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Basic Operation and Function of Industrial Regulators

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Title: Basic Operation and Function of Industrial Regulators


1
Basic Operation and Function of Industrial
Regulators
2
Regulator Advantages
  • Regulators do not require an external power
    source, resulting in less down time.
  • Regulators do not require an external packing
    gland resulting in a lower chance of leakage.
  • Ease of maintenance.
  • Lower installation costs.
  • Instantaneous reaction.
  • Efficient and durable.
  • Self-contained.
  • (They do not require external piping.)

3
Applying Regulators
KEY CRV Control Valve POR Pilot
Operated Regulator REG Self-contained
Regulator FTC REG Flow-to-close Regulator
FTO REG Flow-to-open Regulator
CRV WP Control Valve w/positioner
CRV WOP Control Valve w/out
positioner
FACTORS CONSIDERED BEST NEXT LAST Line Size
Cost Thru 1-1/2 REG POR CRV 2 thru
3 POR REG CRV 4 and Up CRV POR REG Cost/CV
Thru 1-1/2 POR REG CRV 2 and
Up CRV POR REG Capacity CRV POR REG Outlet
Pressure Level Capability CRV REG POR Output
Pressure Level Maintenance of Set
Point CRV POR REG Rangeability FTO
REG CRV/POR FTC REG Requirements for External
Power (Air or Electricity) REG/POR CRV Stabili
ty CRV REG POR Speed of Response REG POR CRV
WOP CRV WP Ability to Adapt to System
Dynamics CRV POR REG Fail-Safe
Action CRV POR/REG Adaptability (Add
accessories, modify action) CRV REG PRO Remote
Set Point Capability CRV Regulator, Dome
Loaded POR/REG Maintenance Cost/Spare
Parts REG POR CRV
4
PRESSURE REDUCING REGULATOR A device that
controls and responds to changes in its outlet
pressure.
Frs
BACK PRESSURE REGULATOR A device that controls
and responds to changes in its inlet pressure.
DIFFERENTIAL PRESSURE REGULATOR A device that
maintains a constant differential pressure
between a reference pressure and the pressure of
the controlled fluid.
Fps
5
EXTERNAL PILOTED REGULATOR A piston or diaphragm
actuated regulator controlled by a separate
external pilot mechanism.
6
PRESSURE LOADED REGULATOR A regulator using a
fixed volume and pressure of compressible fluid
as a spring and set point reference to accomplish
pressure reduction or back pressure regulation.
sometimes called a Dome Loaded Regulator.
7
FTO vs. FTC
FTOFLOW TO OPEN
FTCFLOW TO CLOSE
8
REDUCING REGULATORS
Force-Balance Principle
9
FTO REDUCING REGULATOR
Inlet Pressure Tends to Push the Plug Open
10
FTO REDUCING REGULATO with BALANCED TRIM
Inlet pressure tends to PUSH the plug open and
closed at the same time, causing a
balanced effect.
11
DIFFERENTIAL REDUCING REGULATOR
Loading Connection
12
FTO PRESSURE LOADED REDUCING REGULATOR with
BALANCED TRIM
13
BACK PRESSURE / RELIEF REGULATOR
14
BP REGULATOR with UNBALANCED TRIM TOP/CAGE GUIDED
15
PRESSURE LOADED BP REGULATOR with UNBALANCED TRIM
TOP/CAGE GUIDED
16
DIFFERENTIAL BACK PRESSURE RELIEF REGULATOR
Loading Connection
17
PILOT-OPERATED REDUCING REGULATOR
18
Droop
19
To Minimize Droop on Reducing Regulator and
Build on Back Pressure Regulators
  • For a Reducing Regulator when flow demand
    increases the outlet pressure falls away or
    droops from set point.
  • For a back pressure regulator when the flow
    demand increases the inlet pressure
  • increases or builds above set point.
  • Use a larger body size with higher Cv Capacity.
  • Use a composition diaphragm material.
  • Use full port trim instead of reduced port trim.
  • Use the lightest spring possible on pressure
    reducing and heaviest on back pressure.
  • Use dome loaded technology.

20
Increasing Regulator Sensitivity
  • Use a composition diaphragm instead of metal
  • Use a lighter range spring
  • Use a balanced trim design

21
Composition vs. Metal Diaphragms
  • COMPOSITION
  • More sensitive.
  • Increased capacity
  • Increased efficiency.
  • Recommended when compatible with fluids.
  • Same price as metal.
  • METAL
  • Less sensitive.
  • Reduces capacity.
  • Recommended for high temperatures.
  • Recommended when composition is not compatible
    with fluid.

22
Composition vs. Metal Seats
  • COMPOSITION
  • Tight Shut-off
  • No Seat Leakage
  • Extended Seat Life
  • Recommended when compatible with fluids.
  • METAL
  • Does not allow tight shut-off.
  • Some seat leakage will occur.
  • Recommended for high temperature applications.
  • Recommended when composition is not compatible.
  • Less expensive than composition seats.

23
Sizing a Regulator
  • Rule 1 Flow rate and set point are integral.
  • Set point varies with flow.
  • The amount of variation set point with a given
    change in flow is called
  • Proportional Band
  • Droop
  • Offset
  • Buildup

24
Rule 2 The use of composition seats and
diaphragms will provide
Maximum Flow - Minimum Droop - Minimum Seat
Leakage Proportional Band Droop
Build Offset
Accumulation
25
Regulator Sizing Continued. . .
  • Rule 3 PRV and BPR DO NOT fail in the normal
    desired mode.

Rule 4 Regulators are best when used in systems
where flow changes are minor.
Rule 5 DO NOT rely on a regulator as a shut off
device.
Rule 6 Never hydro-statically test a regulator.
26
Application and Selection Requirements
  • What is the service fluid?
  • Inlet Pressure (P1)
  • Outlet Pressure (P2)
  • Flow Rate or Pipe Size
  • Temperature

27
Technical Bulletins
  • Features
  • Standard/General specifications.
  • Principal of operation.
  • Technical specifications
  • Design pressure/temperature
  • Maximum allowable pressure drops.
  • Trim combinations/Temp ranges.
  • Capacity Tables
  • Dimensions Weights

28
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