閘室 的英文怎麼說
中文拼音 [zháshì]-
Air lock tank
潛艇氣閘室Two numerating methods are used in traditional structural design of gate chamber. first, considering the gate frusta to be fastened on the weir body, it is calculated as plane stress problem independently. then applying the results ( moment and vertical force ) on the bottom of gate frusta as concentrating load on the weir body, and the weir body is viewed as a elastic foundation beam or plate and unilateral stress analysis was performed
傳統閘室結構計算有兩種計算方法,其一是將閘墩視為固端于堰體上,單獨進行閘墩平面受力計算,再將閘墩下部的計算結果(彎矩和垂直力)作為集中荷載作用於堰體上,堰體作為彈性地基梁或板進行片面應力計算。Shipment traffic usually is heavy in littoral area, the navigation capability is required in many riverway. navigation lock was set to suit for the water level ' s variety caused by tide. for a long period, being lack of the quantified assessment on the influence of saltwater intrusion, approaches that freshwater is inpoured to the lock chamber are adopted lest the high concentration salt water be imported to the inland waterway, when the navigation lock is in operation. but such manner should not be reasonale enough
沿海地區船運發達,很多河道有通航要求,為克服潮汐造成的水位變化而設置船閘。長期以來,由於缺乏對鹽水入侵內河河道產生影響的定量評估,在船閘運行過程中為防止高鹽度鹹水入侵內河,通常採用將內河淡水打入閘室的方式來調節通航水位,船閘的這種運行方式不盡合理。Three - dimensional finite element static analysis of gate - dam structure
水口船閘二閘室結構可靠度分析With the further economic growth and the implement of development of the western regions, hydroelectric construction in our country is undergoing rapid growth, anumber of high - dam power - station is in building or in programming. in view of its higher - head and larger magnitude of spill structure outlet, it is difficult for conventional concrete or reinforced concrete structure of pier and pier room to support its vast water pressure. coupled with the improvement of prestressed method, it has been the noteworthy tool in solving the problem
隨著我國經濟的加速發展及西部大開發戰略的實施,我國水電事業也迎來了迅猛發展的大好時機,一批高壩水電站正在建設或規劃之中,其泄水建築物孔口及水頭愈來愈大,常規混凝土或鋼筋混凝土閘室閘墩結構難以承受如此之大的水推力作用,隨著預應力技術的成熟,這一技術已成為解決該問題的關鍵技術措施之一。Components for containment enclosures - transfer systems such as plain doors, airlock chambers, double door transfer systems, leaktight connections for waste drums
密封箱室部件.第3部分:轉運裝置如簡易門氣閘室雙開門用傳送系統和廢物桶密封連接件Components for containment enclosures - part 3 : transfer systems such as plain doors, airlock chambers, double door transfer systems, leaktight connections for waste drums
密封罩用組件.第3部分:光面門用傳送系統氣閘室雙開門用傳送系統和廢鼓形容器的密封連接Through improvement of construction technology of chamfer of zaohe river third - line lock ' s chamber wall, the inclined surface concrete quality has been well controlled
通過對皂河三線船閘閘室墻倒角施工工藝的改進,斜面砼表面質量得到了較好的控制。The pier room being a sophisticated spatial structure system, conventional methods in material mechanics and structure mechanics find difficulty in describing the real burdening situation, which presents embarrassment in designing
泄水閘室屬於一種復雜的空間結構體系,傳統的材料力學,結構力學方法難以真實的反映其受力狀態,必然給設計工作帶來一定的困難。2. based on continuous model and discrete model of control system, simulation technology is studied, finally curves about water level and journey of ship are drawn and probability of using is calculated
提出了採用演繹法分別建立三峽五級船閘控制系統的連續模型和離散模型,並進行模擬研究,得到每個閘室的水位變化圖、船隻的行程圖以及船閘的利用率等指標。Chapter two ascertains main technological factor of dong gou lock reconstructing, including forecast the cargo and volume through the lock to reason about representative type of vessel designed for through the lock and its operation organize. chapter three design the renovate engineering through ascertaining the main technological factor scale of the lock, dimension, designed water level and altitude, including design of structure of the lock, lock chamber and lock gate, and select the main technological factor and pattern of headstock gear. chapter four draws a comprehensive compare of the two design scheme of the renovate project with engineering project economy evaluation method, and makes out the recommended scheme, and furthermore, to calculate the economic evaluation index of the recommended scheme and makes the economic sensitivity analysis of the scheme and finally demonstrate economic feasibility of the scheme
