源实时水量分配研究[R].郑州:“九五”国家重点科技攻关项目(98-928-01-01)
【24】中国21世纪议程-中国21世纪人口、环境与发展白皮书[M].北京:中国环境科学出版社,1994.
【25】李东.黄河下游断流成因及其对策研究[C],黄河断流生态影响及其对策研讨会论文集,北 京:中国环境科学出版社,1997.
【26】刘昌明,成立.黄河干流下游断流的径流序列分析[J].地理学报,55(3),2000:257-265.
【27】苏人琼.黄河流域灾害环境综合治理对策[M].郑州:‘黄河水利出版社,1997.
【28】赵麦换.水库补偿效益理论与实践——以黄河干流水库为例[D].西安:西安理工大学博士学位论文,2004.
【29】周大兵,继往开来--为21世纪中国水电事业的更大发展而努力[J].水力发电学报,2001.(4):1-8.
【30】李生海.美国哥伦比亚河梯级电站系统管理运行分析[J].水力发电,1994(9):54-56,52.
【31】黄强,沈晋.黄河干流水库调度及智能决策支持系统[M].西安:陕西科学技术出版社,1996.
【32】J.D.C.Little. The use of storage water in a hydroelectric system [J]. Opera. Resource.1955(3):21-25.
【33】D.P.Louck. Developing and implementing decision support system:a critique and a challenge [J]. Water Resources Research,1995,31(4):41-43.
【34】W. A. Hall and W. S. Butcher. Optimal timing of irrigation[J]. ASCE, Irrigation. Drain. Div, IR2, 1968,(6):12-16.
【35】Young, G. K. Finding reservoir operating rules. J. Hydrous [M]. Div. Am. Soc. Civil Engorging.1967, 93(HY6),297-321.
【36】Willam W-G.Yeh. Multi-objective analysis of multi-reservoir operation. Water Resources Research [J].1982,18(5):97-102.
【37】Arvanitidis, N. V. and J. Rosing, Optimal operating of multi-reservoir systems using a composite representation [J]. IEEE, PAS-89(2):328-335.
【38】Jurgeon. A. A decomposition method for the long-term scheduling of reservoirs in series [J]. Water Resources,17(6):1565-1570.
【39】Simonovic, S. P., Reservoir systems analysis:Closing gap between theory and practice [J]. Water Resource. Planning. And Management, ASCE,1992,118(3):262-280.
【40】Papageorgiou, M., Optimization-Static, Dynamic, stochastic methods for practical use[J]. Old engorges, Munich, Germany (in German),1991 28(4):151-154.
【41】Wurbs, R. A., Reservoir-system simulation and optimization models [J]. Water Resource. Planning. And Management, ASCE,1993,119(4):455-472.
【42】Plate E J, Sustainable Development of Water Resources:A challenge to Science and Engineering [J]. Water International,1993,18(2):84-93.
【43】Haimes Y Y. Sustainable Development: A Holistic Approach to Natural Resources [J]. Water International,1992,17(4):187-192.
【44】陈守煜.系统模糊决策理论与应用[M].大连:大连理工大学出版社,1994.
【45】陈守煜.水文水资源系统的模糊、优化与数据计算[M].大连:大连理工大学出版社,1989.
【46】HEC-5 simulation of flood control and conservation systems user's manual [C]. (1982). U.S. Army Corps of Engineers, Hydrologic Engineering Center, Davis, Calif.
【47】Jain, S. K., and Goel, M. K. A model for simulation of multi-reservoir system for conservation operation[C], User's manual-46. National Institute of Hydrology, India: Rookies,1994:56-64.
【48】Hydrologic Engineering Center. Optimization of multi-purpose reservoir system operations:A review of modeling and analysis approaches[J]. US.Army Corps of Engineers, Davis, Res. 1991. (34):103-110.
【49】Kucaera, G., and Diment, G. General water supply system simulation model[J]. Water Resource. Planning And Management, ASCE,1988,114(4):365-382.
【50】Loucks, D. P., Salewicz, K. A., and Taylor, M. RIRIS, An interactive river system simulation program, user'manual[M]. Ithaca,Cornel University, N. Y.1990.
【51】Loaicida, H. A., and Marino, M. A., An approach to parameter estimation and stochastic control in water resources with an application to reservoir operation[J].Water Resources,198521(11): 1575-1584.
