Flow Elements

Flow Elements

Shipments:
5816 Hamblen Dr
Humble, TX 77396

Invoicing/Payments:
P.O. Box 6237
Kingwood, Texas 77325

Orifice Plate Calculations and Design

One of the key challenges when dealing with flow measurement using differential pressure flow meters is the design of the primary flow element such as an orifice plate, flow nozzle, venturi or other flow meter. The design of an orifice plate or any other flow meter starts with the accumulation of several data items. These data points are then used to design physical dimensions of the orifice plate including the outer diameter, the plate thickness, the handle requirements, and the orifice bore. Process data are used in a calculation iteration to develop the orifice bore, and once the physical dimensions of the orifice are decided, this information is then used to complete the overall flow calculation. Worksheets are often utilized in order to accumulate the needed data for the flow calculation.

A sample process data worksheet is included below:
 
Triad Measurement & Equipment, Inc.
Orifice Plate Flow Calculation Data Sheet
Company Name
 
Contact Name
 
Contact Phone Number
 
Contact Email Address
 
Product Description
 
Plate Type
 
Tap Type
 
Plate Material
 
Tap Location
 
Drain / Vent Diameter
 
Pipe Size
 
Tap Process Connection (NPT, SW, etc.)
 
Pipe Schedule
 
 
Pipe Material
 
Input Data
 
Fluid Type
 
 
Pipe ID
 
 
Pressure
 
Base Pressure
 
Temperature at flow
 
Base Temperature
 
Flow Rates
 
Minimum
Rate
Units
 
Normal
Rate
Units
 
Maximum
Rate
Units
 
Full Scale
Rate
Units
 
 
The flow calculation takes into consideration all of the process flow conditions, the physical attributes of the orifice plate and then provides key results such as discharge coefficient, beta ratio, flow velocity, expected differential pressure, total pressure loss, etc. The flow calculation also takes into consideration correction factors such as temperature compensation, compressibility factors, fluid properties and other variables to ensure the most highly accurate instrument possible.

There are many terms that are commonly used for the basic flow calculation. Some of the common terms are: flow calculation data sheet, flow calculation, bore calculation; orifice bore calculation, orifice data sheet, etc. For the purposes in this brief, the outcome of this process will be referred to as the Flow Calculation.

Once the flow calculation is complete, the physical attributes of the flow meter can then be designed. There are several standard making authorities who have developed guidelines for the physical design of primary flow meters such as orifice plates. These include ASME MFC-3M, ISO 5167, AGA 3, PTC-6 (Performance Test Code) and PTC-19.5. Based on the details of these standards, the physical attributes of the meter such as bore design, bore location, pressure tap design, pressure tap location, required pipe straight run requirements, flow conditioning requirements, pipe material, pipe thickness, etc., can be determined.

These physical attributes are accumulated into an engineering design drawing which is utilized for the manufacture of the orifice plate or other flow meter. The product is then manufactured with very tight tolerances. In the case of a PTC-6 Nozzle, deviations in measured bores as small as 3/1000th of an inch can lead to a meter that meets the code requirements and one that does not. As such the manufacturing process is tightly controlled and detailed measurements are taken to ensure that the flow meter will perform as expected.

Steps required to design an orifice plate or orifice plate flow meter:

1. Identify the physical attributes of the piping system.
a. Pipe size
b. Pipe schedule
c. Flange rating
d. Orifice plate material

2. Identify and accumulate data on process flow conditions
a. Fluid to be measured
b. Pressure
c. Temperature
d. Viscosity
e. Flow rates (Minimum, Normal and Maximum)

3. Identify and accumulate information on other requirements of the flow meter
a. Desired differential pressure
b. Target beta ratio
c. Acceptable permanent pressure loss
d. Maximum flow velocity
Note: The flow calculation will provide much of this data, but consideration of this data is crucial to the overall piping system design.

4. Complete the pictorial or graphical depiction of the flow element including
a. Pipe size
b. Pipe schedule
c. Flange size
d. Flange schedule
e. Flange rating
f. Pipe length
g. Pipe bore attributes such as smoothness, roundness, etc.
h. Tap design
i. Tap location
j. Tap orientation
k. Orifice plate details
l. Tagging requirements
m. Other requirements such as welding and non-destructive examination procedures

The process of designing and manufacturing primary flow elements such as orifice plates and other flow meters involves a high level of accuracy not only in the manufacturing process, but also in the data accumulation and calculation process. Many information sources regarding flow calculations provide simplified versions of the detailed flow calculations. These should not be used for detailed design of orifice plates or any other differential pressure flow meter such as flow nozzles or venturi because they do not consider the vast number of correction factors and detailed fluid properties that are needed to ensure the most accurate meter possible. Reputable flow meter engineers and manufacturers can be useful as expert resources to support the flow meter design effort.

These flow calculations can be provided by the engineering staff at Triad Measurement & Equipment, Inc. (www.triad-measurement.com) either as a support to the manufacturing of a meter or as a separate contract service. If you need additional information or would like to obtain a flow calculation for your piping design, please refer to the engineering staff on our Contact Us page or call at 832-762-3676 ext. 5620.