hydraulic energy engineering 中文意思是什麼

hydraulic energy engineering 解釋
水力工程
  • hydraulic : adj. 1. 水力的,液力的;用水發動的。2. 液壓的,水壓的。3. 水力學的。4. 【建築】水硬的。adv. -lically
  • energy : n. 1. 干勁,活力。2. (語言、行為等的)生動。3. 〈pl. 〉 (個人的)精力;能力。4. 【物理學】能,能量。
  • engineering : n. 1. 工程(技術),工程學。2. 開車技術。3. 土木工程,工事。4. 操縱,管理。
  1. The dentoid baffle can be used in the practice of hydraulic engineering as a new type of energy dissipation tool

    齒墩設施可作為一種新型的消能工運用於擬建或改建工程上。
  2. Using the model experiment data, the authors calculate the decreased percentage of water jump length, unit width hydraulic jump volume and the water depth downstream of the jump ; and also calculate the energy dissipation rate of dentoid baffle, it is concluded that the device of dentoid baffle can increase the energy dissipation rate of hydraulic jump theory and decrease the engineering cost

    計算了新增齒墩設施的消能量,同時計算了新增齒墩設施的躍后水深、水躍長度和單寬水躍容積減少的百分數。結果表明,採用齒墩設施,可增進消能作用,並取得顯著的經濟效益,達到附加射流水躍理論所預期的效果。
  3. The water current flows over the top of the dentoid baffle to the hydraulic jump as additional momentum. while it is cooperated with a stilling basin, the flowing condition emerged in the basin may be improved greatly and the length and downstream water depth required by the basin can be decreased to a great extent. such an appliance may be also used to solve the problems of insufficiently dissipating water flow energy and aerating flow, which are often faced with those hydraulic engineering constraction as acted by high waterhead, great specific discharge and low froude number

    本文通過齒墩頂部的擴散水舌所形成的附加射流,從上部射入水躍,即可改善消力池內的水流流態,又可降低第二共軛水深,減小水躍長度,增進水躍消能效果,同時還能解決大單寬、低佛勞德數條件下摻氣和消能不足的問題,試驗證實它是一種安全、經濟的消能工。
  4. It is concl uded that dental baffle - pier can increase energy dissipation rate of stilling b a sin and decrease engineering cost. the obvious economic benefits and the expected effect of additional momentum hydraulic jump theory are achieved

    結果表明:採用齒墩設施,可增進消力池的消能作用,並取得顯著的經濟效益,達到了附加動量水躍理論所預期的效果。
  5. On the base of analyzing the development of control system for synthetic rubber press internationally, and combining the development status quo of applied research of reliability engineering of hydraulic systems, to overcome the design limitations of traditional control system for synthetic rubber press and such faults as high energy - consume, long process period and low reliability in the pressing process of synthetic rubber in the post - treatment product line, brand - new design and reliability research are to be carried out for the new control system

    通過對目前國內外合成橡膠壓塊機控制系統發展水平的分析,結合可靠性工程在液壓系統中應用研究的發展現狀,針對國內合成橡膠后處理生產線上傳統橡膠壓塊機控制系統的設計缺陷及橡膠壓制過程中能耗高、工藝周期長、可靠性差等故障現象,對橡膠壓塊機控制系統進行全新設計和可靠性研究。
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