| 基于虚拟水流动均衡性的农业用水综合调控 |
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| 引用本文: | 严冬,周建中,孙怀卫,王学敏.基于虚拟水流动均衡性的农业用水综合调控[J].农业工程学报,2014,30(21):91-98. |
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| 作者姓名: | 严冬 周建中 孙怀卫 王学敏 |
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| 作者单位: | 华中科技大学水电与数字化工程学院,武汉,430074 |
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| 基金项目: | 国家自然科学基金(41001379,51239004);长江科学院开放研究基金(CKWV2012316/KY) |
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| 摘 要: | 为了解决密不可分的干旱区水资源和农业问题,使虚拟水流动与水资源量和经济规模相适应,该文借鉴基尼系数概念评价虚拟水流动的区域均衡性,并以尽量提高区域均衡性为目标,建立融合了粮食流通模型的农业用水综合调控模型,从而在控制灌溉水使用总量的前提下,通过调整粮食生产耗水和产量来改变粮食流通格局,进而优化虚拟水流动状态。在甘肃的应用研究证明该方法可在满足用水总量限制要求前提下,使虚拟水流动均衡性较调控前有明显改善,实现了干旱区实体水和虚拟水的统一管理。这对促进干旱区不同地区间的协作、缓解水资源利用与粮食生产间的矛盾,具有重要的理论指导意义。
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| 关 键 词: | 农业 水资源 模型 虚拟水 区域均衡 综合调控 |
| 收稿时间: | 2014/4/27 0:00:00 |
| 修稿时间: | 2014/10/27 0:00:00 |
Comprehensive regulation of agricultural water based on equilibrium of virtual water flow |
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| Yan Dong,Zhou Jianzhong,Sun Huaiwei and Wang Xuemin.Comprehensive regulation of agricultural water based on equilibrium of virtual water flow[J].Transactions of the Chinese Society of Agricultural Engineering,2014,30(21):91-98. |
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| Authors: | Yan Dong Zhou Jianzhong Sun Huaiwei and Wang Xuemin |
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| Institution: | College of Hydropower & Information Engineering, Huazhong University of Science & Technology, Wuhan, 430074, China;College of Hydropower & Information Engineering, Huazhong University of Science & Technology, Wuhan, 430074, China;College of Hydropower & Information Engineering, Huazhong University of Science & Technology, Wuhan, 430074, China;College of Hydropower & Information Engineering, Huazhong University of Science & Technology, Wuhan, 430074, China |
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| Abstract: | Abstract: To solve problems of lack of water resources for agriculture in arid areas, it is necessary to utilize and compare the advantage of water using in different areas that are linked together through the commodity trade. The active regulation of commodity trade and water consumption in production is capable to build rational virtual water use embodied in commodity trade. It will ease the conflict between water supply and demand. This requires the implement of integrated management about real water and virtual water to achieve regional equilibrium of virtual water utilization. Considering the water utilization should fit the scale of water resources endowment and economy, the equilibrium level based on Gini coefficient is used to evaluate the regional equilibrium of virtual water flow against water resources endowment and Gross Domestic Product. To improve the regional equilibrium, a comprehensive regulation model about agricultural water consumption was setup. The decision variables belonged to the aspects of water use efficiency, plant area of grain and yield level per unit area. Through the adjustment of the decision variable, the relevant equilibrium level can be calculated using a sub-model. In the sub-model, based on the equilibrium analysis of grain supply-demand, the grain flow direction and quantity were estimated using the optimization model for minimizing the total transportation costs. Combined with the agricultural water consumption per unit mass evaluation on every district, the amounts of virtual water flow among districts, and the total amounts of virtual water inflow and outflow of every district were setup. Then the equilibrium level about water resources endowment and Gross Domestic Product were calculated and became the output of the sub-model. To minimize the value of equilibrium level, the particle swarm optimization was used to search the non-inferior solutions about the combination of various decision variables. Then the final solution was selected in the non-inferior solutions. To test the performance of the method, a case study was made in Gansu Province in semi-arid Western China. The grain supply and demand, agricultural water consumption and water resources endowment of every county and city in Gausu province were estimated. They were the inputs of the comprehensive regulation model. The decision variables included planted areas, irrigation water amounts per unit area, and the yield per unit areas of wheat and corn in every district. The planted area can increase or reduce within a certain range, the irrigation water amounts per unit area and the yield per unit areas can only have a certain amount of reduction and growth respectively. The objective was that the agricultural water consumption in every district after regulation should not increase. The transportation of corn and wheat were railway and highway, and the specific means of transportation between every two districts was determined by the lowest cost per unit mass. By using the comprehensive regulation model, the non-inferior solutions gave the various combinations about decision variables. The grain areas, grain productions, water consumptions and virtual water flows in different solutions were quite different, but the equilibrium increased significantly comparing to that before regulation. In these solutions, the overall pattern about the virtual water flow in Gansu did not change a lot, and the virtual water import and export districts kept unchanged. The significant change emerged in the grain production and virtual water flows in some districts. The results showed that the agricultural water comprehensive regulation was capable to improve the equilibrium of virtual water matching the water cap, and can be a useful supplement to existing integrated water resources allocation methods. Further studies about the comprehensive regulation need to focus on the introduction about more realistic constraints, finer regulation mechanism and more accurate flow of grain trade. |
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| Keywords: | agriculture water resources models virtual water regional equilibrium comprehensive regulation |
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