Pneumatic piping, hoses and connections.

Pneumatic piping, hoses and connections

The various end devices in a pneumatic system are linked to the air receiver by pipes, tubes or hoses. In many schemes the air supply is installed as a fixed service similar, in principle, to an electrical ring main allowing future devices to be added as required. Generally, distribution is arranged as a manifold (as Figure 6.11a) or as a ring main (as Figure 6.11b). With strategically placed isolation valves, a ring main has the advantage that parts of the ring can be isolated for maintenance, modification or repair without affecting the rest of the system.

Pneumatic systems are vulnerable to moisture and, to provide drainage, the piping should be installed with a slope of about l% ( 1 in 100) down from the reservoir. A water trap fitted at the lowest point of the system allows condensation to be run off, and all tap­ offs are taken from the top of the pipe (Figure 6.11c) to prevent water collecting in branch lines.

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The pipe sizing should be chosen to keep the pressure reasonably constant over the whole system. The pressure drop is dependent on maximum flow, working pressure, length of line, fittings in the line (e.g., elbows, T-pieces, valves) and the allowable pressure drop. The aim should be to keep air flow non-turbulent (laminar or streamline flow). Pipe suppliers provide tables or nomographs linking pressure drops to pipe length and different pipe diameters. Pipe fittings are generally specified in terms of an equivalent length of standard pipe (a 90 mm elbow, for example, is equivalent in terms of pressure drop to 1 metre of 90 mm pipe). If an intermittent large load causes local pressure drops, installation of an additional air receiver by the load can reduce its effect on the rest of the system. The local receiver is serving a similar role to a smoothing capacitor in an electronic power supply, or an accumulator in a hydraulic circuit.

If a pneumatic system is installed as a plant service (rather than for a specific well-defined purpose) pipe sizing should always be chosen conservatively to allow for future developments. Doubling a pipe diameter gives four times the cross-sectional area, and pres­ sure drops lowered by a factor of at least ten. Retrofitting larger size piping is far more expensive than installing original piping with substantial allowance for growth.

Black steel piping is primarily used for main pipe runs, with elbow connections where bends are needed (piping, unlike tubing, cannot be bent). Tubing, manufactured to a better finish and more accurate inside and outside diameters from drawn or extruded flexible metals such as brass, copper or aluminium, is used for smaller diameter lines. As a very rough rule, tubing is used below 25 mm and piping above 50 mm – diameters in between are determined by the application. A main advantage of tubing is that swept angles and comers can be formed with bending machines to give simpler and leak-free installations, and minimising the pressure drops associ­ated with fittings.

Connections can be made by welding, threaded connections, flanges or compression tube connectors. (Examples of compression fittings are illustrated in Figure 6.12.)

Welded connections are leak-free and robust, and are the prime choice for fixed main distribution pipe lines. Welding does, however, cause scale to be deposited inside the pipe which must be removed before use.

Threaded pipe connections must obviously have male threads on the pipes, and are available to a variety of standards, some of which

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are NPT (American National Pipe Threads), UNF (Unified Pipe Threads), BSP (British Standard Pipe Threads) and Metric Pipe Threads. The choice between these is determined by the standards already chosen for a user’s site. Taper threads are cone shaped and form a seal between the male and female parts as they tighten, with assistance from a jointing compound or plastic tapes. Parallel threads are cheaper, but need an 0-ring to provide the seal.

A pipe run can be subject to shock loads from pressure changes inside the pipe, and there can also be accidental outside impacts. Piping must therefore be securely mounted and protected where there is a danger from accidental damage. In-line fittings such as valves, filters and treatment units should have their own mounting and not rely on piping on either side for support.

At the relatively low pressure of pneumatic systems, (typically 5 to 10 bar), most common piping has a more than adequate safety margin. Pipe strength should, however, be checked – as a burst air line will scatter shrapnel-like fragments at high speed.

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Plastic tubing is used for low pressure (around 6 bar) lines where flexibility is needed. Plastic connections are usually made with barbed push-on connectors, illustrated in Figure 6.13.

Where flexibility is needed at higher pressure, hosing can be used. Pneumatic hoses are constructed with three concentric layers; an inner tube made of synthetic rubber surrounded by a reinforce­ ment material such as metal braiding. A plastic outer layer is then used to protect the hosing from abrasion.

Hose fittings need care in use, as they must clamp tightly onto the hose, but not so tightly as to cut through the reinforcement. Quick­ disconnect couplings are used where hoses are to be attached and disconnected without the need of shut-off valves. These contain a spring-loaded poppet which closes the outlet when the hose is removed. There is always a brief blast of air as the connection is made or broken, which can eject any dirt around the connector at high speed. Extreme care must therefore be taken when using quick-disconnect couplings.

Related posts:

Pipelines and valves:Surface finish
Health and safety:Conveying operations
Troubleshooting and material flow problems:Over feeding of pipeline
Optimizing and up-rating of existing systems:The influence of changing pipeline diameter
Optimizing and up-rating of existing systems:Modifying plant components
Control components in a hydraulic system:Control valves
LINES, FITTINGS, AND SEALS:Hose Connection Side of Hose Fittings.
Fundamental Principles:definition of terms
Fundamental Principles:Fundamental Principles
BASICCONCEPTS OF THE RMODYNAMICS:ENERGY AND ENVIRONMENT
SUMMARY OF PROPERTIES OF PURE SUBSTANCES
THE FIRST LAW OF THERMODYNAMICS:ENERGY BALANCE FOR CLOSED SYSTEMS
POWER AND REFRIGER A TION CYCLES:HOW CAN WE INCREASE THE EFFICIENCY OF THE RANKINE CYCLE?
FORCED CONVECTION:FLOW ACROSS CYLINDERS AND SPHERES
NATURAL CONVECTION:EQUATION OF MOTION AND THE GRASHOF NUMBER

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