本論文共分四章:第一章主要介紹了原東溝船閘的地理位置和營運現狀,說明了船閘在航道建設和水資源綜合利用中的作用及東溝船閘改造的必要性;第二章東溝船閘改造的主要技術因素確定其中包括東溝船閘過閘貨種和貨運量發展的預測,並確定東溝船閘的設計代表船型及營運組織;第三章東溝船閘改造工程設計本章通過船閘改造工程主要技術參數:船閘規模、尺度、設計水位和高程等的確定,設計了二個船閘改造方案,包括鋼筋混凝土整體塢式閘首結構、閘室和閘門的設計,並選定了啟閉機的主要技術參數和型式;第四章採用了工程項目經濟評估方法對東溝船閘改造工程二個設計方案進行全面綜合比較后,確定了推薦方案。Study of the gravity structure with shiplock base on the methodof finite element
衡重式閘室結構的有限元分析After excavation, there are concentration phenomenon of stress at the corner or the shiplock room, and the tension zone lies in half of the middle part as well as the part of the two slopes to the lower part of the upright wall. finally the analysis results are compared with site monitoring data in period of construction as well as the feedback reports, the result of all comes to meet with each other very well
開挖完成後,在閘室拐角處存在不同程度的應力集中現象,中隔墩上部1 2的巖體及南北邊坡至直立墻頂部平臺以下的部分巖體為拉應力區。在兩側邊坡及邊墻的塑性區出現在損傷區和部分卸荷影響區內,中隔墩大部分區域的巖體都進入了塑性狀態,閘室底板處的塑性區基本上與損傷區一致。And the conclusion can be obtained thatrafter excavation, the horizontal deformation increased continuedly with the depth of excavation. while the whole deformation takes on a tendency of nearly horizon and slightly downward. the middle part of the shiplocks maintains the state of unloading feedback during the excavation, when the excavation is finished, it expands toward two sides
本文研究發現開挖完成後閘室直立墻和南北邊坡的巖體水平方向變形隨著開挖深度的下降而不斷增大,開挖完成後的總體變形表現為近水平略向下。中隔墩在開挖過程中,始終處于卸荷回彈,開挖完成後,中隔墩向兩側張開。The surrounding rock mass of the tgp shiplocks is jointed rock mass cut by well - developed discontinuous joints. the middle frusta and vertical border wall are the important components of the lock room construction. its deformability and stability will directly affect the construction function and using security
永久船閘區巖體屬於一種斷續節理切割的裂隙巖體,中隔墩和直立邊墻是閘室結構的重要組成部分,其變形大小和穩定程度將直接影響三峽航道的結構功能和運行安全。However, the above method is not applicable for the gate chamber when the foundation of weir body is " high - low foot "
然而對于堰體基礎呈「高低腳」的閘室,該方法很不適用。Shankou spillway project has many specific characteristics, for example, the gate frusta and weir body have equivalent thickness, the weir body is low and have corridor, the foundation of the weir body is " high - low foot " " and the side frusta is also used as retain wall. in view of the characteristics, to better analyze the stress distribution on weir body, gate frusta, the joints between gate chamber and weir body, under the condition that the gate chamber is applied with asymmetrical loads and complicated constraints, three dimensional finite element method is applied in this paper
本文針對山口溢洪道閘墩與堰體底板厚度相當,堰體為低堰且設有廊道、堰體建基面「高低腳」及邊墩兼作擋土墻等具體特點,在閘室設計中采山口水利樞紐工程溢洪道閘室三維有限元整體應力計算分析用三維有限元整體應力計算方法分析閘室的受力狀態,分析閘室在荷載不對稱。Widely applied in lock heads and the lock chambers, the floor of castle structure is cracked easily
摘要塢式結構是船閘閘首或閘室常採用的一種型式,但採用這種結構形式的船閘底板容易出現裂縫。Due to the complexity of the load combinations of the gate chamber, it is difficult to perform such test on each load case. on the other hand, it is lack of the test data on the load case perpendicular to the current direction of the gate frusta till now
由於閘室的受力荷載組合較為復雜,對每種工況都做光彈試驗不容易做到,且有關垂直水流方向的閘墩受力狀況的試驗資料迄今尚很缺乏。Air shower constrution can clean dust on person or goods, reduce dust capacity bring to cleanroom. and have switch function so as to avoid the no - clean air into the room from the door. cooperate with clean air - conditioner system, lnsure the cleanroom can get the clean class
風/貨淋室可以清除人身和物品表面附著的塵埃,減少帶入潔凈空氣的灰塵量,同時起到兼有氣閘室功能,可防止不潔凈空氣由門侵入,以配合潔凈空調系統確保潔凈室達到所需潔凈度分享友人