【52】Murray, D. M., Yakowitz, S. J.Constrained differential dynamic programming and its application to multi-reservoir control[J]. Water Resources,197915(5):1017-1027.
【53】黄涛珍,王宗源.电力规划模型及水电补偿调节研究动态[J].水利水电技术,2004(5):104-107.
【54】吴沧浦.年调节水库的最优运行[J].科学记录,1960(2):23-28
【55】陈洋波,陈安勇.隔河岩水库条件频率曲线分析计算[J].武汉水利电力大学学报,1997,19(6):18-22.
【56】徐鼎甲,张玉山.混联水电站群实时联合优化调度[J].水力发电学报,2001(3):68-70.
【57】杨振立,王军良,李福生.碛口水库与安康、石泉水库补偿调节效益[J].陕西水力发电,1998,14(4):27-31.
【58】刘鑫卿,顾宁昌.华中华南联网水电站群补偿调节优化算法研究[J].电力系统自动化,1999,23(15):30-32.
【59】高宏,王浣尘,刘可新等.系统工程学报[J].1999,14(3):205-210.
【60】解建仓,田峰巍,索丽生等.水资源调度管理决策支持系统的理论与实践[M].西安:陕西科学技术出版社,1998.
【61】谢新民.基于知识的水电站水库群模糊优化补偿调节模型研究[J].水利学报,1998,(3):74-81.
【62】万俊.大系统分解协调技术及DDDP算法在水库群优化补偿调节中的联合应用[J].水利水电技术,1994,(5):2-5.
【63】黄强,沈晋著.黄河干流水库调度及智能决策支持系统[M].陕西科学技术出版,1996.
【64】黄强.应用大系统递阶控制理论解梯级水电站水库群长期最优调度[J].水电能源科学,1993,11(2):80-87.
【65】田峰巍.梯级水电站群的规划与调度[M].科学技术文献出版社,1992.
【66】谢建仓,田峰巍.水资源调度管理决策支持系统的理论与实践[M].西安:陕西科学技术出版
社.1997.
【67】田峰巍,解建仓.用非平衡系统理论认识水资源系统分析中的几个问题[J].西安理工大学学报,13(4),1997:314-319.
【68】黄强.黄河干流水库联合调度模拟优化模型及人机对话算法[J].水利学报,1997,(4):56-61.
【69】S Ranjithan, J W Eheart and J H Garrett Jr. Neural network-based screwing for ground water reclamation under uncertainty [J]. Water Resources Research,1993,29(3):563-574.
【70】Labadie, J. W. and C. H. Sullian. Calculationized decision support systems for water managers [J]. Water Resources Planning And Managememt,1986,112 (3):299-307.
【71】Johnson, L. E. Water resources management decision support systems [J]. Water Resources PlanningAnd Management,1986,112(3):308-325.
【72】Grefenstette J J. Optimization of control parameters for genetic algorithms [J]. IEEE Trans. On System man and cybernetics,1986, SMC-16(1):124-136.
【73】黄涛珍.跨流域水电站群长期补偿调节优化数学模型研究[M].南京:河海大学,1993.
【74】董子敖,李英.大规模水电站群随即优化补偿调节调度模型[J].水力发电学报,1991,(4):7-14.
【75】管家宝,梁年生.梯级水电站群优化补偿调节模型及计算方法[J].水电能源科学,1989,(3):20-26.
【76】Turgeon A. Optimal short-term hydro scheduling from the principle of progressive optimality [J]. Water Resources,1981,17(3):481-486.
【77】周云,艾明建,李幼华.梯级水电站间水库调节效益偿付方法研究[J].水力发电,2000(3):7-10.
【78】董子敖.水库群调度与规划的优化理论和应用[M].山东科学技术出版社,1989.
【79】张功义.谈龙头水库投资如何在下游梯级电站中分摊[J].水利水电科技进展,2000,20(6):43-44,61.
【80】张平.关于外资建设水电站动能经济设计工作的探讨[J].水力发电,2000,(4):9-11.
【81】薛小杰,黄强,田峰巍等.梯级水电站补偿效益分摊方法研究[J].中国农村水利水电,2001,(4):45-47,53.
