【046】6BRW31531.5型乳化液泵站設計
【046】6BRW31531.5型乳化液泵站設計,046,brw31531,乳化,泵站,設計
外文資料
High-handed intercourse pump characteristic
High pressure between 100 MPa moving back and forth responding to like pump sigmatism pressure in 10 MPa . It belongs to volume dyadic pump , the purpose drawing support from volume inside the cavity working coming to reach transportation liquid cyclicity change; The prime mover mechanical energy can by that the pump changes into the pressure transporting liquid's directly; Only, the pump capacities depend on job cavity volume changing value and their change number of times within unit time , have nothing to do with to discharging pressure theoretically. The pump moving back and forth is to be backed by the piston advance and return movement within liquid jar job cavity (or passing the flexibility component cyclicity within the cavity working such as baffle , bellows makes job cavity volume produce cyclicity change's coming elastic-deformation). Pump on structure, moving back and forth, Whose characteristic is summed up as follows:
Microtime rate of flow is systolic.
This is in the pump because of being moving back and forth, and liquid medium sucking in discharging process being to be in progress alternately, and the piston can't be in field change ceaseless in displacement process middle , whose speed among. In the pump only having a cavity working, not only the pump microtime rate of flow vary with with time, and be discontinuous. With job cavity increasing by, microtime rate of flow pulsation extent is more and more small, and even pragmatic upper not bad regard as to stabilize a stream.
Average rate of flow is constant
Theoretically, the pump rate of flow depends on main pump structure physics , chemical property independences such as parameter n (every minute intercourse number of times) , S (piston travel) , D (piston diameter) , Z (piston number) , the temperature , viscosity with the independence discharging pressure, and with transporting medium only. Therefore saying a pump's, rate of flow is constant.
The pump pressure depends on pipeline characteristic property
Unable pressure been to depend on a pump unit because the pump sets a limit for per se, pipeline characteristic property, has nothing to do with rate of flow pump snapout moving back and forth moreover. Just say, if thinking that transporting liquid is incompressible,in terms of theory think that pump moving back and forth's discharge pressure will not accept any restricting , be OK to discharge pressure according to the pump unit pipeline characteristic property , the what any needs building a pump. The capital of pump moving back and forth natural , all the regulation discharging pressure's having a pump , this is not that pressure can not rise again, but say only because of prime mover fixed power and the pump saying the snapout that a pump self structure intensity restricting, do not allow being put into use under exceeding this once discharging pressure but self own.
Have stronger adaptability to transporting medium
The pump moving back and forth can transport any medium , physics function and chemistry function restricting hardly accepting medium in principle. Certainly, since hydraulic whole course of restricts as well as material and the manufacturing engineering sealing off a technology's, also may come across the condition being able to not fit in with sometimes.
Have fine self attracts a function.
The pump moving back and forth has fine sucking in not only function, and there are still fine self attracts a function. Have no need of irrigation pump therefore , to the pump moving back and forth most, generally before starting.
Machine efficiency height , energy conservation.
High-handed intercourse pump rate of flow
The pump theory rate of flow: Qt = AsnZ
Style is hit by Qt pump theory rate of flow; A bar piston (or section of piston) area; S route or distance of travel; The n crank shaft rotation rate (or the bar piston every minute intercourse number of times) Z unites a number (bar piston or piston number)
Actual pump rate of flow: Q = Qt-Q.
Style is hit by Q pump rate of flow; Qt pump theory rate of flow; The pump rate of flow loses Q.
The factor that the rate of flow bringing about a pump loses has: The volume bringing about since liquid compresses or expands is lost; The volume bringing about since the valve lags when being closed down is lost; Since the valve closes the day afer tomorrow do not lose strictly, by sealing off the volume that leakage soft and floury brings about; The volume by the fact that the bar piston , piston rod or the piston ring leakage bring about is lost.
The pump microtime rate of flow
Single cylinder Shan effect pump rate of flow curve:
Three jar Shan effects pumps rate of flow is the single cylinder Shan effect pump rate of flow overlying on three phases
Whose curve as follows:
The pump power
The pump effective power: The energy that the inner , the liquid being discharged by the pump gain time the unit from the pump is called an effective power.
Ne=PQ
In style, the Ne effective power , P satisfy pressure , Q rate of flow
Unit queen formula becomes substitution:
Ne(KW)=1/36.7×P(Kgf/cm2)×Q(m3/h)。
The power thinking that the temperature rises to actuator efficiency , machinery friction , volumetric efficiency , medium waiting for cause to bring about loses , chooses the pump moving back and forth when prime mover power, to low pressure, N=1/(0.85~0.9)N;
To high-handed the pump moving back and forth , N = 1/ (0.75 ~ 0.85) N.
The pump application range moving back and forth
The pump moving back and forth applies to high-handed small rate of flow mainly , requires that the pump rate of flow is constant or the quantify , proportionality transport various different medium , demands occasion to suck a function in well, or demands to there is self attracting a function's or. Under in the nowadays world sources of energy is short-supplied circumstances, the pump moving back and forth is the energy conservation product, the mine has exploited , petroleum has got in a lot of industry such as fine chemicals , food medicines and chemical reagents treating broad usage in the sources of energy. This kind of pump structure is comparatively complicated , forming a complete set is strong but General Availability is bad, the breed is many but batches are small.
