提水灌溉區域 的英文怎麼說

中文拼音 [shuǐguàngài]
提水灌溉區域 英文
lift-irrigated area
  • : 提動詞(垂手拿著) carry (in one's hand with the arm down)
  • : 名詞1 (由兩個氫原子和一個氧原子結合而成的液體) water 2 (河流) river 3 (指江、河、湖、海、洋...
  • : Ⅰ動詞1 (輸水澆土) irrigate 2 (倒進去; 注入) pour in; fill 3 (飲酒; 勉強他人飲酒) drink wine...
  • : 動詞[書面語]1. (澆水) supply with water 2. (洗滌) cleanse; wash
  • : 區名詞(姓氏) a surname
  • : 名詞(在一定疆界內的地方; 疆域) land within certain boundaries; territory; region
  • 灌溉 : irrigate; irrigation; watering
  1. ( 2 ) aiming at the bigger irrigation quota of fall irrigation system and the complicacy of the salt movement in soil, the paper applies reservoir leaching model bring forwarded by w. h. van der molen to hetao irrigation district located in aridity area, and establishes salt leaching simulational model under the fall irrigation system. through calculating, the feasible fall irrigation quota is 100 - 120m2 / 667m2 in light salinization soil, and the feasible fall irrigation quota is 120 - 150 m2 / 667m2 in mild salinization soil. the model is reasonable and exact, and it can be researched deep

    ( 2 )針對在秋澆制度中秋澆定額較大,土壤中鹽分運移規律復雜的特點,利用w ? h ? vandermolen出的庫沖洗模型,建立了地處乾旱地的河套內的秋澆制度鹽分淋洗模擬模型。經計算在輕度鹽漬化土壤中秋澆的定額以100 120m ~ 3 667m ~ 2為宜;中度鹽漬化土壤秋澆的定額以120 150m ~ 3 667m ~ 2為宜,模型合理可靠,準確可行,可進一步向縱深方向進行研究。
  2. After we built waterpower - electricity station, we can strengthen flood - preventing ability of downstream, improve the condition of farmland irrigation and town - supplying and region environment and so on. exploitation extent of waterpower resource is an important symbol of scientific and technical advancement and economic development

    建設電站的同時,往往還可以高下游防洪能力,供農田和城鎮供條件,改善環境等,能資源開發利用程度,是科技進步和經濟發展的重要標志。
  3. Crop - water relationship and availability of field irrigation water based on swap model simulation were studied in two areas of a largest - sized irrigation district - hetao irrigation district in the western arid area of china respectively according to its unique characteristics of hydrology and water resources so as to provide a theoretical basis and technical support for its water - saving transformation and agricultural sustainable development. the results can also be applied to other areas with similar natural and agricultural conditions

    本文針對我國西部乾旱的特大型?河套所具有的獨特資源條件,選擇兩個典型分別進行了作物-分關系和基於swap模型模擬的田間有效性研究,以揭示和確立分對乾旱作物產量的影響和量化表達與淺地下農田分運移轉化規律和對作物生長利用效率的評價方法,為河套以節為中心的技術改造和可持續發展供理論基礎和技術支撐。
  4. Based on water use efficiency, water produce energy efficiency and economic benefit of water use to different crops, an overall evaluation of water use efficiency to cropping system in irrigation field of beijing is made, and a planting structure of grain cropping, fruit growing and vegetables in this region is put forwand to promote the development of thought and approach about water saving cropping system

    摘要以各種作物的分利用效率、分能量生產效率和分經濟利用效益評價為依據,對北京市農田的分利用狀況進行了綜合評價,出了該優化糧食作物、果樹和瓜菜類作物的種植結構,推進節型種植業發展的思路與途徑。
  5. In this passage, author has studied the quota of irrigation that can make water used economically for various plants, if the irrigation quota can be lowered from 6795 m3 / a to 4500 m3 / a during the processes of irrigation, there will be a saving water amount of 3. 386million m3 / a, in shiyang river basin. there is no doubt that we can open the second source of river water that can provide the possibility of transporting 300 million m3 / a water amount to lower reaches of the river. in this paper, there are some analysis and prospects for the future situation of supply and demand of water resources in 2010

    民勤資源減少的主要原因是人為因素,如全流人口增加、中上游耕地面積擴大,用量增加,造成重心上移;沒有樹立可持續發展觀,在經濟中搞短期行為;對石羊河流入民勤量不斷減少、地表、地下轉化活躍、生態用問題突出等方面進行了分析論證;對目前開發利用現狀、供需狀況進行了較為詳細的計算和評價;通過對各種農作物節定額的研究,若從現狀定額6795m ~ 3 ha降低到4500m ~ 3 ha實施,石羊河流將節3 . 3867億m ~ 3 ,這無疑于開辟了第二源,供了向下游調3億m ~ 3的可能性。
  6. At the same time, using the results of model, the paper provides the optimization irrigation quota and the aim of high yield and high benefit based on the principle that the net benefit of unit water is highestusing the model, we can reasonably distribute the irrigation water for spring - wheat during growing period on the condition of different irrigation quota. through evaluating the comparative yield by the model, the paper gains that the reduction of spring - wheat output is biggest when the irrigation quote is between 100 and 200. the thesis also gains that the corresponding economic irrigation quota is 170 - 120m3 / 667m2. above results can provide scientific reference for irrigation water optimization distribution for crops in the individual irrigation area and the programming of irrigation district

