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Applying Fuzzy Matter-Element Model Based on AHP to Evaluating Bids of Water Saving Irrigation Project 被引量:4
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作者 PANFeng FUQiang +1 位作者 LIANGChuan LIUDong 《Journal of Northeast Agricultural University(English Edition)》 CAS 2003年第2期147-151,共5页
Owing to overcoming the characteristics that there are many economic and technical indexes which are fuzzy and incompatibility to each other in evaluating investment project,a new method is proposed.The method is base... Owing to overcoming the characteristics that there are many economic and technical indexes which are fuzzy and incompatibility to each other in evaluating investment project,a new method is proposed.The method is based on the matter-element analysis and combined with the concepts of fuzzy mathematics,which is called the method of fuzzy matter-element analysis.It constructs the compound fuzzy matter element with the investment projects,evaluation factors and their fuzzy value.Through establishing the best subjection degree (fuzzy value),complex fuzzy matter element of relational coefficient and weight aggregation of fuzzy matter-element model,the writer achieves on optimum order of the investment projects according to the calculated relational degree and finds the best project.In this paper,the calculation of weight adopts the analytical hierarchy process method(AHP).Through the actual example,it shows that the model is simple and its calculation is reliable.It is very significant for the engineering evaluated bid and investment decision. 展开更多
关键词 fuzzy matter element water saving irrigation evaluating bid AHP relational degree
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Fuzzy Comprehensive Evaluation for Decision Making of Water Saving Irrigation System 被引量:3
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作者 Luo Jin\|yao, Qiu Yuan\|feng College of Water Resources and Hydropower Engineering , Wuhan University, Wuhan 430072, Hubei, China 《Wuhan University Journal of Natural Sciences》 CAS 2003年第03A期837-841,共5页
A model of fuzzy comprehensive evaluation for water saving irrigation system (WSIS) decision making is proposed based on establishing an index system affected by six kinds of basic factors including qualitative and qu... A model of fuzzy comprehensive evaluation for water saving irrigation system (WSIS) decision making is proposed based on establishing an index system affected by six kinds of basic factors including qualitative and quantitative indexes. The object function of WSIS is set up by using the concept of fuzzy membership degree, it is to transform characteristic vector matrix into unify membership matrix and extending the least square method to the least of weighted distance square. The optimum weighted membership degree and the inferior weighted membership degree are used to solve the object function. This method effective solves the problem of classify for fuzzy attributive indexes and the problem of optimum for the set of different attributive indexes. A case study shows that the fuzzy comprehensive evaluation model is reasonable and effective in decision making for water saving irrigation system planning. 展开更多
关键词 water saving irrigation system (WSIS) decision making fuzzy comprehensive evaluation (FCE) index system fuzzy membership degree
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The Application of PPE Model Based on RAGA in Benefit Evaluating of Rice Water Saving 被引量:3
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作者 FU Qiang,YANG Guang-lin,FU Hong(Northeast Agricultural University,Harbin,Heilongjiang,150030,PRC) 《Journal of Northeast Agricultural University(English Edition)》 CAS 2003年第2期141-146,共6页
Through applying PPE model based on RAGA to evaluate the benefit of rice water saving,the author turns multi-dimension data into low dimension space.So the optimum projection direction can stand for the best influence... Through applying PPE model based on RAGA to evaluate the benefit of rice water saving,the author turns multi-dimension data into low dimension space.So the optimum projection direction can stand for the best influence on the collectivity.Thus,the value of projection function can evaluate each item good or not.The PPE model can avoid jamming of weight matrix in the method of fuzzy synthesize judgement,and obtain better result.The author wants to provide a new method and thought for readers who are engaged in investment decision-making of water saving irrigation and other relative study. 展开更多
关键词 RAGA PPE benefit of water saving irrigation EVALUATION
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The Effect of Water Saving and Production Increment by Drip Irrigation Schedules 被引量:2
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作者 QIUYuan-feng LUOJin-yao MENGGe 《Wuhan University Journal of Natural Sciences》 CAS 2004年第4期493-497,共5页
