EasyManuals Logo

Honeywell SMV 3000 User Manual

Honeywell SMV 3000
217 pages
To Next Page IconTo Next Page
To Next Page IconTo Next Page
To Previous Page IconTo Previous Page
To Previous Page IconTo Previous Page
Page #88 background imageLoading...
Page #88 background image
SMV 3000 Transmitter Users Manual 1/9976
6.11 Flow Compensation Wizard, Continued
Dynamic
Compensation
Equation, continued
Table 18 Primary Flow Elements, Continued
Primary Element Application
Venturi - Machined Inlet (ASME - ISO) Liquids
- Rough Cast Inlet (ASME - ISO) Liquids
- Rough Welded sheet-iron inlet
(ASME - ISO)
Liquids
Ellipse® Averaging Pitot Tube Gases, liquids and steam
Nozzle (ASME Long Radius) Liquids
Venturi Nozzle (ISA inlet) Liquids
ISA Nozzle Liquids
Leopold Venturi Liquids
Gerand Venturi Liquids
Universal Venturi Tube Liquids
Lo-Loss Tube Liquids
Dynamic
Compensation
Equation
The dynamic compensation flow equation for mass applications is:
WfVM
hdEYCNFlow =
ρ
ρ
2
1
which provides compensation dynamically for discharge coefficient, gas
expansion factor, thermal expansion factor, density, and viscosity.

Table of Contents

Other manuals for Honeywell SMV 3000

Preview: Specification And Model Selection Guide
Specification And Model Selection Guide25 pages
Preview: Reference Guide
Reference Guide50 pages

Questions and Answers:

Question and Answer IconNeed help?

Do you have a question about the Honeywell SMV 3000 and is the answer not in the manual?

Honeywell SMV 3000 Specifications

General IconGeneral
BrandHoneywell
ModelSMV 3000
CategoryTransmitter
LanguageEnglish

Related product manuals