【82】赵麦换,徐晨光,黄强.应用离差平方法进行梯级水库补偿效益分摊[J].水利水电技术,2004,(5):104-107.
【83】畅建霞,黄强,田峰巍.黄河上游梯级电站补偿效益研究[J].水力发电学报,2002,(4):11-17.
【84】刘涵,黄强,赵麦换等.黄河干流供水发电补偿效益及其分配方案研究[J].水力发电学报,2003,(2):24-30.
【85】黄强,赵麦换等.黄河干流水电站补偿效益分配方案与实施对策初步研究[R].西安:西安理工大学,2001
【86】刘涵.黄河干流供水发电补偿效益及其分配方案研究[D].西安:西安理工大学,2003.
【87】万飚,高仕春,陶自成等.三峡梯级和清江梯级联合运行影响分析[J].水力发电学报,2007,(4):1-5.
【88】李安强,王丽萍,纪昌明等.跨流域混联式水电站群联合补偿效益分析[J].水电自动化与大坝监 测,2007,(5):5-9.
【89】黄强.水能利用[M].北京:中国水利水电出版,1998
【90】王礼育.现代水利展望述略[J].人民珠江,2002,(3):1-3,6.
【91】姜文来.资源水利理论基础初探[J].中国水利,1999(10):21-22.
【92】马万里,王新民.流域“龙头”大水库应优先开发——龙羊峡水电站概况及运行效益浅析[J].水力发电,1997,(9):38-42.
【93】史震古,徐宁娟.试论我国水电的经济效益[J].人民长江,1994,(10):25-31.
【94】席望潮,刘喜燕.大藤峡水利枢纽水资源配置任务简析[J].人民珠江,2006,(6):42-44.
【95】崔伟中,刘晨.松花江和沱江等重大水污染事件的反思[J].水资源保护,2006,(01):2-5
【96】黄河水利委员会.黄河流域水资源公报[R].郑州:黄河水利委员会水文局,1989~2002
【97】刘昌明,陈效国.黄河流域水资源演化规律与可再生性维持机理研究和进展[M].郑州:黄河水利出版社,2001
【98】史瑛珉,杨文华.龙羊峡、刘家峡梯级水库“81.9”“89.6”洪水特点与调度[J].水力发电,1997, (9):47-48.
【99】黄强,赵麦换等.黄河干流水电站补偿效益分配方案与实施对策研究[R].西安:西安理工大学,2002
【100】张泽中,黄强,薛小杰等.梯级水库群中防凌水库的防凌补偿效益计算[J].水力发电学报,2009,(1):58-63.
【101】张泽中,黄强,王义民等.龙刘两库补水调度对黄河水质环境补偿效益计算[J].水力发电学报,2008,(6):48-52.
【102】毛显强,钟瑜,张胜.生态补偿的理论探讨[J].中国人口·资源与环境,2002,(4):38-41.
【103】王金龙,马为民.关于流域生态补偿问题的探讨[J].水土保持学报,2002,16(6):82-83,150.
【104】刘涵、叶琳、赵麦换、黄强等.黄河干流梯级电站补偿效益初步研究[J].西北水力发电,2003,16(2):1-4.
【105】彭晓明,王红瑞,董艳艳等.水资源稀缺条件下的水资源价值评价模型及其应用[J].自然资源学报,2006,21(4):670-674
【106】Mercer L J. The efficiency of water pricing: A rate of return analysis for municipal water department [J]. Water resource Bulletin,1986,23(2):92-108.
【107】Moncur J E T. Drought episodes management: the role price [J]. Water resource Research, 1988,24(2):88-96.
【108】Moncur J E T. Urban water pricing drought management [J]. Water resource Research,1987,23 (2):28-35.
【109】Murdock S H. Role of sociodemograpic characteristics in projections of water use [J]. Water resource Planning and management,1991,117 (2):100-112.
【110】Wichelns, Motivating reduction in drain water with block Ratter prices for irrigation water [J], Water resource,1991,27 (4):23-28.
【111】Hayward, K., Charged Response [J]. World water and environmental engineer,1991, (2):5-10.
【112】Michael, L., Estimating Urban residential water demand: Effects of price structure, conservation and education [J]. Water Resource,1992,28 (3):62-67.
