2
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EPDT-253b
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5. Nominal Size Selection
To make the best use of the product and to satisfy the operating requirements to the maximum, take
notice of the following.
4.1 Selection of nominal size
Select a nominal size of the product equivalent to that of the pipe (nominal pipe size = nominal size
of strainer). Note that use of a smaller nominal size increases the pressure loss through the strainer,
and may possibly reduce the equipment inlet pressure below the specified limit.
4.2 Selection of nominal pipe size
When selecting an appropriate nominal pipe size, it is necessary to consider fluid type, maximum flow rate,
permissible pressure loss, costs of piping and equipment, etc. If the nominal pipe size is smaller, the costs
of piping and equipment decreases while the pressure loss through the pipe increases to generate
disturbances, possibly resulting in pipe wear, noise and/or vibration. If the nominal pipe size is too large,
not only the costs of piping and equipment but also the thermal loss increase. As a reference, the
standard flow velocity is specified in the Japanese Industrial Standards (JIS) as a guide to select an
appropriate nominal pipe size. See the following table.
<<Standard flow velocity>>
Fluid
Remarks
Standard flow
velocity
Saturated steam
Auxiliary piping for vacuum or
small-diameter piping
15 m/s [10-20]
Large-diameter piping
30 m/s [20-40]
Superheated steam
Piping diameter: approx.
φ
75 –
φ
250
40 m/s [30-50]
Piping of high-grade material
70 m/s [65-80]
Inlet of steam coil
0.3-0.7 MPa
30 m/s [25-30]
Air
Higher pressure: 1.0 MPa or more
20 m/s [20-25]
Lower pressure
15 m/s [5-15]
Extremely low pressure: 0.1 MPa or less
10 m/s [3-10]
Water, Oil
2 m/s [2- 4]
* This table is based on the requirements provided in JIS F 7101 [Shipbuilding – Pipes
of machinery – Standard velocity of flow].