Appendix b– configuration record sheet – Honeywell SMV 3000 User Manual

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SMV 3000 Transmitter User’s Manual

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Appendix B– Configuration Record Sheet,

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2. Flow - PV4 - Configuration Section
(If using SMV 3000 for PV1, PV2 and PV3 measurement only, do not complete flow section.)

2a. Dynamic Flow Compensation Section
(If you are using a primary element that is not listed, use the Standard Flow Equation Section below.)

Flow Element Type:
Orifice - Flange Taps (ASME-ISO) D >/= 2.3 inches

_____

Orifice - Flange Taps (ASME-ISO) 2 </= D </= 2.3

_____

Orifice - Corner Taps (ASME-ISO)

_____

Orifice - D and D/2 Taps (ASME-ISO)

_____

Orifice - 2.5D and 8D Taps (ASME-ISO)

_____ (Liquids only)

Venturi - Machined Inlet (ASME-ISO)

_____ (Liquids only)

Venturi - Rough Cast Inlet (ASME-ISO)

_____ (Liquids only)

Venturi - Rough W elded Sheet-Iron Inlet (ASME-ISO) _____ (Liquids only)
Nozzle (ASME Long Radius)

_____ (Liquids only)

Venturi nozzle (ISA Inlet)

_____ (Liquids only)

Leopold venturi

_____ (Liquids only)

Gerand venturi

_____ (Liquids only)

Universal Venturi Tube

_____ (Liquids only)

Lo-Loss Venturi Tube

_____ (Liquids only)

Preso Ellipse Ave. Pitot Tube

_____ (Specify 7/8”, 1.25” or 2.25” Probe diameter)

Material ____________
Bore Diameter (inches at 68 deg. F) ___________ (not required for Pitot Tube)
Design Temperature ______________ (not required for Pitot Tube)

Fluid State:

Gas _____

Liquid _____

Steam _____

Fluid Name:

________________________________________________

Pipe Properties:

Material __________

Pipe Schedule ______

Pipe Diameter _________

Isentropic Exponent:

_____________ (not required for Liquid applications or Pitot Tube)

2b. Standard Flow Compensation Section
(Standard equation should be used for any primary element not listed in Dynamic Flow Section above.)

Fluid State:

Gas _____

Liquid _____

Steam _____

Fluid Name:

________________________________________________

Flow Data: (obtained from Primary Element Sizing Sheet)
Normal Flowrate __________________

Design Pressure

_____________(Gas applications only)

Normal Diff. Pressure_________________ Design Temperature ________________ (Gas applications only)
Design Density ___________________ (required only for Steam and Liquid applications)
Standard Density __________________ (required only for Standard Volume equations)

Flow Compensation:

None ___

Full ___

Pressure Only ___

Temperature Only___

Flow Data: (obtained from Primary Element Sizing Sheet)
Design Pressure __________________ (required only for Gas applications)
Design Temperature ________________ (required only for Gas applications)
Design Density ___________________ (required only for Steam applications)
Standard Density __________________ (required only for Standard Volume equations)

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