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Elbows, pipe

It is neeessary to understand the TDH and it s eomponents in order to make eorreet deeisions when parts of the system are changed, replaced, or modified (valves, heat exchangers, elbows, pipe diameter, probes, filters, strainers, ete.) It s neces.sary to know these TDH values at the moment of specifying the new pump, or to analyze a problem with an existing pump. In order to have proper pump operation with low maintenance over the long haul, the BF P of the pump must be approximately equal to the TDH of the system. [Pg.95]

Schenkel-. femoral, crural, -bein, n. thigh bone, femur, -rohr, n., -rohre,/. bent tube, V-tube, elbow tube, elbow pipe. [Pg.385]

Tourills are in principle Wolff s ceramic (stoneware) bottles, provided with two large connections at the top in which elbow pipes are fixed and sealed by a mixture of asbestos and water glass. The pipes serve for inlet and outlet of the gases (see Fig. 118). [Pg.323]

The discharge side components are elbow, pipe and spool. It is very important to maintain the two sides, namely column side and discharge side pipes, parallel. Care should be taken during installation of the pump at the site to ensure that the weight of delivery side piping is mounted independently of the pump so that it does not induce stress on the bottom bearings of the pump. [Pg.136]

Pump pipette Delivery pipette with twin-bored stopper, glass elbow pipe and hand pump. (See Fig. Ill)... [Pg.439]

Another feature is a repositioning program (Repos.exe) which is used for the purpose of correcting positioning data collected when scanning on a pipe elbow or when scanning is performed with the microphone collar mounted on the elbow itself... [Pg.864]

Enough space must be available to properly service the flow meter and to install any straight lengths of upstream and downstream pipe recommended by the manufacturer for use with the meter. Close-coupled fittings such as elbows or reducers tend to distort the velocity profile and can cause errors in a manner similar to those introduced by laminar flow. The amount of straight pipe required depends on the flow meter type. For the typical case of an orifice plate, piping requirements are normally Hsted in terms of the P or orifice/pipe bore ratio as shown in Table 1 (1) (see Piping systems). [Pg.55]

Chemical-Process Vessels. Explosion-bonded products are used in the manufacture of process equipment for the chemical, petrochemical, and petroleum industries where the corrosion resistance of an expensive metal is combined with the strength and economy of another metal. AppHcations include explosion cladding of titanium tubesheet to Monel, hot fabrication of an explosion clad to form an elbow for pipes in nuclear power plants, and explosion cladding titanium and steel for use in a vessel intended for terephthaHc acid manufacture. [Pg.150]

The flow resistance of pipe fittings (elbows, tees, etc) and valves is expressed in terms of either an equivalent length of straight pipe or velocity head loss (head loss = Kv /2g ). Most handbooks and manufacturers pubHcations dealing with fluid flow incorporate either tables of equivalent lengths for fittings and valves or K values for velocity head loss. Inasmuch as the velocity in the equipment is generally much lower than in the pipe, a pressure loss equal to at least one velocity head occurs when the fluid is accelerated to the pipe velocity. [Pg.55]

The simplest method of reduciag stresses and reactions is to provide additional pipe ia the system ia the form of loops or offset-bonds. When physical limitations restrict the use of additional bends, a multiple arrangement of several small-size pipe mns may sometimes be used. Owiag to stress intensification, the maximum stress generally occurs at elbows, bends, and Ts. Thus, heavier-walled fittings may reduce the stress without significantly impairing flexibiUty. FiaaHy, effectively located restraints can reduce thermal effects on the equipment. [Pg.64]

The viscous or frictional loss term in the mechanical energy balance for most cases is obtained experimentally. For many common fittings found in piping systems, such as expansions, contrac tions, elbows and valves, data are available to estimate the losses. Substitution into the energy balance then allows calculation of pressure drop. A common error is to assume that pressure drop and frictional losses are equivalent. Equation (6-16) shows that in addition to fric tional losses, other factors such as shaft work and velocity or elevation change influence pressure drop. [Pg.642]

Poor suction piping layout, too many elbows in too many planes, a tee branch almost directly feeding the suction of the other pump, or not enough straight run before the suction flange of the pump. [Pg.916]

Redesign piping layout, using fewer elbows and laterals for tees, and have five or more straight pipe diameters before suction flange. [Pg.916]

Flow in bends and elbow fittings is more turbulent than in straight pipe, thus increasing corrosion and erosion. This can be countered oy selecting a component with greater radius of curvature, thicker wall, or smoother interior contour, but this is seldom economical in miter-elbows. [Pg.961]

Compared with elbow fittings, bends with a centerhne radius of three or five nominal pipe diameters save the cost of joints and reduce pressure drop. Such bends are not suited for instaUation in a bank of pipes of unequal size when the bends are in the same plane as the bank. [Pg.961]

Tees Tees may be cast, forged, or hot- or cold-formed from short pieces of pipe. Though it is impossible to have the same flow simultaneously through all three end connections, it is not economical to produce or stock the great variety of tees which accurate sizing of end connections requires. It is customary to stock only tees with the two end (run) connections of the same size and the branch connection either of the same size as the run connections or one, two, or three sizes smaller. Adjacent reducers or reducing elbow fittings are used for other size reductions. Branch connections (see subsection Joints ) are often more economical than tees, particularly when the ratio of branch to run is small. [Pg.964]

Vitrified-Clay Sewer Pipe This pipe is resistant to very dilute chemicals except hydrofluoric acid and is produced as standard-strength and extra-strength (ASTM C700). It is used for sewage, industrial waste, and storm water at atmospheric pressure. Elbows, Y branches, tees, reducers, and increasers are available. Assembly is by poured joints which allow for ample angular deflection. Joint com-... [Pg.976]

Ri = bend radius of welding elbow or pipe bend, in (mm)... [Pg.1000]

See other pages where Elbows, pipe is mentioned: [Pg.1011]    [Pg.1933]    [Pg.135]    [Pg.282]    [Pg.286]    [Pg.834]    [Pg.1691]    [Pg.1168]    [Pg.1171]    [Pg.1015]    [Pg.1937]    [Pg.187]    [Pg.345]    [Pg.398]    [Pg.1011]    [Pg.1933]    [Pg.135]    [Pg.282]    [Pg.286]    [Pg.834]    [Pg.1691]    [Pg.1168]    [Pg.1171]    [Pg.1015]    [Pg.1937]    [Pg.187]    [Pg.345]    [Pg.398]    [Pg.396]    [Pg.236]    [Pg.61]    [Pg.82]    [Pg.48]    [Pg.62]    [Pg.63]    [Pg.64]    [Pg.77]    [Pg.762]    [Pg.895]    [Pg.949]    [Pg.961]    [Pg.961]    [Pg.961]    [Pg.978]    [Pg.999]    [Pg.1004]   
See also in sourсe #XX -- [ Pg.45 , Pg.46 ]



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