    在現有的生產條件下,可以利用模型在不同的定額下對春小麥生育期進行合理的分配,並可以利用模型進行作物相對產量的評估,得出當定額在100 m 200范圍內時,春小麥的產量下降幅度較大,最後得出相應的經濟定額為170 120m ~ 3 667m ~ 2 ,為今後河套多作物量最優分配以及的規劃設計方面供了科學參考依據。
  7. Consequently, in order to promote the application of water - saving irrigation technology. it is essential that ( 1 ) to strengthen farmers " participation in irrigation technology construction and management ; ( 2 ) to introduce credit means and scientific research of high technology and low cost ; ( 3 ) to carry out policy of adjustment of agricultural water price and product structure accordingly ; ( 4 ) to form system of water - saving irrigation technology according to water resource reserves and farmers " economical endurance in different areas

    為此,出以下促進中國農業節技術應用的政策建議: ( 1 )加強工程建設和管理中的農戶參與。 ( 2 )運用信貸手段和加強高科技含量、低成本的節技術的科研投入等政府政府支持政策來激勵農產的技術需求。 ( 3 )實行價的結構性調整和農業生產結構調整相結合的策略,以便增強農戶技術改造的積累能力; ( 4 )依據農業資源的地性差異和農戶的經濟承受能力,分構建節技術體系。
  8. The capsim model, originally developed by the center for chinese agricultural policy research of the chinese academy of sciences, is the first and most comprehensive model for chinese food demand, supply and trade analysis at the national level. the podium model, developed by the international water management institute, is a tool for accounting of water resources at the basin level. capsdvi - podium has been used as a tool in this paper for analyzing food security and water balance scenarios of china in 2020 based upon the database about food and water situation at the national level, provincial level, basin level and county level, hi accordance with such analysis, this paper puts forward policy recommendations for irrigation diversion of water, regional distribution of agriculture and food security

    因此,論文將糧食需求和生產、資源保障緊密的聯系起來,在不打破資源流特性的基礎上,以全國和九大流片為研究對象,通過利用全國、流、省級、縣級統計資料和農產調查及專家訪談資料所建立的包含農業生產、糧食供求、資源等指標體系在內的中國糧食安全與資源數據庫,以原來中國科學院農業政策研究中心( ccap )開發的以部門均衡理論為基礎的農業政策分析和預測模型( capsim )和國際資源管理研究所( iwmi )開發的以流資源核算理論為基礎的資源政策分析模型( podium )為依託,發展了capsim ? podium模型,利用該模型為工具,系統、全面地分析了未來全國和九大流片的平衡和糧食安全情景,在此基礎上出我國農業布局和糧食安全政策。
  9. Rather, the solution would be promote production structure changes among regions or implement inter - basin water transfer projects on the basis of upgrading the efficiency of utilizing irrigation water

    解決的辦法還在效率的基礎上,對農業生產進行合理的布局或是分批分期地實施跨流調工程。
  10. As the haihe, huaihe and yellow river basins have already achieved a fairly high level of irrigation basin efficiency, exclusive reliance on upgrading such efficiency is unlikely to achieve balance of irrigation water in these basins

    在黃淮海地,流利用效率已經較高,完全依賴于效率也不能實現流平衡。
  11. A real - time forecast model of irrigation schedule verified with the real - time data is established, incorporating suitable methods of monitoring soil moisture and predicting soil water for region

    出的墑情監測方法及土壤分預報方法,應用於構建整個的實時預報模型之中,並在預報過程中進行實時修正。
  12. This paper takes the bojili irrigation district ( bid ) as an example to study crop water requirements and irrigation scheduling for improvement of water management at both levels

    本文以山東簸箕李為例,研究引黃的作物需量和制度,為改進和流管理供科學依據。
  13. The main conclusions include : 1 ) water use level and water use efficiency in the yellow river region have been much improved than before, but are still in a lower level ; 2 ) water use level and water use efficiency are quite different in the different sub - regions of the yellow river region ; 3 ) agricultural water use index is high in this region, the main reasons lie both on the special climatic conditions, and the underlying surface situation, and on the extensive cultivation in this region

    結果表明:黃河平和用效率較以往有較大高,但仍然還比較低;流內用平和用效率不平衡;農業用指標偏高,既與其特殊的氣候條件和下墊面因素有關,也與該較為普遍的粗放方式有關。
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