【113】姜文来.我国水资源价值研究现状及展望[J].地理学与国土研究,1996,(1).1-6.
【114】雷佩托著.李金昌译.关于自然资源核算与折旧问题[R].北京:1987.
【115】李金昌等译.挪威的自然资源核算与分析[R].北京:1987.
【116】L.洛伦兹著.李金昌等译.自然资源核算与分析[R].北京:1988.
【117】李金昌.资源核算应列入国民经济核算体系[N].经济口报,1987-10-03.
【118】李金昌.经济发展中的资源空心化现象及其根源[N].北京科技报,1989-01-14.
【119】李金昌,建立科技引推型资源战略[N].科技日报,1990-01-01.
【120】李金昌.我国资源问题及其对策[J].管理世界,1990,(1):6-11.
【121】李金昌.现行国民经济体系核算应予完善[N].北京科技报,1989-03-04
【122】李金昌主编.资源核算论[M].第1版.北京:海洋出版社,1991.
【123】胡昌暖主编.资源价格研究[M].第1版.北京:中国物价出版社.1993.
【124】王彦.论自然资源价格的确定[J].价格理论与实践,1993,(2):32-36
【125】昊军晖.论资源价格[J].价格月刊,1993,(2):23-27.
【126】蒲志仲.自然资源价值浅探[J].价格理论与实践,1993,(4):12-16.
【127】姜文来,王华东.水资源价值和价格研究[J].水利水电科技进展,1995,(1):25-29.
【128】姜文来.水资源价值研究[D].北京:北京师范大学博士学位论文.1995
【129】黄贤金.自然资源二元价值论及其稀缺价格研究[J].中国人口、资源与环境,1994,4(4):42.-47.
【130】姜文来,王华东.水资源耦合价值研究[J].自然资源,1995,(2):43-48.
【131】姜文来,王华东等.水资源价值流研究[J].经济地理,1994,14(4):21-26..
【132】Jiang wenlai etal, studies on the controlling of sewage discharge by means of price management[J]. IAIA.1993, (52):121-126.
【133】姜文来,王华东.水资源负价值研究[J].生态经济,1993,(3):34-38.
【134】姜文来.水资源核算及其纳入国民经济核算体系研究[D].吉林大学硕士学位论文,1992.
【135】阮本清,张春玲.水资源价值流的运移传递过程[J].水利学报,2003,(9):1-5.
【136】阮本清,张春玲.水资源价值流的运移传递改进模型[J].水利学报,2005,(4):396-400.
【137】温善章.石春先.河流可供水资源影子价格研究[J].人民黄河,1993,(7):26-31.
【138】中国环境与发展国际合作委员会.资深核算价格政策研究工作汇报[R].1994
【139】姜文来.水资源价值论[M].北京:科学出版社,1998.
【140】辛长爽,金锐.水资源价值及其确定方法研究[J].西北水资源与水工程,2002.13(4):15-18
【141】何敦煌.论经济外部性、物质利益关系和生态环境破坏[J].社会科学战线,2001(4):19-24.
【142】左其亭.论生态环境用水与生态环境需水的区别与计算问题[J].生态生境,2005,14(4):611-615.
【143】孙汉贤,方润生.黄河上游水电站效益分析[J].西北水电,2000,(4):1-7
【144】刘涵,黄强,佟春生.龙刘两库补水对黄河中下游的环境补偿影响分析[J].水土保持学报,2005(1):145-148.
【145】GB3838-2002,地表水环境质量标准[S].北京:中国标准出版社,2002.
【146】郝伏勤,黄锦辉,李群.黄河干流生态环境需水研究[M].郑州-黄河水利出版社2005.12-18-117
【147】2003年黄河水资源公报[R].水利部黄河水利委员会.2004.
【148】2002年黄河水资源公报[R].水利部黄河水利委员会.2003.
【149】Costanza R, D'Arge R, Groot R, et al. The value of the world's ecosystem services and natural capital [J]. Nature,1997,386:253-260.
【150】Wackernagel M, Rees W. Qur Ecological Footprint-reducing Human Impact on the Earth [M]. Gabriola Island, B C, Canada: New Society Publishers,1996,61-83.
【151】Rees W, Wackernagel M. Urban ecological footprints: why cities cannot be sustainable-and why they are a key to sustainability [J]. Environmental Impact Assessment Review,1996,16(4):223-248.