Drip irrigation system can achieve high uniformity. When the system is designed for uniformity coefficient equal or more than 70%, the water application in the field can be expressed as a normal distribution and furth... Drip irrigation system can achieve high uniformity. When the system is designed for uniformity coefficient equal or more than 70%, the water application in the field can be expressed as a normal distribution and further simplified to a linear distribution. This paper will describe the irrigation scheduling parameters, percent of deficit, application efficiency and coefficient of variation by simple mathematical model. Using this effective model and the irrigation application, the total yield affected by the total water application for different uniformity of irrigation application can be determined. More over, this paper uses the cost of water, price of yield, uniformity of the drip irrigation system, crop response to water application and environmental concerns of pollution and contamination to determine the optimal irrigation schedule. A case study shows that the optimal irrigation schedule can achieve the effect of water saving and production increment compared with the conventional irrigation schedule in which the whole field is fully irrigated. Key words drip irrigation - linear cumulative frequency curve - optimal irrigation schedule - water saving - production increment CLC number TV 139.1 Foundation item: Supported by the National Natural Science Foundation of China (59379407)Biography: QIU Yuan-feng (1973-), male, Ph. D, research direction: water saving irrigation theory and techniques. 展开更多
关键词 drip irrigation linear cumulative frequency curve optimal irrigation schedule water saving production increment
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Effect of Water Saving Irrigation Management Practices on Rice Productivity and Methane Emission from Paddy Field 被引量:2
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作者 Hafsa Jahan Hiya Muhammad Aslam Ali +1 位作者 Md. Abdul Baten Sanjit Chandra Barman 《Journal of Geoscience and Environment Protection》 2020年第9期182-196,共15页
Irrigation water supply is one of the vital components for sustainable rice farming, which is becoming a limiting resource in the changing climatic condition. An experiment was conducted at the research field of Bangl... Irrigation water supply is one of the vital components for sustainable rice farming, which is becoming a limiting resource in the changing climatic condition. An experiment was conducted at the research field of Bangladesh Agricultural University, Mymensingh during dry season from January-June of 2017 to investigate the suitability of Alternate Wet and Dry Irrigation (AWDI) for sustainable rice production and reducing methane emission. The modern rice variety BINA Dhan 10 was used as test crop. There were five irrigation treatments viz. T<sub>1</sub> (saturated condition), T<sub>2</sub> (continuous flooded, 5 cm standing water), T<sub>3</sub> (AWDI-10 cm;irrigated when water level fell 10 cm from surface), T<sub>4</sub> (AWDI-15 cm;irrigated when water level fell 15 cm from surface) and T<sub>5</sub> (AWDI-20 cm;irrigated when water level fell 20 cm from surface). Results of the field trial showed satisfactory grain yield and low seasonal methane emission along with significantly high irrigation water savings (%) in AWDI treated field plots. Among the treatments, T<sub>3</sub> (AWDI-10 cm) and T<sub>4</sub> (AWDI-15 cm) showed higher yield performance (6250kg<span style="color:#4F4F4F;font-family:-apple-system, " font-size:14px;white-space:normal;background-color:#f7f7f7;"=""><sup>.</sup></span>ha<span style="color:#FFFFFF;font-family:" white-space:normal;background-color:#d46399;"=""><span style="color: rgb(79, 79, 79);" font-size:14px;white-space:normal;background-color:#ffffff;"=""><sup>-</sup></span></span><sup>1</sup> and 5810 kg<span style="color:#4F4F4F;font-family:-apple-system, " font-size:14px;white-space:normal;background-color:#f7f7f7;"=""><sup>.</sup></span>ha<sup><span style="white-space:nowrap;">-</span>1</sup>, respectively) with lower CH<sub>4</sub> emission (reduced up to 36% and 40%, respectively) compared to continuous flooded treatment (T2, CF 5 cm water). In AWDI field plots less irrigation frequency (6 - 9) was required which significantly saved the amount of irrigation water (12% - 24%). Although T<sub>5</sub> (AWDI-20 cm) showed the highest water savings (24%) and lowest CH<sub>4</sub> emission (reduced up to 50%);however the lowest grain yield (4283 kg<span style="color:#4F4F4F;font-family:-apple-system, " font-size:14px;white-space:normal;background-color:#f7f7f7;"=""><sup>.</sup></span>ha<span style="color: rgb(79, 79, 79);" font-size:14px;white-space:normal;background-color:#ffffff;"=""><sup>-</sup></span><sup>1</sup>) was found under this treatment. On the other hand, continuously irrigated (T2, 5 cm standing water) field plot showed lower yield (4783 kg<span style="color:#4F4F4F;font-family:-apple-system, " font-size:14px;white-space:normal;background-color:#f7f7f7;"=""><sup>.</sup></span>ha<sup><span style="color:#4F4F4F;font-family:-apple-system, " font-size:14px;white-space:normal;background-color:#ffffff;"="">-</span>1</sup>) but significantly higher methane emissions compared to other treatments during rice cultivation. Water productivity index was also found higher in AWDI treated field plots compared to continuously irrigated field plot. At the reproductive stage of rice plant well-developed aerenchyma tissue was observed in root cortex under the continuous irrigated field plot, which indicates higher diffusion pathway of methane gas from root rhizosphere to the atmosphere compared to other treatments. Therefore, alternate wet and dry irrigation water management practice may be recommended at farmers’ level for sustainable rice production and reducing methane emission during dry winter Boro season which will reduce the cost of production by water saving as well as energy saving. 展开更多