中文翻譯
高壓往復泵的特點
高壓往復泵的使用壓力一般應在10MPa~100MPa之間。它屬于容積式泵,借助工作腔里的容積周期性變化來達到輸送液體的目的;原動機的機械能經(jīng)泵直接轉(zhuǎn)化為輸送液體的壓力能;泵的容量只取決于工作腔容積變化值及其在單位時間內(nèi)的變化次數(shù),理論上與排出壓力無關(guān)。往復泵是借助于活塞在液缸工作腔內(nèi)的往復運動(或通過隔膜、波紋管等撓性元件在工作腔內(nèi)的周期性彈性變形)來使工作腔容積產(chǎn)生周期性變化的。在結(jié)構(gòu)上,往復泵的工作腔是借助密封裝置與外界隔開,通過泵閥(吸入閥和排出閥)與管路溝通或閉合。其特點歸納如下:?
瞬時流量是脈動的?
????這是因為在往復泵中,液體介質(zhì)的吸入和排出過程是交替進行的,而且活塞在位移過程?中,其速度又在不斷地變化之中。在只有一個工作腔的泵中,泵的瞬時流量不僅隨時間而變化,而且是不連續(xù)的。隨著工作腔的增多,瞬時流量的脈動幅度越來越小,乃至在實用上可以認為是穩(wěn)定流。?
平均流量是恒定的?
理論上,泵的流量只取決于泵的主要結(jié)構(gòu)參數(shù) n(每分鐘往復次數(shù))、S(活塞行程)、D(活塞直徑)、Z(活塞數(shù)目),與排出壓力無關(guān),且與輸送介質(zhì)的溫度、粘度等物理、化學性質(zhì)無關(guān)。所以說泵的流量是恒定的。
泵的壓力取決于管道特性
往復泵的排出壓力不能由泵本身限定,而是取決于泵裝置的管道特性,并且與流量無關(guān)。?也就是說,如果認為輸送液體是不可壓縮的,那么,在理論上可認為往復泵的排出壓力將不受任何限制,即可根據(jù)泵裝置的管道特性,建立泵的任何所需的排出壓力。當然,所有往復泵都有一個泵的排出壓力的規(guī)定,這不是說該泵的排出壓力不會再升高,而只是說,由于原動機額定功率和泵本身的結(jié)構(gòu)強度的限制,不允許在超出這一排出壓力下使用而己。?
????對輸送介質(zhì)有較強的適應性?
????往復泵原則上可以輸送任何介質(zhì),幾乎不受介質(zhì)的物理性能和化學性能的限制。當然,由于液力端的材料和制造工藝以及密封技術(shù)的限制,有時也會遇到不能適應的情況。
有良好的自吸性能。?
往復泵不僅有良好的吸入性能,而且還有良好的自吸性能。因此,對多數(shù)往復泵來說,在啟動前通常不需灌泵。
機器效率高,節(jié)能。?
高壓往復泵的流量
泵的理論流量:Qt=AsnZ?
式中Qt泵的理論流量;?A柱塞(或活塞)的截面積;S行程;?n曲軸轉(zhuǎn)速(或柱塞的每分鐘往復次數(shù))Z聯(lián)數(shù)(柱塞或活塞數(shù))
泵的實際流量:Q=Qt-Q。?
式中Q泵的流量;?Qt泵的理論流量;? Q泵的流量損失。
造成泵的流量損失的因素有:由于液體壓縮或膨脹造成的容積損失;由于閥在關(guān)閉時滯后造成的容積損失;由于閥關(guān)閉后不嚴,通過密封面的泄漏造成的容積損失;通過柱塞、活塞桿或活塞環(huán)的泄漏造成的容積損失。
泵的瞬時流量?
單缸單作用泵的流量曲線:
三缸單作用泵的流量是單缸單作用泵的流量在三個相位上的疊加
其曲線如下:
泵的功率
泵的有效功率:單位時內(nèi),被泵排出的液體從泵獲得的能量稱為有效功率。
Ne=PQ???????式中????Ne有效功率,?P全壓力,?Q流量。
代入單位后公式變?yōu)椋篘e(KW)=1/36.7×P(Kgf/cm2)×Q(m3/h)。
考慮到傳動裝置的效率、機械摩擦、容積效率、介質(zhì)溫升
等原因造成的功率損失,選擇原動機功率時,對低壓往復泵,N=1/(0.85~0.9)N;對高壓往復泵,N=1/(0.75~0.85)N。
往復泵的應用范圍
????往復泵主要適用于高壓小流量,要求泵的流量恒定或定量、成比例輸送各種不同的介質(zhì),或者要求吸入性能好,或者要求有自吸性能的場合。在當今世界能源緊缺的形勢下,往復泵作為節(jié)能產(chǎn)品,在能源礦山開采、石油精細化工、食品藥品加工等眾多行業(yè)中得到了廣泛使用。這類泵結(jié)構(gòu)比較復雜,配套性強而通用性差,品種多而批量小。?
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