【152】Wackernagel M, Onisto L, Bello P, et al. National natural capital accounting with the ecological footprint concept [J]. Ecological Economics,1999,29(3):375-390.
【153】St glehner G. Ecological footprint-a tool for assessing sustainable energy supplies [J]. Journal of Cleaner Production,2003, 11(3):267-277.
【154】Monfreda C, WackernagelM, Deumling D. Establishing national natural capital accounts based on detailed Ecological Footprint and biological capacity assessments [J]. Land Use Policy,2004, 21(3):231-246.
【155】Wackernagel M, Monfreda C, Schulz N B, et al. Calculating national and global ecological footprint time series:resolving conceptual challenges [J]. Land Use Policy,2004,21(3):271-278.
【156】徐中民,陈东景,张志强等.中国1999年的生态足迹分析[J].土壤学,2000,39(3):441-445.
【157】谢高地,鲁春霞,冷允法等.青藏高原生态资产的价值评估[J].自然资源学报,2003,18(2):189-196
【158】г.B.沃洛巴耶夫、A.B.阿瓦克扬主编,李砚阁、程玉慧等译,杨景辉等校.水库及其环境影响[M].北京:中国环境科学出版社,1994.
【159】方子云编著.水利建设的环境效应分析与量化[M].北京:中国环境科学出版社,1993.
【160】崔保山,杨志峰.吉林省典型湿地资源效益评价研究[J].资源科学,2001,23(3):55-61.
【161】盛连喜,冯江,王娓.环境生态学导论[M].北京:高等教育出版社,2004.
【162】王西琴.河流生态需水理论、方法与应用[M].北京:中国水利水电出版社,2007.4.
【163】Petts G. Impounded rivers: perspectives for ecological management [M]. Chichester: Wiley,1984
【164】陈庆伟,刘兰芬,刘昌明.筑坝对河流生态系统的影响及水库生态调度研究[J].北京师范大学学报(自然科学版),2007,43(5):579-582
【165】Ward J V, Stanford J A. The ecology of regulated stream[M]. New York: Plennum Press,1979
【166】Vorosmarty C J, Sharma K P, Fekete B M, et al. The storage and aging of continental runoff in large reservoir systems of the world[J]. Ambio,1997,26:210
【167】 夏继红,严忠民,蒋传丰,等.河岸带生态系统综合评价指标体系研究[J].水科学进展,2005,16(13):34
【168】倪晋仁,金玲,赵业安,等.黄河下游河道最小生态环境需水量初步研究[J].水利学报,2002,(10):1-4
【169】刘兰芬.河流水电开发的环境效益及主要环境问题研究[J].水利学报,2002,(8):121
【170】Nilsson C, Berggren K. Alterations of riparian ecosystems caused by river regulation [J]. Bioscience,2000,59(9):785
【171】万景文.论龙刘两库补水缓解黄河下游水量供需矛盾的巨大作用[J].水力发电学报,1996,(2):22-29.
【172】白洋淀概述[EB/OL].http://www.hwcc.com.cn.;水信息网.2007-12-5
【173】河北省水利厅建设与管理处.科学谋划精心实施河北省首次引黄补淀成效显著[J].河北水利,2007,(3):18-19.
【174】王立明,戴乙.引黄济淀生态调水环境影响评价[J].海河水利,2007,(10):12-14.
【175】Gore J A-Setting priorities for minimum flow assessments in Southern Africa[J]·South African Journal of Science,1989, (85):614-615.
【176】丰丽华.河流生杰环境需水理论方法及应用研究[D].南京:河海大学,2002,9.
【177】陈敏建,丰华丽,王立群等.生态标准河流和调度管理研究[J].水科学进展,2006,17(5):631-636.
【178】Tennant D I, in stream flow regimes for fish, wild life, recreation and related environmental resources [J] Fisheries,1976,1(4); 6-10.
【179】余建星,李彦苍,吴海欣等.基于熵的海洋平台安全评价专家评定模型[J].海洋工程,2006,24(4):90-54.
【180】王爱军,朱诚.黄河断流对全球气候变化的响应[J].自然灾害学报,2002,11(2):103-107.
【181】姚文艺,赵业安,汤立群等.黄河下游河道断流灾害初探[J].水科学进展,1999,10(2):160-164.