关键词 water saving AWDI CH4 GWP Rice Paddy
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Determinants of agricultural water saving technology adoption:an empirical study of 10 provinces of China 被引量:3
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作者 Liu Yu Huang Jikun +1 位作者 Wang Jinxia Scott Rozelle 《Ecological Economy》 2008年第4期462-472,共11页
In recent years, China has been faced by an increasingly severe water shortage due to the continual growth of demand on water resources. Although the Chinese government has been actively promoting the agricultural wat... In recent years, China has been faced by an increasingly severe water shortage due to the continual growth of demand on water resources. Although the Chinese government has been actively promoting the agricultural water-saving technology adoption, it is ill-informed of the adoption degree of the current agricultural watersaving technologies as well as the function of the governmental policies, Therefore, this paper" analyzes the aforesaid problems based on investigative data of 10 provinces in China. The results demonstrate that although there is a rapid increase of adopted agricultural water-saving technologies, the actual adoption area is rather limited. Moreover, the governmental policies and scarcity of water resources are the deierminants of agricultural water-saving technology adoption. Ultimately, the paper proposes some policy suggestions. 展开更多
关键词 AGRICULTURE water saving technology water resource. water shortage
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The technology and practice of water saving at Baosteel
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作者 ZHANG Yimei and HU Liguang Department of Energy and Environment,Baoshan Iron & Steel Co.,Ltd.,Shanghai 200941,China 《Baosteel Technical Research》 CAS 2010年第S1期135-,共1页
With the development of the production scale and the increasing of the process technologies and facilities,product quality and the requirement of water supply continuously put forward new requirements to water treatme... With the development of the production scale and the increasing of the process technologies and facilities,product quality and the requirement of water supply continuously put forward new requirements to water treatment technology.The practice of the water saving technology should ensure the safe of water using and the innovation of technique data.Especially the stabilization of water quality should also meet the production at full capacity,reduce equipment failure rate and maintain the sustainable development under the condition of the minimal resource consumption.This article describes the practice of Baosteel saving technology,water-saving ideas from the system to start,according to Baosteel raw water intake requirements and process water and drainage characteristics,water and salt water tidal according to changes in the Yangtze River and the Yangtze River upstream and downstream trends in water discharge on water quality factors,established the electrical conductivity,chloride ion indicators for the control of the Yangtze River water,the implementation of 'avoid salt build light' water at the same time,combined with the actual situation of water pollution in the Yangtze River,the use of force coefficient correlation theory,the implementation of 'avoid taking clear pollution' to ensure the quality of raw water intake. System and cascade utilization of water,process water,based on whole plant water balance testing, analysis,technical parameters of the system and processes the user running the pressure balance pipe network,and implemented a stabilization system to adjust water pressure,reducing the water supply network systemwater loss;application of electrochemical principles,the implementation of the protection of underground pipes Baosteel,implemented a water use,steps to use,the operating mode of water supply in series to increase water reuse,reduce wastewater discharge system. Water quality stability and water-saving in the process;carry out water quality stability technology in the different complicated processes of the steel industry;apply the environmental protection and water quality, sterilization,non-phosphorus and low phosphorus technologies which are suitable for high concentration of circulating water.By these technologies,we achieved the water-saving in the process in different seasons and solved the technical problems affecting production such as equipment corrosion,scaling and the formation of the water quality proprietary technology under the conditions of high heat load production as well. The use of water ecological conservation and biological treatment technology:the implementation of the reservoir to the ecological technology is characterized by food chain and wetland environmental technology characterized by plants chain.Reservoir ecological management techniques in the use of natural conditions, wind direction,temperature,light and fish biomass in the reservoir water level regulation of balance and combination of organic,control and resolve the reservoirs in spring and summer algae problems and water quality changes rot of the 'fresh' operating problems.The artificial wetland technology develops a new way for metallurgical plants' wastewater treatment.All the measures by the implementation of water to create the conditions for the system to achieve the water target of constant innovation,reaching the advanced level of iron and steel enterprises. 展开更多
关键词 practice of water saving technology stabilization of water quality innovation of technique data
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A New Water Saving Device of Swirling Flow for Cooling Towers
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作者 Xu Yongjun 1 , E Xuequan, Kan Changzhen Key Laboratory for Hydrodynamics and Ocean Engineering, Institute of Mechanics, Chinese Academy of Sciences 《Electricity》 2011年第4期52-57,共6页
This paper is concerned with water saving for water-loop cooling tower system in power plants. A newly developed water saving device of swirling flow is presented. The key point is that the new water saving device mak... This paper is concerned with water saving for water-loop cooling tower system in power plants. A newly developed water saving device of swirling flow is presented. The key point is that the new water saving device makes the steam swirl up along the device wall rather than engender laminar flow in a corrugated plate. The corrugated plate device can save approximately 10 percent of the total lost water. In contrast to the scale model of corrugated plate water saving device, experimental analyses have demonstrated that the new water saving device of swirling flow is more efficient, with a capacity of saving more than 20 percent of water. 展开更多
关键词 cooling tower water saving swirling flow power plant
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Discussion about the standard system on urban domestic water saving technology in China
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作者 YANG Shujun, REN Xiaoli ,GAO Benhu 《China Standardization》 2007年第2期2-5,共4页
Standard is the technical foundation of national economic and social development, and it is the basic rule of establishing social regulation. Researching and constituting the standard system of urban domestic water sa... Standard is the technical foundation of national economic and social development, and it is the basic rule of establishing social regulation. Researching and constituting the standard system of urban domestic water saving technology is to offer important science basis for revising standard plan and standardize research plan. This paper introduces the present situation of our urban domestic water saving technical standard system, problem and the development direction in the future, as well as project planning of constructing urban domestic water saving technical standard system. 展开更多
关键词 Standard system urban domestic water saving technology water shortage Project plan
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The Meeting for Promotion of the Standards for Water Saving Held in Beijing
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《China Standardization》 2005年第1期8-8,共1页
Jointly hosted by the Standardization Administration of China (SAC) and the National Development and Reform Commission, the Meeting for Promotion of the Standards for Water Saving was held in Beijing on Oct. 5th, 2004... Jointly hosted by the Standardization Administration of China (SAC) and the National Development and Reform Commission, the Meeting for Promotion of the Standards for Water Saving was held in Beijing on Oct. 5th, 2004, with the aim of promoting development of water intake technology, improving efficiency of water using and developing recycle economy. The meeting analyzed the current 展开更多
关键词 The Meeting for Promotion of the Standards for water saving Held in Beijing
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A Review on Development Water-Saving Agriculture in Asia
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作者 Lingshan Zhou Xiujuan Wang Shan Zhang 《Agricultural Sciences》 2022年第4期491-499,共9页
The development of water-saving agriculture is of great significance not only for increasing farmers’ production and income, but also for protecting water resources. The purpose of this paper is to learn from the exp... The development of water-saving agriculture is of great significance not only for increasing farmers’ production and income, but also for protecting water resources. The purpose of this paper is to learn from the experience of Israel, Japan, Korea and Singapore, improve the low efficiency of agricultural water use in China, and solve the problem of water shortage, promote the development of agriculture. This article concludes that the experience of water-saving agriculture in Israel is advanced irrigation technology, sound laws and regulations, and emphasis on science and technology. Japan’s water-saving agriculture is characterized by an efficient irrigation program and a strict agricultural water management policy. Korea’s experience in water-saving agriculture is that it has a strict water management system, with the government subsidizing the cost of irrigation projects and integrating water into agricultural development planning. Singapore’s experience in water-saving agriculture is to raise awareness of water conservation and to use step water prices. In order to promote the sustainable development of water-saving agriculture in China, the research on water-saving agriculture in the future can be carried out from the aspects of agricultural production or related agricultural technology. 展开更多
关键词 Asian water saving water saving Agriculture Development Experience water Resources Management
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Water-saving Potential in aeolian sand soil under straight tube and surface drip irrigation in Taklimakan Desert in Northwest China 被引量:6
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作者 ZhongWen Bao HuLin Du XiaoJun Jin 《Research in Cold and Arid Regions》 2011年第3期243-251,共9页
Evaporation loss from the saturated soil beneath drip irrigation emitters highly influences the irrigation efficiency of drip krigation (D1]. Subsurface drip irrigation (SDI) is one good approach to curb this ineff... Evaporation loss from the saturated soil beneath drip irrigation emitters highly influences the irrigation efficiency of drip krigation (D1]. Subsurface drip irrigation (SDI) is one good approach to curb this inefficiency, but in a new irrigation method, straight tube irrigation (STI), the irrigation tubes do not need to be buried and thus STI is recommended to increase the irrigation efficiency under normal surface-applied DI. STI consists of only connectors and water-transference tubes that can directly transfer irrigation water from the lateral emitters in the drip line to the root zone of plants. Five-month field experiments were carried out in aeolian sand soil in the forest-belts of the Taklimakan Desert, which have poor water storage capacity, to compare the potential water saving between STI and DI. The preliminary results showed that, compared with DI, STI (1) improved the soil water content in soil depths from 40 to 100 cm under the soil surface; (2) achieved the same irrigation effects in relatively shorter irrigation durations; (3) had very little water loss due to deep seepage; and (4) formed a layer of dry sand about 10 to 30 cm thick immediately below the soil surface, which lessened evaporation loss of soil water beneath the emitters on the soil surface. This demonstrates that STI can maximize the water-saving potential of DI through the reduction of wetted soil perimeters on the soil surface. This is valuable information for water-saving engineering applications and projects with STI in arid and semiarid regions. 展开更多
关键词 potential water saving evaporation loss straight tube irrigation drip irrigation EFFICIENCY Taklimakan Desert
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EFFECT OF GROUNDWATER TABLE CONTROL ON WATER SAVING IRRIGATIONSTRATEGIES IN THE QINGTONGXIA IRRIGATION DISTRICT 被引量:3
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作者 WANGXiu-gui HOLLANDERSP.H.J. 《Journal of Hydrodynamics》 SCIE EI CSCD 2004年第2期166-175,共10页
This paper focuses on the analysis of the effects of groundwater tablecontrol under different irrigation water amounts on the water and salinity balance and on cropyield. Two experimental areas, the Pingluo and Huinon... This paper focuses on the analysis of the effects of groundwater tablecontrol under different irrigation water amounts on the water and salinity balance and on cropyield. Two experimental areas, the Pingluo and Huinong experimental sites, were selected to collectthe required data. The agro-hydrological model Soil-Water-Atmosphere-Plant (SWAP) was used toanalyse the water flows and salt transport processes for different groundwater levels and irrigationscenarios. Six scenarios, which resulted from different groundwater table regimes combined withdifferent irrigation amounts, were simulated. The results show that high ground-water tables due tothe excessive irrigation are the main cause of the large amount of drainage water and low cropyield; reducing irrigation water without a lower groundwater table will not lead to a largereduction of the drainage water, and will reduce the crop yield even more; to lower the groundwatertable is a good measure to control the drainage water and increase crop yield. 展开更多
关键词 water saving irrigation field drainage saline water irrigation waterMANAGEMENT
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Effects of plastic sheet on water saving and yield under furrow irrigation method in semi-arid region 被引量:2
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作者 Muhammad Sohail Memon Kausar Ali +5 位作者 Altaf Ali Siyal Jun Guo Shamim Ara Memon Shakeel Ahmed Soomro Noreena Memon Changying Ji 《International Journal of Agricultural and Biological Engineering》 SCIE EI CAS 2018年第1期172-177,共6页
The increasing demand of water in the country highlights the need to introduce low-input and water saving technologies for agricultural sustainability and crop production,mainly in semi-arid region.A study was conduct... The increasing demand of water in the country highlights the need to introduce low-input and water saving technologies for agricultural sustainability and crop production,mainly in semi-arid region.A study was conducted to minimize deep percolation losses from the furrow bottom under two different irrigation treatments viz.(1)furrow bottom with plastic sheet(T1)and(2)furrow bottom without plastic Sheet(T0).The physical and chemical analyses of soil profile were taken at a depth of 0-80 cm before and after crop harvesting.The dry density of soil slightly increased(0.01 g/cm^(3))under both treatments,while soil pH decreased under T1.The average yield was 8332 kg/hm^(2) and 7575 kg/hm^(2),with 21.56 m^(3) and 31.09 m^(3) total volume of irrigation water applied under T1and T0,respectively.The saving percentages of water under treatments were 52.22% and 31.00% under T1 and T0 respectively as compared to the saving of water under traditional irrigation practice.Overall,better performance,in terms of crop production and water saving,was obtained with use of plastic sheet integrated with bottom of furrows.Hence,it is suggested that the furrow irrigation method with plastic sheet may be used to preventing moisture and minimize deep percolation losses from furrow bottom. 展开更多
关键词 furrow irrigation semi-arid region water saving YIELD plastic sheet deep percolation okra crop soil pH
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Demonstration of Center Pivot Uniformity Evaluation and Retrofit to Improve Water Use Efficiency
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作者 Younsuk Dong Lyndon Kelley Eric Anderson 《Journal of Water Resource and Protection》 CAS 2023年第3期71-84,共14页
Agricultural irrigation is a primary user for freshwater withdrawal. Irrigation plays an important role in crop production, as it provides the benefit of reducing the effects of prolonged dryness and erratic precipita... Agricultural irrigation is a primary user for freshwater withdrawal. Irrigation plays an important role in crop production, as it provides the benefit of reducing the effects of prolonged dryness and erratic precipitation. Center pivot irrigation system is the most common irrigation system in agriculture. As the center pivot irrigation system ages, the system could develop a leaking joint, clogged sprinklers, and physical damage. This can cause areas of non-uniformity that can lead to under- or over-irrigated in some areas of the land, resulting in excess energy use and cost, wasting resources, and environmental impacts. Thus, it is important to evaluate the performance of a center pivot irrigation system regularly to maximize return on investments and minimize wasting resources. This study focuses on evaluating the impacts and benefits of improved center pivot irrigation distribution uniformity by performing distribution uniformity evaluations pre- and post-retrofit. This study also focused on demonstrating an unmanned aerial vehicle (UAV) to assess the performance of the center pivot irrigation system in two irrigated farmlands. The Coefficient of Uniformity (CU), Distribution Uniformity (DU), and Scheduling Coefficient (SC) were calculated based on the catch can test data. The values were utilized to evaluate water and energy savings from the improved coefficients. The team has found that replacing sprinkler packages increased the CU from 78 to 89 and the DU from 77 to 82, and reduced the SC from 1.3 to 1.2 in Field A. In Field B, replacing sprinkler packages increased the CU from 73 to 91 and the DU from 62 to 84 and reduced the SC from 1.6 to 1.2. The estimated water savings in Field A due to the reduced scheduling coefficient was approximately 151,000 liters/hectare/year, with consideration of the corn and soybean rotation field in Michigan. The estimated water savings in Field B was 608,000 liters/hectare/year. The data from this demonstration study showed the value of distribution uniformity evaluation and retrofit of irrigation systems. This information will encourage farmers and agricultural industries to consider performing more distribution uniformity evaluations, ultimately improving irrigation water use efficiency and supporting sustainable water management in agriculture. 展开更多
关键词 Center Pivot IRRIGATION UNIFORMITY Sprinkler System Evaluation water saving UAV
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Fong's: Saving Water in Dyeing
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《China Textile》 2009年第12期20-21,共2页
In an effort to save the precious water resource and reduce the environmental impact, Fong’s Industries Group along with its member companies, namely "Fong’s National", "THEN", "Goller"... In an effort to save the precious water resource and reduce the environmental impact, Fong’s Industries Group along with its member companies, namely "Fong’s National", "THEN", "Goller" and "Fong’s Water Technology" provide an ecological dyeing solution to reduce the water consumption drastically through their innovative technologies covering the processes from yarn dyeing to piece dyeing and recycling of discharge after dyeing and finishing. 展开更多
关键词 saving water in Dyeing Fong’s
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Saving a Water Treasure
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作者 Mohamed Abdel-Monem 《ChinAfrica》 2012年第7期19-19,共1页
AMONG the chain of lakes on the bottom of the western Great Rift Valley, Lake Tanganyika stands out for its extraordinary north-south extension and depth. With its large size and high biodiversity, Lake Tanganyika is ... AMONG the chain of lakes on the bottom of the western Great Rift Valley, Lake Tanganyika stands out for its extraordinary north-south extension and depth. With its large size and high biodiversity, Lake Tanganyika is of great social, economic, political and environmental significance to neighboring countries. However, the water quality of the lake is on the decline due to the mounting environmental chal- lenges it faces. Chinese scientists under the UNEP-China-Africa Cooperation Program on Environment are working closely with African partners to find out the sources of the pollution and possible solutions with a focus on water quality monitoring and treatment. 展开更多
关键词 DRC saving a water Treasure
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SAVING WATER IS THE ONLY WAY FOR NORTHWEST CHINA TO SURVIVE
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作者 Cheng Guodong(Lanzhou Institute of Glaciology , Cryopedology, CAS) 《Bulletin of the Chinese Academy of Sciences》 1996年第3期203-206,共4页
The most restrictive factor in the way of economic prosperity in China’s northwest lies in the lack of water resources.To seek countermeasures against this ages-old scourge of the arid hinterland,the CAS Division of ... The most restrictive factor in the way of economic prosperity in China’s northwest lies in the lack of water resources.To seek countermeasures against this ages-old scourge of the arid hinterland,the CAS Division of Earth Sciences sponsored a workshop in Beijing on tapping water resources of Chinese northwest in March 1995 and decided to organize an expedition team of CAS members to investigate the water resources there.From August 23 to September 5,1995,the team carried out an on-the-spot survey along a 3,000-kilometre-long itiner- 展开更多
关键词 saving water IS THE ONLY WAY FOR NORTHWEST CHINA TO SURVIVE ONLY
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A Guide to Saving Water
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《China Standardization》 2008年第5期55-55,共1页
Water is the source of life,the soul of cities,the keyof agriculture,and the blood of industry.Nobody can livewithout water,and nothing can be substituted for water.
关键词 A Guide to saving water
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Water and Energy Conservation of Rainwater Harvesting System in the Loess Plateau of China 被引量:3
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作者 JIANG Zhi-yun LI Xiao-yan MAYu-jun 《Journal of Integrative Agriculture》 SCIE CAS CSCD 2013年第8期1389-1395,共7页
Water is the source of all the creatures on the earth and energy is the main factor driving the world. With the increasing population and global change, water and energy conservation have become worldwide focal issues... Water is the source of all the creatures on the earth and energy is the main factor driving the world. With the increasing population and global change, water and energy conservation have become worldwide focal issues, particularly in the water-stressed and energy-limited regions. Rainwater harvesting, based on the collection and storage of rainfall runoff, has been widely used for domestic use and agricultural production in arid and semiarid regions. It has advantages of simple operation, high adaption, low cost and less energy consumption. This study reviewed rainwater harvesting systems adopted in the Loess Plateau of China and analyzed water use efficiency (WUE) for various rainwater harvesting techniques. Supplemental irrigation using harvested rainwater could increase crop yield by more than 30%, and WUE ranged from 0.7 to 5.7 kg m4 for spring wheat, corn and flax, and 30-40 kg m-3 for vegetables. Moreover, energy consumption for rainwater harvesting based on single family was compared with traditional water supply in the city of the Loess Plateau using the life cycle assessment (LCA) method. Results showed that energy consumption yielded per unit harvested rainwater was 25.96 MJ m-3 yr which was much less than 62.25 MJ m3 yr^-1 for main water supply in Baoji City, Shanxi Province, meaning that rainwater harvesting saved energy by 139.8% as compared to the main water supply system. This study highlights the importance and potential of rainwater harvesting for water and energy conservation in the near future. 展开更多
关键词 rainwater harvesting water saving energy conservation life cycle assessment (LCA)
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