Data Sheet

ManualsBrandsEmerson ManualsOtherCS200

Bulletin 71.1:CS200

Internal Relief

The internal relief provided by the Type CS200IR limits

the total outlet pressure to values shown in Relief

Tables 8, 11, 16, and 21. This internal relief may be

adequate, however, if an additional pressure relief

is required to maintain downstream pressure at the

desired maximum level, an additional relieving or

pressure limiting device should be installed to protect

downstream equipment.

Overpressuring any portion of a regulator or

associated equipment may cause leakage, parts

damage, or personal injury due to bursting of

pressure-containing parts or explosion of accumulated

gas. Regulator operation within ratings does not

preclude the possibility of damage from external

sources or from debris in the pipeline. A regulator

should be inspected for damage periodically and after

any overpressure condition.

Refer to the relief sizing coefcients. Table 3, and the

Capacity Information section to determine the required

relief valve capacity.

Internal Relief Per ANSI B109.4

The ANSI B109.4 standard applies to outlet

setpoints at or below 14-inches w.c. / 35 mbar. At

these conditions the maximum outlet pressure

allowed during relief is 2 psig / 138 mbar. If the

Type CS200IR installation requires conformance

with the ANSI B109.4, then the maximum inlet

pressure allowed per orice is limited to the value

that maintains an outlet below 2 psig / 138 mbar

during relief. Reference applicable relief capacity

curves, Figures 5 through 8, to determine maximum

allowable inlet per orice.

Flows are in SCFH (60°F and 14.7 psia) and Nm³/h

(0°C and 1.01325 bar) of 0.6 specic gravity natural

gas. To determine equivalent capacities for air,

propane, butane, or nitrogen, multiply the capacity

number in the tables by the following appropriate

conversion factor: 0.775 for air, 0.628 for propane,

0.548 for butane, or 0.789 for nitrogen. For gases of

other specic gravities, multiply the given capacity by

0.775 and divide by the square root of the appropriate

specic gravity.

The published capacities were obtained using inlet and

outlet piping the same size as the regulator body size.

Relief Sizing

For Critical Flow:

To determine wide-open flow capacities for relief

sizing of 0.6 specific gravity natural gas at 60°F at

critical pressure drops (absolute outlet pressure

equal to approximately one-half or less than

one-half of the absolute inlet pressure), use the

following formula:

Q= P

1abs

)(1.29)

For Subcritical Flow:

If pressure drops are lower than critical (absolute

outlet pressure greater than approximately one-half

the absolute inlet pressure), use the following formula

and convert according to the factors in the preceding

paragraph if necessary:

Q = C

SIN

520

3417

∆P

DEG

where:

Capacity Information

Tables 7, 9 to 10, 12 to 15, 17 to 20, and 22 to 32 give

the CS200 Series natural gas regulating capacities at

selected inlet pressures, outlet pressure settings, and

body outlet sizes.

= C

(See Table 2)

= Gas sizing coefcient (See Table 3)

g = Gas specic gravity (air = 1.0)

= Regulator inlet pressure, psia

∆P = Pressure drop across regulator, psi

Q = Gas ow rate, SCFH

T = Absolute temperature of gas at inlet, °Rankine