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CCIMS - Close Coupled Instrument Mounting System

Brand: Parker PGI
Parker’s close-coupled valve is designed to improve overall system performance, reliability and safety by eliminating impulse lines and connections. 

The range includes three main assembly types, each of which can reduce the number of potential leak paths by as much as 85%. 

Every Parker CCIMS solution offers a choice of instrumentation connection styles, including single ferrule or Parker A-LOK double ferrule compression type end connections, as well as NPT threaded connections.
Features
CCIMS Flow Measurement
  • This assembly combines an instrument manifold and a piping isolation valve interface and is designed for direct-mounting differential pressure transmitters to orifice carriers and flanges in a close-coupled installation.
  • Only 5 connections
  • Straight-through flow path
  • Unique ‘PhasFit’ interlocked

CCIMS Monoflange
  • This assembly integrates an instrument manifold with a piping isolation monoflange and is designed for direct-mounting Static-Pressure transmitters in a close-coupled installation.
  • Only 2 connections
  • Reduced length flow path

CCIMS Level-flange
  • This assembly also integrates an instrument manifold with a piping isolation monoflange, but is specifically designed for direct-mounting differential pressure transmitters in a close-coupled liquid level installation.
  • Only 4 connections
  • Reduced length flow path
Parker’s close-coupled valve is designed to improve overall system performance, reliability and safety by eliminating impulse lines and connections. 

The range includes three main assembly types, each of which can reduce the number of potential leak paths by as much as 85%. 

Every Parker CCIMS solution offers a choice of instrumentation connection styles, including single ferrule or Parker A-LOK double ferrule compression type end connections, as well as NPT threaded connections.
Features
CCIMS Flow Measurement
  • This assembly combines an instrument manifold and a piping isolation valve interface and is designed for direct-mounting differential pressure transmitters to orifice carriers and flanges in a close-coupled installation.
  • Only 5 connections
  • Straight-through flow path
  • Unique ‘PhasFit’ interlocked

CCIMS Monoflange
  • This assembly integrates an instrument manifold with a piping isolation monoflange and is designed for direct-mounting Static-Pressure transmitters in a close-coupled installation.
  • Only 2 connections
  • Reduced length flow path

CCIMS Level-flange
  • This assembly also integrates an instrument manifold with a piping isolation monoflange, but is specifically designed for direct-mounting differential pressure transmitters in a close-coupled liquid level installation.
  • Only 4 connections
  • Reduced length flow path

Specifications

Flange

  • 1/2 N.B. (Male) Socket Weld
  • 3/4 N.B. (Male) Socket Weld
  • 3/4-14 NPT (Male)
  • 1/2-14 NPT (Male)

Flow Control

  • Custody Transfer Flow / Coplanar Instrument Mounting
  • Custody Transfer Flow / Standard Instrument Mounting
  • Standard Flow / Coplanar Instrument Mounting
  • Standard Flow / Standard Instrument Mounting

Manifold Type

  • 5 Valve with Ball (10 mm) Isolate Valves
  • 5 Valve with Needle (6 mm) Isolate Valves
  • 3 Valve with RPV (6 mm) Isolate Valves
  • 3 Valve with Ball (10 mm) Isolate Valves
  • 3 Valve with Needle (6 mm) Isolate Valves
  • 5 Valve with RPV (6 mm) Isolate Valves

Material

  • Super Duplex UNS S32750,
  • 825
  • 625
  • 6Mo
  • Hastelloy C-276
  • Duplex UNS 31803
  • Monel M400
  • 316 Stainless Steel

Options

  • Firesafe Primary Module Only
  • Handwheel
  • HCT
  • Locking Handwheel
  • Lockable Primary Isolates
  • NACE
  • PEEK Seated Ball Valves
  • Spanner Actuation Primary Isolates
  • Graphite Packing
  • PAI Phasfit Seal Supplied with insertion tool
  • Blank Plug
  • Anti Tamper Valves

Valve Configuration Type

  • Double Block
  • Single Block

Applications

  • Instrument isolation
  • Inline process isolation