【182】杨朝飞.黄河断流的生态思考[J].中国环境管理,997,(5):4-7
【183】 杨志刚,杨洪昌,谷湘潜,等.近年来黄河下游断流干旱背景分析[J].气象学报,2000,58(6):751-758.
【184】黄朝迎,祝昌汉.黄河断流的气候分析与对策[J].人民黄河,1997,(10):39-4
【185】 王颖,张永战.人类活动与黄河断流及海岸环境影响[J].南京大学学报(自然科学),1998,34(3):257-271
【186】陈霁巍,穆兴民.黄河断流的态势、成因与科学对策[J].自然资源学报,2000,15(1):31-35.
【187】穆兴民,陈霁巍.黄河断流人之过[J].科学(中文版),1999,(3):49-50.
【188】徐乾清.关于黄河下游断流的几点看法[J].人民黄河,1997,(10):45-47.
【189】韦志刚,董文杰,惠小英.中国西北地区降水的演变趋势和年际变化[J].气象学报,2000,
58(2):234-243.
【190】吴凯,谢贤群,刘恩民.黄河断流概况、变化规律及其预测[J].地理研究,1998,17(2):125-130.
【191】夏正楷.黄土高原第四纪期间水土流失的地质记录和基本规律[J].水土保持研究,1999,6(4):49-53
【192】叶青超.黄河断流对三角洲环境的恶性影响[J].地理学报,1998,17(5):387-391.
【193】万景文.黄河下游断流原因及其对策—兼论龙羊峡水库对缓解断流的重大贡献[J].西北水电,1997.(4):22-27
【194】孙志华.南水北调水价对引黄供水渠首价格的影响研究[J].中国物价,2005,(11):25-29
【195】陈敏建,丰华丽,王立群等.适宜生态流量计算方法研究[J].水科学进展,2007,18(5):745-760.
【196】刘晓燕,张原锋,侯素珍.黄河冲积性河段洪水塑槽机理初步研究[J].人民黄河,2006,(4):13-16.
【197】申冠卿,张原锋,侯素珍等.黄河上游干流水库调节水沙对宁蒙河道的影响[J].泥沙研究,2007,(1):67-75
【198】侯素珍,王平.黄河宁蒙河道排洪指标及径流条件分析[J].人民黄河,2005,27(9):24-27
【199】姚惠明,秦福兴,沈国昌等.黄河宁蒙河段凌情特性研究[J].水科学进展,2007,18(6):893-898
【200】蔡琳,卢杜田.水库防凌调度数学模型的研制与开发[J].水利学报,2002,(6):67-71
【201】李会安,黄强,沈晋.黄河上游水库群防凌优化调度研究[J].水利学报,2001,(7):51-56
【202】饶素秋,高治定,霍世青等.黑山峡水利枢纽在宁蒙河段防凌中的运用研究[J].人民黄河,2006,28(10): 16-19
【203】王军, 储成流,付辉,高月霞,尹运基.基于人工神经网络模拟弯槽段水内冰冰塞厚度分布[J].水力发电学报,2007,26(2):104-107
【204】梅亚东,熊莹,陈立华.梯级水库综合利用调度的动态规划方法研究[J].水力发电学报.2007.26(2): 1-4
【205】王煜,黄强,侯传河等.小浪底水库兴利目标关系参数的初步分析[J].水力发电学报,2002,21(2):17-23
【206】徐剑峰.黄河内蒙古段凌洪灾害及防凌减灾对策[J].冰川冻土,1995,17(1):1-7
【207】可素娟,吕光圻,任志远.黄河巴彦高勒河段冰塞机理研究[J].水利学报,2000,(7):66-69
【208】王进学.黄河上游梯级水库对宁蒙河段防凌的作用分析[J].西北水电,2004,(3):83
【209】可素娟,王敏,饶素秋等.黄河冰凌研究[M].郑州:黄河水力出版社,2002.8-103
【210】 鲁春霞,张耀军,成升魁等.黄河大柳树水利工程开发的机会成本分析[J].水利学报,2003,(10):124-128
【211】林来照,顾明林,朱云通.黄河宁蒙段2001-2002年度凌汛特点分析[J].内蒙古水利,2003,(1):101-104.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |