Sierra Series 220 and 221
Innova-Flo™ Vortex Flow Meters
Instruction Manual
Part Number IM-22
05/03 Revision C
IMPORTANT: This manual is for use with 220/221 Vortex Products
purchased during 1997 through January 2006
CORPORATE HEADQUARTERS
5 Harris Court, Building L Monterey, CA 93940
Phone (831) 373-0200 (800) 866-0200 Fax (831) 373-4402
EUROPE HEADQUARTERS
Bijlmansweid 2 1934RE Egmond a/d Hoef The Netherlands
Phone +31 72 5071400 Fax +31 72 5071401
ASIA HEADQUARTERS
Tomson Centre, Rm. A618, 188 Zhang Yang Road
Pu Dong New District, Shanghai, P.R.China
Phone: + 8621 5879 8521 Fax: +8621 5879 8586
Series 220/221 Instruction Manual
Table of Contents
Table of Contents
Chapter 1 Introduction
Innova-Flo™ Vortex Flow Meters........................................................1-1
Using this Manual .........................................................................1-1
Note and Safety Information.........................................................1-2
Receipt of System Components ....................................................1-2
Technical Assistance.....................................................................1-2
How the Innova-Flo Vortex Flow Meter Operates..............................1-3
Velocity Measurement/Pressure Drop...........................................1-3
Flow Meter Configurations..................................................................1-7
Chapter 2 Installation
Installation Overview...........................................................................2-1
Flow Meter Installation Requirements..........................................2-1
Unobstructed Flow Requirements.................................................2-2
Series 220 In-Line Flow Meter Installation.........................................2-3
Wafer-Style Flow Meter Installation.............................................2-4
Flange-Style Flow Meter Installation............................................2-5
Series 221 Insertion Flow Meter Installation.......................................2-6
Cold Tap Guidelines......................................................................2-7
Hot Tap Guidelines .......................................................................2-8
Flow Meter Insertion ...........................................................................2-9
Installing Meters with a Compression Connection .....................2-10
Installing Meters with a Packing Gland Connection...................2-12
Installing Meters (Packing Gland), No Insertion Tool................2-15
Adjusting Meter Orientation..............................................................2-17
Display/Keypad Adjustment .......................................................2-17
Enclosure Adjustment .................................................................2-18
Wiring Connections...........................................................................2-19
Input Power Connections ............................................................2-19
Pulse Output Connections...........................................................2-21
Remote Electronics Wiring .........................................................2-22
Chapter 3 Operating Instructions
Flow Meter Display/Keypad................................................................3-1
Start Up................................................................................................3-2
Using the Setup Menus........................................................................3-3
Programming the Flow Meter .......................................................3-3
Output Menu .................................................................................3-4
Display Menu................................................................................3-5
Totalizer Menu..............................................................................3-6
Units Menu....................................................................................3-7
Diagnostics Menu..........................................................................3-8
Calibration Menu ..........................................................................3-9
Password Menu ...........................................................................3-10
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Table of Contents
Series 220/221 Instruction Manual
Chapter 4 Troubleshooting and Repair
Hidden Diagnostics Menus..................................................................4-1
Column One Hidden Diagnostics Values......................................4-2
Column Two Hidden Diagnostics Values.....................................4-2
Analog Output Calibration ..................................................................4-3
Troubleshooting the Flow Meter .........................................................4-3
Symptom: Output at no Flow........................................................4-3
Symptom: Erratic Output ..............................................................4-3
Symptom: No Output ....................................................................4-4
Electronics Assembly Replacement.....................................................4-5
Returning Equipment to the Factory....................................................4-6
Appendix A Product Specifications
Appendix B Glossary
List of Figures
1-1.
1-2.
1-3.
2-1.
2-2.
2-3.
2-4.
2-5.
2-6.
2-7.
2-8.
2-9.
Series 220 In-Line Vortex Flow Meter...................................1-3
Measurement Principle of Vortex Flow Meters......................1-4
Reynolds Number Range for the Innova-Flo..........................1-6
Recommended Pipe Length Requirements.............................2-2
Flange Bolt Torquing Sequence .............................................2-3
Wafer-Style Flow Meter Installation ......................................2-4
Flange-Style Flow Meter Installation .....................................2-5
Hot Tap Sequence...................................................................2-8
Insertion Calculation (Compression Type)...........................2-10
Flow Meter with Compression Type Fitting.........................2-11
Insertion Calculation (Meters with Insertion Tool) ..............2-12
Flow Meter with Permanent Insertion Tool..........................2-13
2-10. Flow Meter with Removable Insertion Tool.........................2-14
2-11. Insertion Calculation (Meters without Insertion Tool).........2-15
2-12. Display/Keypad Viewing Adjustment..................................2-17
2-13. Enclosure Viewing Adjustment............................................2-18
2-14. DC Power Connections.........................................................2-19
2-15. Load Resistance Versus Input Voltage.................................2-20
2-16. Pulse Output with External Power Supply ...........................2-21
2-17. Junction Box Sensor Connections ........................................2-22
3-1.
Flow Meter Display/Keypad...................................................3-1
List of Tables
2-1.
Minimum Stud Bolt Lengths for Wafer-Style Meters ............2-3
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IM-22-C
Series 220/221 Instruction Manual
Table of Contents
Warnings and Cautions
Warning!
Agency approval for hazardous location installations varies between flow meter models.
Consult the factory for specific flow meter approvals before any hazardous location instal-
lation. For explosion proof installations, you must use solid metal conduit and follow
NFPA (or your local code) approved wiring methods.
Hot tapping must be performed by a trained professional. U.S. regulations often require a
hot tap permit. The manufacturer of the hot tap equipment and/or the contractor perform-
ing the hot tap is responsible for providing proof of such a permit.
All flow meter connections, isolation valves and fittings for cold/hot tapping must have the
same or higher pressure rating as the main pipeline.
For Series 221 insertion flow meter installations, an insertion tool must be used for any
installation where a flow meter is inserted under pressure greater than 50 psig.
To avoid serious injury, DO NOT loosen a compression fitting under pressure.
All wiring procedures must be performed with the power Off.
Before attempting any flow meter repair, verify that the line is de-pressurized.
Always remove main power before disassembling any part of the mass flow meter.
Caution!
Calibration must be performed by qualified personnel. Sierra Instruments, Inc., strongly rec-
ommends that you return your flow meter to the factory for calibration.
In order to achieve accurate and repeatable performance, the flow meter must be in-
stalled with the specified minimum length of straight pipe upstream and downstream of
the flow meter’s sensor head.
When using toxic or corrosive gases, purge the line with inert gas for a minimum of four
hours at full gas flow before installing the flow meter.
Wafer-style flow meter gaskets must be carefully aligned to ensure accurate flow meas-
urement.
For Series 221 insertion flow meter installations, the sensor alignment pointer must point
downstream in the direction of flow.
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Table of Contents
Series 220/221 Instruction Manual
0-6
IM-22-C
Series 220/221 Instruction Manual
Chapter 1 Introduction
Chapter 1 Introduction
Innova-Flo™ Vortex Flow Meters
The Sierra Instruments’ Series 220 In-Line and the Series 221 Insertion
Innova-Flo™ Vortex Flow Meters provide a reliable solution for process
flow measurement. From a single entry point in the pipeline, Innova-Flo
meters offer precise measurements of mass or volumetric flow. The ve-
locity sensor reduces the effects of pipeline vibration by incorporating a
unique piezoelectric element that senses the vortex frequency. To extend
rangeability at the low end of flow, the meter’s smart electronics calcu-
lates the Reynolds number (Re) based on constant values of fluid density
and viscosity stored in memory and automatically corrects for any non-
linearity down to Re = 5,000.
Innova-Flo digital electronics allows reconfiguration for most gases, liq-
uids and steam. The instrument is loop powered (12 to 36 VDC) with
two output signals. The pulse output signal is proportional to volumetric
flow rate; the analog linear 4-20 mA signal offers your choice of volu-
metric flow rate or mass flow rate. The mass flow rate is based on a con-
stant value for fluid density stored in the instrument’s memory. The local
keypad/display provides instantaneous flow rate in engineering units or
totalized flow.
The Sierra Series 220 and 221 Innova-Flo Meters simple installation
combines with an easy-to-use interface that provides quick set up, long
term reliability and accurate flow measurement over a wide range of
flows and conditions.
Using This Manual
This manual provides the information needed to install and operate the
Series 220 In-Line and Series 221 Insertion Innova-Flo Vortex Flow Me-
ters. The four chapters of this manual cover these areas:
•
•
•
•
Chapter 1 includes the introduction and product description
Chapter 2 provides information needed for installation
Chapter 3 describes system operation and programming
Chapter 4 covers troubleshooting and repair
The product specifications are found in Appendix A. Appendix B con-
tains a glossary of terms.
IM-22-C
1-1
Chapter 1 Introduction
Series 220/221 Instruction Manual
Note and Safety Information
We use note, caution and warning statements throughout this book to
draw your attention to important information.
Caution!
This statement appears with
information that is important
for protecting your equipment an important detail.
and performance. Read and
Note
Warning!
This statement appears with
information that is important to
protect people and equipment
from damage. Pay very close
attention to all warnings that
apply to your application.
This statement appears with a
short message to alert you to
follow all cautions that apply
to your application.
Receipt of System Components
When receiving a Sierra flow meter, carefully check the outside packing
carton for damage incurred in shipment. If the carton is damaged, notify
the local carrier and submit a report to the factory or distributor. Remove
the packing slip and check that all ordered components are present. Make
sure any spare parts or accessories are not discarded with the packing
material. Do not return any equipment to the factory without first con-
tacting Sierra Customer Service.
Technical Assistance
If you encounter a problem with your flow meter, review the configura-
tion information for each step of the installation, operation and set up pro-
cedures. Verify that your settings and adjustments are consistent with fac-
tory recommendations. Refer to Chapter 4, Troubleshooting, for specific
information and recommendations.
If the problem persists after following the troubleshooting procedures
outlined in Chapter 4, contact Sierra Instruments, Technical Support at
(800) 866-0200 or (831) 373-0200 between 8:00 a.m. and 5:00 p.m. PST.
When calling Technical Support, have the following information on
hand:
•
•
•
the flow range, serial number and Sierra order number (all
marked on the meter nameplate)
the problem you are encountering and any corrective action
taken
application information (gas, pressure, temperature and pip-
ing configuration)
1-2
IM-22-C
Series 220/221 Instruction Manual
Chapter 1 Introduction
How the Innova-Flo Vortex Flow Meter Operates
Figure 1-1. Series 220 In-Line Vortex Flow Meter
Sierra Series 220 and 221 Innova-Flo™ Vortex Flow Meters use a unique
velocity sensor head to monitor volumetric flow rate. The built-in flow
computer calculates mass flow rate based on a constant value of fluid
density stored in the instrument’s memory. To measure fluid velocity,
the flow meter incorporates a bluff body (shedder bar) in the flow
stream, and the velocity sensor measures the frequency of vortices cre-
ated by the shedder bar. The velocity sensor head is located downstream
of the shedder bar within the flow body.
Velocity Measurement
The Innova-Flo vortex velocity sensor is a patented mechanical design
that minimizes the effects of pipeline vibration and pump noise, both of
which are common error sources in flow measurement with vortex flow
meters. The velocity measurement is based on the well-known Von Kar-
man vortex shedding phenomenon. Vortices are shed from a shedder bar,
and the vortex velocity sensor located downstream of the shedder bar
senses the passage of these vortices. This method of velocity measurement
has many advantages including inherent linearity, high turndown, reliabil-
ity and simplicity.
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1-3
Chapter 1 Introduction
Series 220/221 Instruction Manual
Vortex Shedding Frequency
Von Karman vortices form downstream of a shedder bar into two distinct
wakes. The vortices of one wake rotate clockwise while those of the
other wake rotate counterclockwise. Vortices generate one at a time, al-
ternating from the left side to the right side of the shedder bar. Vortices
interact with their surrounding space by over-powering every other
nearby swirl on the verge of development. Close to the shedder bar, the
distance (or wave length) between vortices is always constant and meas-
urable. Therefore, the volume encompassed by each vortex remains con-
stant, as shown below. By sensing the number of vortices passing by the
velocity sensor, the Innova-Flo™ Vortex Flow Meter computes the total
fluid volume.
Velocity sensor
Vortex shedder bar
Flow
Vortices
Constant
wave length
Figure 1-2. Measurement Principle of Vortex Flow Meters
Vortex Frequency Sensing
The velocity sensor incorporates a piezoelectric element that senses the
vortex frequency. This element detects the alternating lift forces pro-
duced by the Von Karman vortices flowing downstream of the vortex
shedder bar. The alternating electric charge generated by the piezoelec-
tric element is processed by the transmitter’s electronic circuit to obtain
the vortex shedding frequency. The piezoelectric element is highly sensi-
tive and operates over a wide range of flows, pressures and temperatures.
1-4
IM-22-C
Series 220/221 Instruction Manual
Chapter 1 Introduction
Flow Velocity Range
To ensure trouble-free operation, vortex flow meters must be correctly
sized so that the flow velocity range through the meter lies within the
measurable velocity range (with acceptable pressure drop) and the linear
range.
The measurable range is defined by the minimum and maximum velocity
using the following table.
Gas
Liquid
25
ft/s
English ρ (lb/ft3)
ρ
Vmin
1 ft/s
Vmax
300 ft/s
30 ft/s
37
m/s
Metric ρ (kg/m3)
ρ
Vmin
Vmax
0.3 m/s
9.1 m/s
91 m/s
The pressure drop for series 221 insertion meters is negligible. The pres-
sure drop for series 220 in-line meters is defined as:
∆P = .00024 ρ V2 English units (∆P in psi, ρ in lb/ft3, V in ft/sec)
∆P = .000011 ρ V2 Metric units (∆P in bar, ρ in kg/m3, V in m/sec)
The linear range is defined by the Reynolds number. The Reynolds num-
ber is the ratio of the inertial forces to the viscous forces in a flowing
fluid and is defined as:
ρ V D
Re =
µ
Where
Re = Reynolds Number
ρ
=
mass density of the fluid being measured
V = velocity of the fluid being measured
D = internal diameter of the flow channel
µ
=
viscosity of the fluid being measured
The Strouhal number is the other dimensionless number that quantifies the
vortex phenomenon. The Strouhal number is defined as:
f d
St =
Where
V
St = Strouhal Number
f
=
frequency of vortex shedding
d = shedder bar width
V = fluid velocity
IM-22-C
1-5
Chapter 1 Introduction
Series 220/221 Instruction Manual
As shown below, Innova-Flo™ Vortex Flow Meters exhibit a constant
Strouhal number across a large range of Reynolds numbers, indicating a
consistent linear output over a wide range of flows and fluid types. Be-
low this linear range, the intelligent electronics in Innova-Flo automati-
cally corrects for the variation in the Strouhal number. Innova-Flo’s
smart electronics correct for this non-linearity by calculating the Rey-
nolds number based on constant values of the fluid’s density and viscos-
ity stored in the instrument’s memory. Innova-Flo Vortex Flow Meters
automatically correct down to a Reynolds number of 5,000.
Corrected range
0.3
Linear range
0.2
0.1
0.0
103
104
10 5
106
107
108
5000
Reynolds Number, Re
Figure 1-3. Reynolds Number Range for the Innova-Flo Meter
1-6
IM-22-C
Series 220/221 Instruction Manual
Chapter 1 Introduction
Flow Meter Configurations
Innova-Flo™ Vortex Flow Meters are available in two configurations:
•
•
Series 220 in-line flow meter (replaces a section of the pipeline)
Series 221 insertion flow meter (requires a “cold” tap or a “hot” tap
into an existing pipeline)
Both the in-line and insertion configurations are similar in that they both
use identical electronics and have similar sensor heads. Besides installa-
tion differences, the main difference between an in-line flow meter and
an insertion flow meter is their method of measurement.
For an in-line vortex flow meter, the shedder bar is located across the en-
tire diameter of the flow body. Thus, the entire pipeline flow is included
in the vortex formation and measurement. The sensing head, which di-
rectly measures velocity is located just downstream of the shedder bar.
An insertion vortex flow meter has its sensing head at the end of a 0.750
inch diameter tubular stem. The stem is inserted into the pipe until the
sensing head is properly located in the pipe’s cross section. The sensing
head fits through any entry port with an 1.875 inch minimum internal di-
ameter.
The sensing head of an insertion vortex flow meter directly monitors the
velocity at a point in the cross-sectional area of a pipe, duct, or stack (re-
ferred to as “channels”). The velocity at a point in the pipe varies as a func-
tion of the Reynolds number. The insertion vortex flow meter computes the
Reynolds number based on constant values of the fluid’s density and vis-
cosity stored in its memory and then computes the total flow rate in the
channel. The output signal of insertion meters is the total flow rate in the
channel. The accuracy of the total flow rate computation depends on ad-
herence to the piping installation requirements given in Chapter 2. If ad-
herence to those guidelines cannot be met, contact the factory for specific
installation advice.
Flow Meter Electronics
Innova-Flo electronics are available mounted directly to the flow body,
or remotely mounted. The electronics housing may be used indoors or
outdoors, including wet environments. The instrument requires 4-20 mA
loop power (12 to 36 VDC). One analog output signal is available for
your choice of volumetric flow rate or mass flow rate. A pulse output is
available for totalization.
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1-7
Chapter 1 Introduction
Series 220/221 Instruction Manual
The meter includes a local 2 x 16 character LCD display housed within
the enclosure. Local operation and reconfiguration is accomplished using
six push buttons. For hazardous locations, the six push buttons can be
operated through the sealed enclosure using a hand-held magnet, thereby
not compromising the integrity of the hazardous location certification.
The electronics include nonvolatile memory that stores all configuration
information. The memory allows the flow meter to function immediately
upon power up, or after an interruption in power.
1-8
IM-22-C
Series 220/221 Instruction Manual
Chapter 2 Installation
Chapter 2 Installation
Installation Overview
Innova-Flo™ meter installations are simple and straightforward. Both the Se-
ries 220 In-Line and Series 221 Insertion type flow meter installations are
covered in this chapter. After reviewing the installation requirements given
below, see page 2-3 for Series 220 installation instructions. See page 2-6 for
Series 221 installation instructions. Wiring instructions begin on page 2-19.
Flow Meter Installation Requirements
Before installing the flow meter, verify the installation site allows for these
considerations:
Warning!
Consult the flow meter name-
plate for specific flow meter
approvals before any hazard-
ous location installation.
1. Line pressure and temperature will not exceed the flow meter
rating.
2. The location meets the required minimum number of pipe di-
ameters upstream and downstream of the sensor head as illus-
trated Figure 2-1.
3. Safe and convenient access with adequate overhead clearance
for maintenance purposes.
4. Verify that the cable entry into the instrument meets the specific
standard required for hazardous area installations.
5. For remote installations, verify the supplied cable length is suf-
ficient to connect the flow meter sensor to the remote electron-
ics.
Also, before installation check your flow system for anomalies such as:
•
•
leaks
valves or restrictions in the flow path that could create disturbances in
the flow profile that might cause unexpected flow rate indications
IM-22-C
2-1
Chapter 2 Installation
Series 220/221 Instruction Manual
Unobstructed Flow Requirements
Select an installation site that will minimize possible distortion in the flow
profile. Valves, elbows, control valves and other piping components may
cause flow disturbances. Check your specific piping condition against the ex-
amples shown below. In order to achieve accurate and repeatable perform-
ance install the flow meter using the recommended number of straight run
pipe diameters upstream and downstream of the sensor.
Note: For liquid applications in vertical pipes, avoid installing with flow in
the downward direction because the pipe may not be full at all points.
Choose to install the meter with flow in the upward direction if possible.
A
B
A
B
C'
C
Flow meter
Flow meter
Flow conditioner
(if used)
Example 1.
One 90° elbow before meter
Example 4.
Reduction before meter
A
B
A
B
C'
C
Flow meter
C'
C
Flow meter
Flow conditioner
(if used)
Example 2.
Two 90° elbows before meter in one plane
Example 5.
Expansion before meter
Flow conditioner
(if used)
A
B
A
B
C'
C
Flow meter
C'
C
Flow meter
Flow conditioner
(if used)
Flow conditioner (if used)
Example 3.
Example 6.
Two 90° elbows before meter out of plane (if three
90° bends present, double recommended length)
Regulator or valve partially closed before meter
(If valve is always wide open, base length
requirements on fitting directly preceding it)
Minimum Required
Upstream Diameters
No Flow
Minimum Required
Downstream Diameters
No Flow
Conditioner
B
With Flow
Conditioner
Conditioner
A
With Flow Conditioner
Example
A
C
C´
B
1
2
3
4
5
6
10 D
15 D
25 D
10 D
20 D
25 D
N/A
N/A
5 D
5 D
5 D
5 D
5 D
N/A
5 D
5 D
5 D
5 D
5 D
5 D
5 D
10 D
5 D
5 D
5 D
5 D
5 D
5 D
5 D
5 D
10 D
10 D
10 D
10 D
10 D
10 D
D = Internal diameter of channel. N/A = Not applicable
Figure 2-1. Recommended Pipe Length Requirements for Installation, Series 220 and 221
2-2
IM-22-C
Series 220/221 Instruction Manual
Chapter 2 Installation
Series 220 In-Line Flow Meter Installation
Install the Series 220 In-Line Flow Meter between two conventional pipe
flanges as shown in Figures 2-3 and 2-4. Table 2-1 provides the recom-
mended minimum stud bolt lengths for wafer-style meter body size and dif-
ferent flange ratings.
The meter inside diameter is equal to the same size nominal pipe ID in
schedule 80. For example, a 2” meter has an ID of 1.939” (2” schedule 80).
Do not install the meter in a pipe with an inside diameter smaller than
the inside diameter of the meter. For schedule 160 and higher pipe, a spe-
cial meter is required. Consult the factory before purchasing the meter.
Series 220 Meters require customer-supplied gaskets. When selecting gasket
material make sure that it is compatible with the process fluid and pressure
ratings of the specific installation. Verify that the inside diameter of the gas-
ket is larger than the inside diameter of the flow meter and adjacent piping. If
the gasket material extends into the flow stream, it will disturb the flow and
cause inaccurate measurements.
Flange Bolt Specifications
Stud Bolt Lengths for Each Flange Rating (inches)
Line Size
Class 150
Class 300
Class 600
1 inch
1.5 inch
2 inch
3 inch
4 inch
6.00
6.25
8.50
9.00
9.50
7.00
8.50
8.75
10.00
10.75
7.50
9.00
9.50
10.50
12.25
Table 2-1. Minimum Recommended Stud Bolt Lengths for Wafer Meters
The required bolt load for sealing the gasket joint is affected by several ap-
plication-dependent factors, therefore the required torque for each application
may be different. Refer to the ASME Pressure Vessel Code guidelines for
bolt tightening standards.
1
1
1
12
5
5
7
8
6
8
9
4
3
4
3
4
3
10
7
11
6
2
2
2
4-bolt
8-bolt
12-bolt
Figure 2-2. Flange Bolt Torquing Sequence
IM-22-C
2-3
Chapter 2 Installation
Series 220/221 Instruction Manual
Wafer-Style Flow Meter Installation
Install the wafer-style meter between two conventional pipe flanges of the
same nominal size as the flow meter. If the process fluid is a liquid, make
sure the meter is located where the pipe is always full. This may require lo-
cating the meter at a low point in the piping system. Note: Vortex flow me-
ters are not suitable for two-phase flows (i.e., liquid and gas mixtures). For
horizontal pipelines having a process temperature above 300° F, mount the
meter at a 45 or 90-degree angle to avoid overheating the electronics enclo-
sure. To adjust the viewing angle of the enclosure or display/keypad, see
page 2-17.
Caution!
When using toxic or cor-
Figure 2-3. Wafer-Style Flow Meter Installation
rosive gases, purge the
line with inert gas for a
minimum of four hours
at full gas flow before
installing the flow meter.
When installing the meter make sure the section marked “inlet” is positioned up-
stream of the outlet, facing the flow. This ensures that the sensor head is posi-
tioned downstream of the vortex shedder bar and is correctly aligned to the flow.
Installing the meter opposite this direction will result in completely inaccurate
flow measurement. To install the meter:
1. Turn off the flow of process gas, liquid or steam. Verify that the line is
not pressurized. Confirm that the installation site meets the required
minimum upstream and downstream pipe diameters.
2. Insert the studs for the bottom side of the meter body between the pipe
flanges. Place the wafer-style meter body between the flanges with the end
stamped “inlet” facing flow. Center the meter body inside the diameter
with respect to the inside diameter of the adjoining piping.
3. Position the gasket material between the mating surfaces. Make sure both
gaskets are smooth and even with no gasket material extending into the
flow profile. Obstructions in the pipeline will disturb the flow and cause
inaccurate measurements.
4. Place the remaining studs between the pipe flanges. Tighten the nuts in the
sequence shown in Figure 2-2. Check for leaks after tightening the flange
bolts.
2-4
IM-22-C
Series 220/221 Instruction Manual
Chapter 2 Installation
Flange-Style Flow Meter Installation
Install the flange-style meter between two conventional pipe flanges of the
same nominal size as the flow meter. If the process fluid is a liquid, make
sure the meter is located where the pipe is always full. This may require lo-
cating the meter at a low point in the piping system. Note: Vortex flow me-
ters are not suitable for two-phase flows (i.e., liquid and gas mixtures). For
horizontal pipelines having a process temperature above 300° F, mount the
meter at a 45 or 90-degree angle to avoid overheating the electronics enclo-
sure. To adjust the viewing angle of the enclosure or display/keypad, see
page 2-17.
Figure 2-4. Flange-Style Flow Meter Installation
When installing the meter make sure the flange marked “inlet” is positioned up-
stream of the outlet flange, facing the flow. This ensures that the sensor head is
positioned downstream of the vortex shedder bar and is correctly aligned to the
flow. Installing the meter opposite this direction will result in completely inaccu-
rate flow measurement. To install the meter:
Caution!
When using toxic or cor-
rosive gases, purge the
line with inert gas for a
minimum of four hours
at full gas flow before
installing the flow meter.
1. Turn off the flow of process gas, liquid or steam. Verify that the line is
not pressurized. Confirm that the installation site meets the required
minimum upstream and downstream pipe diameters.
2. Seat the meter level and square on the mating connections with the flange
marked “inlet” facing the flow. Position a gasket in place for each side. Make
sure both gaskets are smooth and even with no gasket material extending into
the flow profile. Obstructions in the pipeline will disturb the flow and cause
inaccurate measurements.
3. Install bolts in both process connections. Tighten the nuts in the sequence
shown in Figure 2-2. Check for leaks after tightening the flange bolts.
IM-22-C
2-5
Chapter 2 Installation
Series 220/221 Instruction Manual
Series 221 Insertion Flow Meter Installation
Prepare the pipeline for installation using either a cold tap or hot tap method
described on the following pages. Refer to a standard code for all pipe tap-
ping operations. The following tapping instructions are general in nature and
intended for guideline purposes only. Before installing the meter, review the
mounting position and isolation value requirements given below.
Mounting Position
Allow clearance between the electronics enclosure top and any other obstruc-
tion when the meter is fully retracted.
Isolation Valve Selection
An isolation valve is available as an option with Series 221 meters. If you
supply the isolation valve, it must meet the following requirements:
1. A minimum valve bore diameter
1.875-inch min.
of 1.875 inches is required, and
valve bore
the valve’s body size should be
2-inch min.
two inches. Normally, gate
valves are used.
2-inch
valve size
2. Verify that the valve’s body and
flange rating are within the flow
meter’s maximum operating
pressure and temperature.
Isolation Valve Requirements
3. Choose an isolation valve with
at least two inches existing between the flange face and the gate portion
of the valve. This ensures that the flow meter’s sensor head will not in-
terfere with the operation of the isolation valve.
2-6
IM-22-C
Series 220/221 Instruction Manual
Chapter 2 Installation
Cold Tap Guidelines
Refer to a standard code for all pipe tapping operations. The following tap-
ping instructions are general in nature and intended for guideline purposes
only.
Caution!
When using toxic or
corrosive gases, purge
the line with inert gas
for a minimum of four
hours at full gas flow
before installing the
flow meter.
1. Turn off the flow of process gas, liquid or steam. Verify that the line is
not pressurized.
2. Confirm that the installation site meets the minimum upstream and
downstream pipe diameter requirements. See Figure 2-1.
3. Use a cutting torch or sharp cutting tool to tap into the pipe. The pipe
opening must be at least 1.875 inches in diameter. (Do not attempt to in-
sert the sensor probe through a smaller hole.)
4. Remove all burrs from the tap. Rough edges may cause flow profile dis-
tortions that could affect flow meter accuracy. Also, obstructions could
damage the sensor assembly when inserting into the pipe.
5. After cutting, measure the thickness of the cut-out and record this num-
ber for calculating the insertion depth.
6. Weld the flow meter pipe connec-
tion on the pipe. Make sure this
connection is within ± 5° perpen-
dicular to the pipe centerline.
Warning!
All flow meter connec-
tions, isolation valves and
fittings for cold tapping
must have the same or
higher pressure rating as
the main pipeline.
7. Install the isolation valve (if
used).
8. When welding is complete and all fittings are installed, close the isola-
tion valve or cap the line. Run a static pressure check on the welds. If
pressure loss or leaks are detected, repair the joint and re-test.
9. Connect the meter to the pipe process connection.
10. Calculate the sensor probe insertion depth as described on the following
pages. Insert the sensor probe into the pipe.
IM-22-C
2-7
Chapter 2 Installation
Series 220/221 Instruction Manual
Hot Tap Guidelines
Refer to a standard code for all pipe tapping operations. The following tap-
ping instructions are general in nature and intended for guideline purposes
only.
Warning!
Hot tapping must be
performed by a trained
professional. US. regula-
tions often require a hot
tap permit. The manufac-
turer of the hot tap
equipment and/or the
contractor performing the
hot tap is responsible for
providing proof of such a
permit.
1. Confirm that the installation site meets the minimum upstream and
downstream pipe diameter requirements.
2. Weld a two inch mounting adapter on the pipe. Make sure the mounting
adapter is within ± 5° perpendicular to the pipe centerline (see previous
page). The pipe opening must be at least 1.875 inches in diameter.
3. Connect a two inch process connection on the mounting adapter.
4. Connect an isolation valve on the process connection. The valve’s full
open bore must be at least 1.875 inches in diameter.
Warning!
All flow meter connec-
tions, isolation valves and
fittings for hot tapping
must have the same or
higher pressure rating as
the main pipeline.
5. Hot tap the pipe.
6. Close the isolation valve. Run a static pressure check on the welds. If
pressure loss or leaks are detected, repair the joint and re-test.
7. Connect the flow meter to the isolation valve.
8. Calculate the sensor probe insertion depth as described on the following
pages. Insert the sensor probe assembly into the pipe.
Check upstream and
downstream piping
requirements
Weld mounting
adapter
Connect process
connection
(flange or NPT)
Connect
isolation valve
Hot tap pipe
Test for leaks,
purge pipe
FLOW
Connect meter to
valve, calculate
insertion depth,
install flow meter
Figure 2-5. Hot Tap Sequence
2-8
IM-22-C
Series 220/221 Instruction Manual
Chapter 2 Installation
Flow Meter Insertion
The sensor head must be properly positioned in the pipe. For this reason, it is
important that insertion length calculations are carefully followed. A sensor
probe inserted at the wrong depth in the pipe will result in inaccurate readings.
Insertion flow meters are applicable to pipes 2 inch and larger. For pipe sizes
ten inches and smaller, the centerline of the meter’s sensing head is located at
the pipe’s centerline. For pipe sizes larger than ten inches, the centerline of the
sensing head is located in the pipe’s cross section five inches from the inner
wall of the pipe; i.e., its “wetted” depth from the wall to the centerline of the
sensing head is five inches.
Insertion flow meters are available in three probe lengths:
Standard Probe configuration is used with most flow meter process connec-
tions. The length, S, of the stem is 29.47 inches.
Compact Probe configuration is used with compression fitting process con-
nections. The length, S, of the stem is 13.1 inches.
12-Inch Extended Probe configuration is used with exceptionally lengthy flow
meter process connections. The length, S, of the stem is 41.47 inches.
Use the Correct Insertion Formula
Depending on your flow meter’s process connection, use the applicable in-
sertion length formula and installation procedure as follows:
Warning!
An insertion tool must be
used for any installation
where a flow meter is
inserted under pressure
greater than 50 psig.
•
•
Flow meters with a compression type connection (NPT or flanged) fol-
low the instructions beginning on page 2-10.
Flow meters with a packing gland type connection (NPT or flanged) con-
figured with an insertion tool, follow the instructions beginning on page
2-12.
•
Flow meters with a packing gland type connection (NPT or flanged)
without an insertion tool, follow the instructions beginning on page 2-
15.
IM-22-C
2-9
Chapter 2 Installation
Series 220/221 Instruction Manual
Installing Flow Meters with a Compression Connection*
Use the following formula to determine insertion length for flow meters
(NPT and flanged) with a compression process connection. The installation
procedure is given on the next page.
Insertion Length Formula
I = S – F – R – t
Where:
I = Insertion length.
S = Stem length – the distance from the center of the sensor head to the base of the
enclosure adapter (S = 29.47 inches for standard probes; S = 13.1 inches for
compact; S = 41.47 inches for 12-inch extended).
F = Distance from the raised face of the flange or top of NPT stem housing to the
outside of the pipe wall.
R = Pipe inside diameter ÷ 2 for pipes ten inches and smaller.
R = Five inches for pipe diameters larger than ten inches.
t = Thickness of the pipe wall. (Measure the disk cut-out from the tapping proce-
dure or check a piping handbook for thickness.)
Figure 2-6. Insertion Calculation (Compression Type)
Example:
To install a Series 221 meter with a standard probe (S = 29.47 inches) into a 14
inch schedule 40 pipe, the following measurements are taken:
F
R
t
= 3 inches
= 5 inches
= 0.438 inches
The insertion length for this example is 21.03 inches. Insert the stem through the fit-
ting until an insertion length of 21.03 inches is measured with a ruler.
*All dimensions are in inches
2-10
IM-22-C
Series 220/221 Instruction Manual
Chapter 2 Installation
Insertion Procedure for Meters with a Compression Connection
Figure 2-7. Flow Meter with Compression Type Fitting
1. Calculate the required sensor probe insertion length.
2. Fully retract the stem until the sensor head is touching the bottom of the
stem housing. Slightly tighten the compression nut to prevent slippage.
Caution!
The sensor alignment
pointer must point
downstream, in the
direction of flow.
3. Bolt or screw the flow meter assembly into the process connection. Use
Teflon tape or pipe sealant to improve the seal and prevent seizing on NPT
styles.
4. Hold the meter securely while loosening the compression fitting. Insert
the sensor into the pipe until the calculated insertion length, I, is meas-
ured between the base of the enclosure adapter and the top of the stem
housing, or to the raised face of the flanged version. Do not force the
stem into the pipe.
Warning!
To avoid serious injury,
DO NOT loosen the
compression fitting
under pressure.
5. Align the sensor head using the sensor alignment pointer. Adjust the
alignment pointer parallel to the pipe and pointing downstream.
6. Tighten the compression fitting to lock the stem in position. When the
compression fitting is tightened, the position is permanent.
IM-22-C
2-11
Chapter 2 Installation
Series 220/221 Instruction Manual
Installing Flow Meters with a Packing Gland Connection*
Use the formula below to determine the insertion depth for flow meters (NPT
and flanged) equipped with an insertion tool. To install, see the next page for
instructions for meters with a permanent insertion tool. For meters with a re-
movable insertion tool, see page 2-14.
Insertion Length Formula
I = F + R + t – 1.35
Where:
I = Insertion length.
F = Distance from the raised face of the flange or top of the
process connection for NPT style meters to the top out-
side of the process pipe.
R = Pipe inside diameter ÷ 2 for pipes ten inches & smaller.
R = Five inches for pipe diameters larger than ten inches.
t = Thickness of the pipe wall. (Measure the disk cut-out
from the tapping procedure or check a piping handbook
for thickness.)
Figure 2-8. Insertion Calculation (Meters with Insertion Tool)
Example 1: Flange Style Meters:
To install a Series 221 Flow Meter into a 14 inch schedule 40 pipe, the fol-
lowing measurements are taken:
F
R
t
=
=
=
12 inches
5 inches
0.438 inches
The example insertion length is 16.09 inches.
Example 2: NPT Style Meters:
The length of thread engagement on the NPT style meters is also subtracted
in the equation. The length of the threaded portion of the NPT meter is 1.18
inches. Measure the thread portion still showing after the installation and
subtract that amount from 1.18 inches. This gives you the thread engagement
length. If this cannot be measured use .55 inch for this amount.
F
R
t
=
=
=
12 inches
5 inches
0.438 inches
The example insertion length is 15.54 inches.
*All dimensions are in inches.
2-12
IM-22-C
Series 220/221 Instruction Manual
Chapter 2 Installation
Insertion Procedure for Flow Meters with Permanent Insertion Tool
Figure 2-9. Flow Meter with Permanent Insertion Tool
1. Calculate the required sensor probe insertion length (see previous page).
Measure from the depth marker arrow down the stanchion and scribe a
mark at the calculated insertion depth.
2. Fully retract the flow meter until the sensor head is touching the bottom
of the stem housing. Attach the meter assembly to the two inch full-port
isolation valve, if used. Use Teflon tape or pipe sealant to improve seal
and prevent seizing on NPT style.
3. Loosen the two packing gland nuts on the stem housing of the meter.
Loosen the stem lock bolt adjacent to the sensor alignment pointer. Align
the sensor head using the sensor alignment pointer. Adjust the alignment
pointer parallel to the pipe and pointing downstream. Tighten the stem lock
bolt to secure the sensor position.
Caution!
The sensor alignment
pointer must point
downstream, in the
direction of flow.
4. Slowly open the isolation valve to the full open position. If necessary,
slightly tighten the two packing gland nuts to reduce the leakage around
the stem.
Note
If line pressure is above
500 psig, it could require
up to 25 ft lb of torque to
insert the flow meter.
Do not confuse this with
possible interference
in the pipe.
5. Turn the insertion tool handle clockwise to insert the sensor head into the
pipe. Continue until the top of the upper retractor bracket aligns with the
insertion length position scribed on the stanchion. Do not force the stem
into the pipe.
6. Tighten the packing gland nuts to stop leakage around the stem. Do not
torque over 20 ft-lb.
IM-22-C
2-13
Chapter 2 Installation
Series 220/221 Instruction Manual
Insertion Procedure for Flow Meters with Removable Insertion Tool
Figure 2-10. Flow Meter with Removable Insertion Tool
1. Calculate the required sensor probe insertion length. Measure from the
depth marker arrow down the stanchion and scribe a mark at the calcu-
lated insertion depth.
2. Fully retract the flow meter until the sensor head is touching the bottom
of the stem housing. Attach the meter assembly to the two inch full-port
isolation valve, if used. Use Teflon tape or pipe sealant to improve seal
and prevent seizing on NPT style.
Caution!
The sensor alignment
pointer must point
downstream, in the
direction of flow.
3. Remove the two top stem clamp nuts and loosen two stem clamp bolts.
Slide the stem clamp away to expose the packing gland nuts.
4. Loosen the two packing gland nuts. Loosen the stem lock bolt adjacent to
the sensor alignment pointer. Align the sensor head using the sensor
alignment pointer. Adjust the alignment pointer parallel to the pipe and
pointing downstream. Tighten the stem lock bolt to secure the sensor po-
sition.
Note
If line pressure is above
500 psig, it could require
up to 25 ft lb of torque to
insert the flow meter.
Do not confuse this with
possible interference
in the pipe.
5. Slowly open the isolation valve to the full open position. If necessary,
slightly tighten the two packing gland nuts to reduce the leakage around
the stem.
6. Turn the insertion tool handle clockwise to insert the stem into the pipe.
Continue until the top of the upper retractor bracket lines up with the in-
sertion length mark scribed on the stanchion. Do not force the stem into
the pipe.
2-14
IM-22-C
Series 220/221 Instruction Manual
Chapter 2 Installation
7. Tighten the packing gland nuts to stop leakage around the stem. Do not
torque over 20 ft-lbs.
8. Slide the stem clamp back into position. Torque stem clamp bolts to 15
ft-lbs. Replace the stem clamp nuts and torque to 10-15 ft-lbs.
9. Attach the safety chain from the stem clamp to the hook on the enclosure
adapter at the nearest link. To separate the insertion tool from the flow
meter, remove four socket head cap bolts securing the upper and lower re-
tractor brackets. Remove the insertion tool.
Installation of Meters with Packing Gland Connection (No Insertion Tool)*
Use the following formula to determine insertion depth for meters with a
packing gland connection (NPT and flanged) without an insertion tool.
Insertion Length Formula
I = S – F – R – t
Where:
I = Insertion length.
S = Stem length – the distance from the center
of the sensor head to the base of the enclo-
sure adapter (S = 29.47 inches for standard
probes; S = 41.47 inches for 12 inch ex-
tended probes).
F = Distance from the raised face of the flange
or top of NPT stem housing to the outside
of the pipe wall.
R = Pipe inside diameter ÷ 2 for pipes ten
inches & smaller.
R = Five inches for pipe diameters larger than
ten inches.
t = Thickness of the pipe wall. (Measure the
disk cut-out from the tapping procedure or
check a piping handbook for thickness.)
Figure 2-11. Insertion Calculation (Meters without Insertion Tool)
Example:
To install a Series 221 Flow Meter with a standard probe (S = 29.47) into a
14 inch schedule 40 pipe, the following measurements are taken:
F
R
t
= 3 inches
= 5 inches
= 0.438 inches
The example insertion length is 21.03 inches.
*All dimensions are in inches.
IM-22-C
2-15
Chapter 2 Installation
Series 220/221 Instruction Manual
Insertion Procedure for Flow Meters with No Insertion Tool
(Packing Gland Connection)
1. Calculate the required sensor probe insertion length.
2. Fully retract the stem until the sensor head is touching the bottom of the
stem housing. Remove the two top stem clamp nuts and loosen two stem
clamp bolts. Slide the stem clamp away to expose the packing gland nuts.
Loosen the two packing gland nuts.
Warning!
The line must be
less than 50 psig
for installation.
3. Align the sensor head using the sensor alignment pointer. Adjust the
alignment pointer parallel to the pipe and pointing downstream.
Caution!
The sensor alignment
pointer must point
downstream, in the
direction of flow.
4. Insert the sensor head into the pipe until insertion length, I, is achieved.
Do not force the stem into the pipe.
5. Tighten the packing gland nuts to stop leakage around the stem. Do not
torque over 20 ft-lbs.
6. Slide the stem clamp back into position. Torque stem clamp bolts to 15
ft-lbs. Replace the stem clamp nuts and torque to 10-15 ft-lbs.
2-16
IM-22-C
Series 220/221 Instruction Manual
Chapter 2 Installation
Adjusting Meter Orientation
Depending on installation requirements, you may need to adjust the meter
orientation. There are two adjustments available. The first rotates the position
of the LCD display/keypad and is available on both in-line and insertion me-
ters. The second is to rotate the enclosure position. This adjustment is only
allowed on Series 220 In-Line meters.
Display/Keypad Adjustment (All Meters)
Figure 2-12. Display/Keypad Viewing Adjustment
The electronics boards are electrostatically sensitive. Wear a grounding wrist
strap and make sure to observe proper handling precautions required for
static-sensitive components. To adjust the display:
1. Disconnect power to the flow meter.
2. Loosen the small set screw which secures the electronics enclosure. Un-
screw and remove the cover.
3. Loosen the 4 captive screws.
4. Carefully pull the display/microprocessor board away from the meter
standoffs. Make sure not to damage the connected ribbon cable.
5. Rotate the display/microprocessor board to the desired position. Maxi-
mum turn, two positions left or two positions right (180-degrees).
6. Align the board with the captive screws. Check that the ribbon cable is
folded neatly behind the board with no twists or crimps.
7. Tighten the screws. Replace the cover and set screw. Restore power to
the meter.
IM-22-C
2-17
Chapter 2 Installation
Series 220/221 Instruction Manual
Enclosure Adjustment (Series 220 Only)
Figure 2-13. Enclosure Viewing Adjustment
To avoid damage to the sensor wires, do not rotate the enclosure beyond 180-
degrees from the original position. To adjust the enclosure:
1. Remove power to the flow meter.
2. Loosen the three set screws shown above. Rotate the display to the de-
sired position (maximum 180-degrees).
3. Tighten the three set screws. Restore power to the meter.
2-18
IM-22-C
Series 220/221 Instruction Manual
Chapter 2 Installation
Wiring Connections
The NEMA 4X enclosure contains an integral wiring compartment with one
dual strip terminal block (located in the smaller end of the enclosure). Two
3/4-inch female NPT conduit entries are available for separate power and
signal wiring. For all hazardous area installations, make sure to use an
agency-approved fitting at each conduit entry. If conduit seals are used, they
must be installed within 18 inches (457 mm) of the enclosure.
Warning!
To avoid potential electric
shock, follow National Electric
Code safety practices or your
local code when wiring this
unit to a power source and to
peripheral devices. Failure to
do so could result in injury or
death. All wiring procedures
must be performed with the
power off.
Input Power Connections
To access the wiring terminal blocks, locate and loosen the small set screw
which locks the small enclosure cover in place. Unscrew the cover to expose
the terminal block.
DC Power Wiring
Connect 4-20 mA loop power (12 to 36 VDC) to the +Pwr and –Pwr termi-
nals on the terminal block. Torque all connections to 4.43 to 5.31 in-lbs (0.5
to 0.6 Nm). The DC power wire size must be 20 to 10 AWG with the wire
stripped 1/2 inch (14 mm). The nominal voltage required to operate the 4-20
mA loop is 12 volts at the meter. The 4-20 mA loop is optically isolated from
the flow meter electronics.
Figure 2-14. DC Power Connections
IM-22-C
2-19
Chapter 2 Installation
Series 220/221 Instruction Manual
4-20 mA Output Connections
The Innova-Flo meter has a single 4-20 mA loop. The 4-20 mA loop current
is controlled by the meter electronics. The electronics must be wired in series
with the sense resistor or current meter. The current control electronics re-
quire 12 volts at the input terminals to operate correctly.
The maximum loop resistance (load) for the current loop output is depend-
ent upon the supply voltage and is given in Figure 2-16. The 4-20 mA loop
is optically isolated from the flow meter electronics.
Rload is the total resistance in the loop, including the wiring resistance (Rload
Rwire + Rsense ). To calculate Rmax, the maximum Rload for the loop, use the
maximum loop current, 20 mA. The voltage drop in the loop due to resis-
=
tance is 20 mA times Rload and this drop is subtracted from the input voltage.
Thus:
The maximum resistance Rload = Rmax = 50 (Vsupply – 12V).
*
Figure 2-15. Load Resistance Versus Input Voltage
2-20
IM-22-C
Series 220/221 Instruction Manual
Chapter 2 Installation
Pulse Output Connections
The pulse output is used for a remote counter. When the preset volume or
mass (defined in the totalizer settings, see page 3-6) has passed the meter, the
output provides a 50 millisecond square pulse.
The pulse output requires a separate 5 to 36 VDC power supply. The pulse
output optical relay is a normally-open single-pole relay. The relay has a
nominal 200 volt/160 ohm rating. This means that it has a nominal on-
resistance of 160 ohms, and the largest voltage that it can withstand across
the output terminals is 200 volts. However, there are current and power
specifications that must be observed. The relay can conduct a current up to
40 mA and can dissipate up to 320 mW. The relay output is isolated from the
meter electronics and power supply.
Figure 2-16. Isolated Pulse Output with External Power Supply
IM-22-C
2-21
Chapter 2 Installation
Series 220/221 Instruction Manual
Remote Electronics Wiring
The remote electronics enclosure should be mounted in a convenient, easy to
reach location. For hazardous location installations, make sure to observe
agency requirements for installation. Allow some slack in the interface cable
between the junction box and the remote electronics enclosure. To prevent
damage to the wiring connections, do not put stress on the terminations at
any time.
The meter is shipped with temporary strain relief glands at each end of the
cable. Disconnect the cable from the meter’s terminal block inside the junc-
tion box–not at the remote electronics enclosure. Remove both glands and in-
stall appropriate conduit entry glands and conduit. When installation is com-
plete, re-connect each labeled wire to the corresponding terminal position on
the junction box terminal block. Make sure to connect each wire pair’s
shield. Note: incorrect connection will cause the meter to malfunction.
Figure 2-17. Junction Box Sensor Connections
Note: Numeric code in junction box label matches wire labels.
2-22
IM-22-C
Series 220/221 Instruction Manual
Chapter 3 Operation
Chapter 3 Operating Instructions
After installing the Innova-Flo Vortex Meter, you are ready to begin op-
eration. The sections in this chapter explain the display/keypad com-
mands, meter start-up and programming. The meter is ready to operate at
start up without any special programming. To enter parameters and sys-
tem settings unique to your operation, see the following pages for in-
structions on using the setup menus.
Flow Meter Display/Keypad
The flow meter’s digital electronics allow you to set, adjust and monitor
system parameters and performance. A full range of commands are avail-
able through the display/keypad. The LCD display gives 2 x 16 characters
for flow monitoring and programming. The six push buttons are operable
either directly on the display panel or with a hand-held magnet through
the explosion-proof enclosure.
From the Run Mode, theENTER key allows
access to the Setup Menus (through a
password screen). Within the Setup Menus,
pressing ENTER activates the current field.
To set new parameters, press the ENTER key
until an underline cursor appears. Use the
×ØÕÖ keys to select new parameters.
Press ENTER to continue. (If change is not
alllowed, ENTER has no effect.) All outputs
are disabled when using the Setup Menus.
Display/Keypad
Commands
×
EXIT
ENTER
INNOVA FLO™
SIERRA
INSTRUMENTS
The EXIT key is active within the Setup Menus.
When using a Setup Menu,EXIT returns you to the
Run Mode. If you are changing a parameter and
make a mistake, EXIT allows you to start over.
Õ
Ö
Ø
The ×ØÕÖ keys advance through each screen
of the current menu. When changing a system
parameter, all ×ØÕÖ keys are available to enter
new parameters.
Figure 3-1. Flow Meter Display/Keypad
IM-22-C
3-1
Chapter 3 Operation
Series 220/221 Instruction Manual
Start-Up
To begin flow meter operation:
1. Verify the flow meter is installed and wired as described in Chapter
2.
Note
Starting the flow meter
or pressing EXIT will
always display the Run
Mode screens.
2. Apply power to the meter. At start up, the unit runs a series of self-
tests that check the program configuration and all flow sensing com-
ponents. After completing the self-test sequence, the Run Mode
screens appear.
3. The Run Mode displays flow information as determined by settings en-
tered in the Display Menu (page 3-5). Press the ×Ø arrow keys to
view the Run Mode screens.
Press the ENTER key from any Run Mode screen to access the Setup
Menus. Use the Setup Menus to configure the meter’s multi-parameter
features to fit your application.
Run Mode
Screens
ENTER
Volume
Flow Rate
Password
ENTER
Mass Flow
Rate
Setup
Menus
Press EXIT to return
to Run Mode
Total
Use
keys to access
each item
To operate the six push buttons through the
display enclosure, use the hand held magnet
as shown at right.
3-2
IM-22-C
Series 220/221 Instruction Manual
Chapter 3 Operation
Using the Setup Menus
Run Mode
Screens
ENTER
Volume
Password
ENTER
Flow Rate
Setup Menus
Mass Flow
Rate
Output
Menu
Display
Menu
Totalizer
Menu
Units
Diagnostics
Calibration
Menu
Password
Menu
Menu
Menu
Total
4-20 mA
Output 1
Cycle Time
(sec)
Volume
Flow Unit
Sim Vor
Freq
Meter Size
or Pipe ID
Set
Password
Totaling
Number of
Digits
Unit per
Pulse
Mass Flow
Unit
Highest
Velocity
Meter Factor
Display TC
(sec)
Process
Temp (F)
Reset Total
Display
VFlow?
Density
Ref Density
Viscosity
Display
MFlow?
Display
Total?
Vortek Coef
Ck
Low Flow
Cutoff
Serial
Number
Programming the Flow Meter
1. Enter the Setup Menu by pressing the ENTER key until prompted for a password. (All
outputs are disabled while using the Setup Menus.)
2. Use the ×ØÕÖ keys to select the password characters (1234 is the factory-set
password). When the password is correctly displayed, press ENTER to continue.
3. Use the Setup Menus described on the following pages to customize the multi-
parameter features of your Innova-Flo Vortex Meter. (The entire lower display line is
available for entering parameters.)
4. To activate a parameter, press ENTER. Use the ×ØÕÖ keys to make selections. Press
ENTER to continue. Press EXIT to save or discard changes and return to Run Mode.
IM-22-C
3-3
Chapter 3 Operation
Series 220/221 Instruction Manual
Output Menu
ENTER
Run Mode
Password
ENTER
Output
Menu
Use
keys to access menus
< Measure >
None
Volume
Mass
4-20mA Output 1
More >
< 4mA = xxxx >
xxxx
< 20mA = xxxx >
xxxx
< TimeConst(SEC)
xxxx
Example for Setting an Output
The following shows how to set Output 1 to measure volumetric flow with 4 mA = 0 gal/min and 20 mA = 100
gal/min with a time constant of 5 seconds. (All outputs are disabled while using the Setup Menus.)
First, set the desired units of measurement:
1. Use ÕÖ keys to move to the Units Menu (see page 3-8).
2. Press Ø key until Volume Flow Unit appears. Press ENTER.
3. Press Ø key until gal appears in the numerator. Press Ö key to move the underline cursor to the
denominator. Press the Ø key until min appears in the denominator. Press ENTER to select.
4. Press × key until Units Menu appears.
Second, set the analog output:
1. Use ÕÖ keys to move to the Output Menu.
2. Press the Ø key until 4-20mA Output 1 appears.
3. Press Ö key to access Measure selections. Press ENTER and press the Ø key to select Volume. Press ENTER.
4. Press Ö key to set the 4 mA point in the units you have selected for volume of gal/min. Press ENTER
and use ×ØÕÖ keys to set 0 or 0.0. Press ENTER.
5. Press Ö key to set the 20 mA point. Press ENTER and use ×ØÕÖ keys to set 100 or 100.0. Press ENTER.
6. Press Ö key to select the Time Constant. Press ENTER and use ×ØÕÖ keys to select 5. Press ENTER.
7. Press the EXIT key and answer YES to permanently save your changes.
3-4
IM-22-C
Series 220/221 Instruction Manual
Chapter 3 Operation
Display Menu
ENTER
Run Mode
Password
ENTER
Display
Menu
Use
keys to access menus
Cycle Time(Sec)
0
If Cycle Time is set to zero, manual advance is required
Number of Digits
2
Used to set the number of digits displayed after
decimal point
Display TC(sec)
1
TC = Display Time Constant, used to smooth display
Display VFlow?
YES or NO
For each parameter:
Select Yes to view parameter in Run Mode
Select No to hide parameter in Run Mode
Display MFlow?
YES or NO
Display Total?
YES or NO
Use the Display Menu to set the cycle time for automatic screen sequencing used in the Run Mode,
change the precision of displayed values, smooth the values or enable or disable each item displayed
in the Run Mode screens.
Example for Changing a Run Mode Display Item
The following shows how to remove the mass flow screen from the Run Mode screens. Note: all outputs are
disabled while using the Setup Menus.
1. Use ÕÖ keys to move to the Display Menu.
2. Press Ø key until Display MFlow? appears.
3. Press ENTER to select.
4. Press Ø key until N appears. Press ENTER to select.
5. Press EXIT and then ENTER to save changes and return to the Run Mode.
IM-22-C
3-5
Chapter 3 Operation
Series 220/221 Instruction Manual
Totalizer Menu
ENTER
Run Mode
Password
ENTER
Totalizer
Menu
Use
keys to access menus
Totaling
Inactive
Volume
Mass
Example:
Maximum flowrate = 600 gallons per minute
(600 gallons per minute = 10 gallons per second)
(unit)/Pulse
xxxx
If unit per pulse is set to 600 gallons per pulse,
the totalizer will pulse once every minute.
Reset Total?
YES or NO
If unit per pulse is set to 10 gallons per pulse,
the totalizer will pulse once every second.
Use the Totalizer Menu to configure and monitor the totalizer. The totalizer output is a 50
millisecond (.05 second) positive pulse (relay closed for 50 milliseconds). The totalizer
cannot operate faster than one pulse every 100 millisecond (.1 second). A good rule to follow
is to set the unit per pulse value equal to the maximum flow in the same units per second.
This will limit the pulse to no faster than one pulse every second.
Example for Setting the Totalizer
The following shows how to set the totalizer to track volumetric total gallons. (All outputs are disabled
while using the Setup Menus.)
First, set the desired units of measurement:
1. Use ÕÖ keys to move to the Units Menu (see to page 3-8).
2. Press Ø key until Volume Flow Unit appears. Press ENTER.
3. Press Ø key until gal appears in the numerator. Press Ö key to move the underline cursor to the
denominator. Press the Ø key until min appears in the denominator. Press ENTER to select.
4. Press × key until Units Menu appears.
Second, set the pulse output:
1. Use ÕÖ keys to move to the Totalizer Menu.
2. Press the Ø key until Totaling appears.
3. Press ENTER and press the Ø key to select Volume. Press ENTER.
4. Press Ø key to set the gallons per pulse. Press ENTER and use ×ØÕÖ keys to set the pulse
value equal to the maximum flow in the same units per second. This will limit the frequency to
1 Hz. Press ENTER.
5. To reset the totalizer, press Ø key until Reset Total? appears. Press ENTER and the Ø key to reset
the totalizer if desired. Press ENTER.
6. Press the EXIT key and answer YES to permanently save your changes.
3-6
IM-22-C
Series 220/221 Instruction Manual
Chapter 3 Operation
Units Menu
ENTER
Run Mode
Password
ENTER
Units
Use
Menu
keys to access menus
Volume Flow Unit
gal
sec
bbl
min
c
m^3 /
bbl = barrels = 42 US gallon
hr
day
lit
m^3
ft^3
Mass Flow Unit
lb
ton
ton = 2000 lb
sec
min
hr
mton = Metric Ton = 1000 kg
sm^3 = standard cubic meters
scf = standard cubic feet
nm^3 = normal cubic meters
gram
kg
mton
sm^3
scf
/
day
nm^3
Use the Units Menu to configure the flow meter with the desired units of measurement.
(These are global settings and determine what appears on all screens.)
IM-22-C
3-7
Chapter 3 Operation
Series 220/221 Instruction Manual
Diagnostics Menu
ENTER
Run Mode
Password
ENTER
Diagnositcs
Menu
Use
keys to access menus
Sim Vor Freq
xxx
Simulate Vortex
Frequency (Hz)
Highest Velocity
xxx
Highest Recorded
Velocity (ft/sec)
Use the Diagnostics Menu to simulate flow and review the highest recorded veloc-
ity in ft/sec.
The simulated vortex frequency is used for testing the meter to verify that the
programming is correct. Enter any value for the sensor input in Hz. The meter
will calculate a flow rate based on the corresponding value and update the analog
output (the totalizer display and output is not affected by a simulated fre-
quency). Note: when your diagnostic work is complete, make sure to return the
simulated frequency to zero to allow the electronics to use the actual value.
3-8
IM-22-C
Series 220/221 Instruction Manual
Chapter 3 Operation
Calibration Menu
ENTER
Run Mode
Password
ENTER
Calibration
Menu
Use
keys to access menus
Meter Size
or Pipe ID
Series 220 - meter size
Series 221 - pipe internal diameter (inches)
Meter calibration constant
Series 220 - pulses/ft3
Series 221 - pulses/ft
Meter Factor
xxxx
Process Temp(F)
xxx
Used to correct Meter Factor for thermal
expansion of meter body for Series 220
Density
xxx
Units are lb/ft3
Units are lb/ft3. Used for calculation of
standard cubic meters, standard cubic feet,
and normal cubic meters.
Ref Density
xxx
Viscosity
xxx
Units are centipoise (Cp)
Adaptive filter setting
Vortex Coef Ck
xx
Low Flow Cutoff
xx
Low signal threshold for vortex signal,
dimensionless (A to D counts / gain)
Serial Number
xxxxxxxxx
The Calibration Menu contains the calibration coefficients for the flow meter. These
values should by changed only by properly trained personnel. The Vortex Coef Ck and
Low Flow Cutoff are set at the factory. Consult the factory for help with these settings if
the meter is showing erratic flow rate. The units of measurement used in the Calibration
Menu are preset and are as follows: Density = lbm/ft3, Reference Density = lbm/ft3,
Viscosity = centipoise.
IM-22-C
3-9
Chapter 3 Operation
Series 220/221 Instruction Manual
Password Menu
ENTER
Run Mode
Password
ENTER
Password
Menu
Use
keys to access menus
Set Password
1234
Use the Password Menu to set or change the system password.
The factory-set password is 1234.
3-10
IM-22-C
Series 220/221 Instruction Manual
Chapter 4 Troubleshooting & Repair
Chapter 4 Troubleshooting and Repair
f
G
fi
A
4-20, Zero
xxxx
Vper
Vcyc
4-20, FScale
xxxx
P
V
Re
Vor Freq
Direct?
Tot
wt
Disable
Recorct
it
Kc
Kb
It
b
Gain Control
Filter Control
*
*
Not Present on
220 models
Pre-Filt
Water?
Total in
EEprom
Config Code
Factory
Defaults
Test Pulse
Out
Hidden Diagnostics Menus
The menus shown above can be accessed using the password 16363, then moving
to the display that reads “Diagnostics Menu” and pressing ENTER (rather than
one of the arrow keys).
Warning!
Before attempting any flow
meter repair, verify that the
line is not pressurized.
Always remove main power
before disassembling any
part of the flow meter.
Use the right arrow key to move to the second column. Press EXIT to move
from the second column back to the first, press EXIT while in the first column to
return to the setup menus.
Caution: password 16363 will allow full access to the configuration and should
be used carefully to avoid changes that can adversely alter the function of the me-
ter.
Each of the menus above will first be defined followed by specific troubleshoot-
ing steps.
IM-22-C
4-1
Chapter 4 Troubleshooting & Repair
Series 220/221 Instruction Manual
Column One Hidden Diagnostics Values
•
•
f = vortex shedding frequency (Hz).
fi = adaptive filter – should be approximately 25% higher than
the vortex shedding frequency, this is a low-pass filter.
•
•
G = gain (applied to vortex signal amplitude). Gain changes
from 333.3 (at a weak signal) to 100.0, then 33.3, then 10.0,
then 3.3, then 1.0 as the flow rate increases.
A = A to D counts (vortex signal amplitude). This value
ranges from about 200 to 4000. It also increases as the flow
rate increases, but will shift when the gain steps to a different
level.
•
•
•
•
•
•
Vper = vortex period (for factory use only).
Vcyc = vortex cycle (for factory use only).
V = calculated average pipe velocity (ft/sec).
Re = calculated Reynolds number.
Tot = totalizer value in the same units as the display.
wt = totalizer fraction, in lb. Counts up until the next round
number is reached in terms of the displayed units, then the to-
talizer increments, and the wt value starts again at zero.
•
it = totalizer iteration. Counts the total, in lb, and rolls over to
zero at 1000 lb.
•
•
•
•
Kc = profile equation (factory use only). Series 221 only.
It = profile equation (factory use only). Series 221 only.
Kb = profile equation (factory use only). Series 221 only.
b = profile equation (factory use only). Series 221 only.
Column Two Hidden Diagnostics Values
•
•
4-20, Zero = Analog counts to calibrate zero on analog output.
4-20, FScale = Analog counts to calibrate full scale on analog out-
put.
•
•
•
•
Vor Freq Direct? = Frequency output setting, used by factory dur-
ing calibration. Set to NO if totalizer is used.
Disable ReCorct = Disable Reynolds number correction. Set to
YES for series 220 in-line and set to NO for series 221 insertion.
Gain Control = Manual gain control (factory use only). Leave set at
255 to activate automatic gain control.
Filter control = Manual filter control. This value can be changed to
any number to force the fi value to a constant. A value of zero acti-
vates the automatic filter control which sets fi at a level that floats
above the f value.
4-2
IM-22-C
Series 220/221 Instruction Manual
Chapter 4 Troubleshooting & Repair
•
Pre-Filt Water? = Pre-filter for liquid applications. YES for all liq-
uid applications and NO for all gas or steam applications. Always
set to NO for ½” and ¾” meters due to the high vortex shedding fre-
quency.
•
Total in EEprom = totalizer value in the same units as the dis-
play.
•
•
Config Code = Configuration Code (unused).
Factory Defaults = Reset to factory defaults. If you change this to
YES and press ENTER, all factory configuration is lost and you
must reconfigure the entire program. Consult the factory before per-
forming this process, it is required only in very rare cases.
•
Test Pulse Out = Force totalizer pulse. Set to YES and press
ENTER to send one pulse. Very useful to test totalizer counting
equipment.
Analog Output Calibration
To check the 4–20 mA circuit, connect a DVM in series with the output
loop. Select zero or full scale (from the second column of the hidden di-
agnostics) and then actuate the enter key twice. This action will cause the
meter to output its 4 mA or 20 mA condition. If the DVM indicates a
current greater than ± 0.006 mA from 4 or 20, adjust the setting up or
down until the output is calibrated. Note: these settings are not for adjust-
ing the output zero and span to match a flow range, that function is lo-
cated in the Output Menu.
Troubleshooting the Flow Meter
Symptom: Output at no Flow
1. The low flow cutoff is set too low. At no flow, go to the first column
of the hidden diagnostics menu and record the G and A values.
Calculate the value of A/G. The low flow cutoff must be set above
this value.
Example: at no flow, G = 100 and A = 2500. A/G = 25. Set the low
flow cutoff in the Calibration Menu to approximately 28 and the me-
ter will no longer read a flow rate at no flow.
Symptom: Erratic Output
1. The flow rate may be too low, just at the cutoff of the meter range,
and the flow cycles above and below the cutoff making an erratic
output. The meter range is stamped on the label on the outside of the
electronics enclosure cover (based on application conditions when
the meter was ordered). Consult the factory if necessary to confirm
the meter range based on current operating conditions. It may be
possible to lower the low flow cutoff to increase the meter range.
See the example above for output at no flow, only this time the low
flow cutoff is set too high. You can lower this value to increase the
meter range as long as you do not create the output at no flow condi-
tion previously described.
IM-22-C
4-3
Chapter 4 Troubleshooting & Repair
Series 220/221 Instruction Manual
2. Mechanical installation may be incorrect. Verify the straight run is
adequate as described in Chapter 2. For in-line meters, make sure
the meter is not installed backwards and there are no gaskets protrud-
ing into the flow stream. For insertion meters, verify the insertion
depth and flow direction.
3. The meter may be reacting to actual changes in the flow stream. The
output can be smoothed using a time constant. The displayed values
can be smoothed using the time constant in the Display Menu. The
analog outputs can be smoothed using the time constant in the Out-
put Menu. A time constant of 1 will result in the change in value
reaching 63% of its final value in one second. A time constant of 4
is 22%, 10 is 9.5% and 50 is 1.9% of the final value in one second.
The time constant equation is shown below (TC = Time Constant).
% change to final value
in one second
= 100 (1 – e(-1/TC)
)
4. The vortex coefficient Ck may be incorrectly set. The Ck is a value
in the equation used to determine if a frequency represents a valid
vortex signal given the fluid density and signal amplitude. In prac-
tice, the Ck value controls the adaptive filter, fi, setting. During
flow, view the f and fi values in the first column of the hidden diag-
nostics. The fi value should be approximately 10-20 % higher than
the f value. If you raise the Ck setting in the Calibration Menu, then
the fi value will increase. The fi is a low pass filter, so by increasing
it or lowering it, you can alter the range of frequencies that the meter
will accept. If the vortex signal is strong, the fi value will increase to
a large number – this is correct. Note: at high frequencies, the dis-
play may not be able to display all the digits of the fi value (for ex-
ample, 114 may be displayed and the actual value is 1140).
Symptom: No Output
1. For remote mounted electronics, carefully check all the wiring con-
nections in the remote mount junction box. There are 6 connections
that must be correct, verify each color (black and red), shield, and
wire number.
2. Check the density value in the Calibration Menu to see if it is correct
for the current operating conditions.
3. Using ESD precautions and hazardous area precautions, remove the
electronics enclosure window cover. Disconnect the vortex sensor
from the analog board (the analog board is the first board below the
microprocessor (display) board. Measure the resistance from each
outside pin to the meter ground - each should be open. Measure the
resistance from the center pin to the meter ground – this should be
grounded to the meter. With the sensor still disconnected, go the
first column of the hidden diagnostics and display the vortex shed-
ding frequency, f. Hold a finger on the three exposed pins on the
4-4
IM-22-C
Series 220/221 Instruction Manual
Chapter 4 Troubleshooting & Repair
analog board. The meter should read electrical noise, 60 Hz for ex-
ample. If all readings are correct, re-install vortex sensor wires.
4. Verify all meter configuration and troubleshooting steps previously
described. There are many possible causes of this problem, consult
factory if necessary.
Electronics Assembly Replacement (All Meters)
The electronics boards are electrostatically sensitive. Wear a grounding
wrist strap and make sure to observe proper handling precautions re-
quired for static-sensitive components.
1. Turn off power to the unit.
2. Locate and loosen the small set screw which locks the larger enclo-
sure cover in place. Unscrew the cover to expose the electronics
stack.
Warning!
Before attempting any flow
meter repair, verify that the
line is not pressurized.
Always remove main power
before disassembling any
part of the mass flow meter.
3. Locate the sensor connector that comes up from the neck of the flow
meter and attaches to the circuit board. Use small pliers to pull the
connector off of the circuit board.
4. Locate and loosen the small set screw which locks the smaller enclo-
sure cover in place. Unscrew the cover to expose the field wiring
strip. Tag and remove the field wires.
5. Remove the screws that hold the black wiring label in place, remove
the label.
6. Locate the 4 Phillips head screws which are spaced at 90-degrees
around the terminal board. These screws hold the electronics stack in
the enclosure. Loosen these screws (Note: that these are captive
screws, they will stay inside the enclosure).
7. Carefully remove the electronics stack from the opposite side of the
enclosure. If the electronics stack will not come out, gently tap the
terminal strip with the screw driver handle. This will loosen the rub-
ber sealing gasket on the other side of the enclosure wall. Be careful
that the stack does not hang up on the loose sensor harnesses.
8. Repeat steps 1 through 6 in reverse order to install the new electron-
ics stack.
IM-22-C
4-5
Chapter 4 Troubleshooting & Repair
Series 220/221 Instruction Manual
Returning Equipment to the Factory
Before returning any Innova-Flo meter to the factory, you must re-
quest a Return Material Authorization (RMA) number. To obtain an
RMA number and the correct shipping address, contact Customer Ser-
vice at:
(800) 866-0200 or (831) 373-0200 in the USA,
or +31(0)20-6145810 in Europe.
When contacting Customer Service, be sure to have the meter serial
number and model code.
When requesting further troubleshooting guidance, record the following
values first:
f, fi, G, and A at no flow and during flow if possible.
Pressure, temperature, and flow rate
4-6
IM-22-C
Series 220/221 Instruction Manual
Appendix A Specifications
Appendix A Product Specifications
Accuracy
Process
220 Series In-Line Meters
221 Series Insertion Meters(1)
Variables
Liquids
Gas & Steam
Liquids
Gas & Steam
Volumetric
Flow Rate
±0.7% of rate
over a
±1% of rate
over a
±1.2% of
rate over a
30:1 range(2)
±1.5% of rate
over a
30:1 range(2)
30:1 range(2)
30:1 range(2)
Notes: (1) Accuracies stated are for the total volumetric flow through the
pipe.
(2) Nominal rangeability is stated. Precise rangeability depends on
fluid
and pipe size.
Repeatability
0.1% of rate.
Response Time
Material Compatibility
Adjustable from 1 to 100 seconds.
Series 220 In-Line Flow Meter:
Any gas, liquid or steam compatible with 316L stainless steel, C276
hastelloy or A105 carbon steel. Not recommended for multi-phase flu-
ids.
Series 221 Insertion Flow Meter:
Any gas, liquid or steam compatible with 316L stainless steel. Not
recommended for multi-phase fluids.
Flow rates
Typical volumetric flow ranges are given in the following tables. Precise
flow range depends on the fluid and pipe size. 221 insertion meters are
applicable to pipe sizes from 2 inch and above. Consult factory for siz-
ing program.
Air Minimum and Maximum Flow Rates (scfm) (1)
Pressure
0 psig
½-inch
¾-inch
1-inch
1.5-inch
2-inch
3-inch
4-inch
6-inch
8-inch
1.8
3.3
5
13
22
50
88
198
347
17.5
41.4
90
221
369
826
1438
3258
5708
100 psig
5
9.2
15
37
62
138
240
543
952
137
324
2879
6447
11222
25421
44536
701
1728
200 psig
300 psig
400 psig
500 psig
6.8
257
12.6
608
20
1313
50
3234
83
5389
185
12067
322
21006
730
47585
1279
67122
8.3
378
15.3
893
24
1924
59
4740
98
7900
220
17687
382
30789
866
48821
1518
64552
9.5
500
17.5
1178
27
2535
66
6246
110
10410
247
23308
430
31141
975
46884
1708
61990
10.6
620
19.5
1464
29
3147
72
7752
120
12920
270
22592
469
29834
1063
44915
1862
59387
Note: (1) Standard conditions are 70° F and 1 atmosphere.
Steam Minimum and Maximum Flow Rates (lb/hr)
Pressure
5 psig
½-inch
¾-inch
1-inch
1.5-inch
2-inch
3-inch
4-inch
6-inch
8-inch
6.5
12
20
49
82
183
319
722
1265
51.7
122
265
652
1087
2434
4237
9598
16815
100 psig
200 psig
300 psig
400 psig
500 psig
14.8
270
27.4
639
46
1385
112
3413
187
5688
419
12735
729
22168
1651
50219
2893
87980
20
493
37
1164
61
2524
151
6217
252
10362
565
23200
984
40385
2229
91485
3905
160275
24
716
44.5
1689
74
3662
182
9021
304
15035
681
33664
1185
58601
2685
132750
4707
232570
27.7
940
51
2220
85
4814
209
11859
349
19764
781
44253
1359
77033
3078
174505
5393
305721
30.8
57
95
233
389
870
1515
3433
6014
1170
2761
5986
14745
24575
55025
95784
216983
331080
IM-22-C
A-1
Appendix A Specifications
Series 220/221 Instruction Manual
Water Minimum and Maximum Flow Rates
½-inch
¾-inch
1-inch
1.5-inch
2-inch
3-inch
4-inch
6-inch
8-inch
gpm
1
22
1.3
40
2.2
67
5.5
166
9.2
276
21
618
36
1076
81
2437
142
4270
m3/hr
.23
5
.3
9.1
0.5
15
1.3
38
2.1
63
4.7
140
8.1
244
18
554
32
970
Linear Range
Smart electronics corrects for lower flow down to a Reynolds num-
ber of 5,000. The Reynolds number is calculated using the fluid
density and viscosity entered into the memory. Rangeability de-
pends on the fluid, process conditions and pipe size. Consult factory
for your application. Velocity rangeability under ideal conditions is as
follows:
Liquids 30:1
Gases 30:1
1 foot per second velocity minimum
30 feet per second velocity maximum
10 feet per second velocity minimum
300 feet per second velocity maximum
Process Fluid Pressure
220 Pressure Ratings
Material
Process
Rating
Connection
Flanged
Wafer
316L SS, A105 Carbon Steel, C276 Hastelloy
316L SS, A105 Carbon Steel, C276 Hastelloy
150, 300, 600 lb
600 lb
221 Pressure Ratings
Probe Seal
Process
Connection
Material
Rating
Ordering
Code
Compression
Fitting
2-inch MNPT
316L SS
316L SS
316L SS
316L SS
316L SS
316L SS
316L SS
ANSI 600 lb
ANSI 150 lb
ANSI 300 lb
ANSI 600 lb
50 psig
CM
CF
CG
CH
PM
PF
2-inch 150 lb flange
2-inch 300 lb flange
2-inch 600 lb flange
2-inch MNPT
Packing Gland
2-inch 150 lb flange
2-inch 300 lb flange
50 psig
50 psig
PG
Packing Gland with
Removable Retractor
2-inch MNPT
316L SS
316L SS
316L SS
ANSI 300 lb
ANSI 150 lb
ANSI 300 lb
PM, RR
PF, RR
PG, RR
2-inch 150 lb flange
2-inch 300 lb flange
Packing Gland with
Permanent Retractor
2-inch MNPT
316L SS
316L SS
316L SS
316L SS
ANSI 600 lb
ANSI 150 lb
ANSI 300 lb
ANSI 600 lb
PMR
PFR
PGR
PHR
2-inch 150 lb flange
2-inch 300 lb flange
2-inch 600 lb flange
Process Fluid and
Ambient Temperature
Process Fluid:
Standard temperature sensor: –40° to 400° F (–40° to 205° C).
Medium temperature sensor: 250° to 500° F (120° to 260° C).
High temperature sensor: 250° to 750° F (120° to 400° C).
Ambient:
Operating: –5° to 140° F (–20° to 60° C).
Storage: –40° to 150° F (–40° to 65° C).
0-98% relative humidity, non-condensing conditions.
A-2
IM-22-C
Series 220/221 Instruction Manual
Appendix A Specifications
Power Requirements
Output Signals
Loop powered, 12 to 36 VDC.
Analog: field rangeable linear, 4-20 mA output signal, 1000 ohms
maximum loop resistance, selected by user for volumetric flow rate
or mass flow rate.
Pulse: field rangeable volume/pulse output for totalization is a 50-
millisecond duration pulse operating a solid-state relay capable of
switching 40 VDC, 40 mA maximum.
Display
Alphanumeric 2 x 16 LCD digital display.
Six push buttons (up, down, right, left, enter, exit) operable either di-
rectly on the display panel or with a hand-held magnet through the
display glass of the explosion-proof enclosure.
Viewing at 90° mounting intervals.
Totalizer
Based on user-determined flow units, six significant figures in scien-
tific notation. Total stored in non-volatile memory.
Wetted Materials
Series 220 In-Line Flow Meter:
316L stainless steel standard.
C276 hastelloy or A105 carbon steel optional.
Series 221 Insertion Flow Meter:
316L stainless steel standard.
Teflon® packing gland below 500° F (205° C).
Graphite packing gland above 500° F (205° C).
Enclosure
NEMA 4X cast enclosure.
Electrical Ports
Mounting Connections
Two 3/4-inch female NPT ports.
Series 220: Wafer or 150, 300, 600 lb ANSI flange.
Series 221 Permanent installation: 2-inch MNPT; 150, 300, 600 lb
ANSI flange with compression fitting probe seal.
Series 221 Hot Tap(1) Installation: 2-inch MNPT; 150, 300, 600 lb
ANSI flange and optional retractor with packing gland probe seal.
Note: (1) Removable under line pressure.
Mounting Position(1)
Certifications
Series 220 In-Line Flow Meter: No effect.
Series 221 Insertion Flow Meter: Meter must be perpendicular
within ± 5° of the pipe centerline.
Note: (1) For liquid applications, pipeline must remain full at all
times.
Construction Inspection ( ANSI/ASME B31.3).
Materials (NACE MR-01-75[90]).
CE and FM approved.
CSA, CENELEC approval pending.
FM approvals:
Class I, Division 1, Groups B, C, & D, T6 at Tamb = 60°C
Class II/III, Division 1, Groups E, F, & G
IP66, NEMA 4X
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Appendix A Specifications
Series 220/221 Instruction Manual
A-4
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Series 220/221 Instruction Manual
Appendix B Glossary
Appendix B Glossary
A B C D
A
Cross sectional area.
acfm
Actual cubic feet per minute (volumetric flow rate).
American Society of Mechanical Engineers.
ASME
Bluff Body
A non-streamlined body placed into a flow stream to
create vortices. Also called a Shedder Bar.
BTU
British Thermal Unit, an energy measurement.
European Electrical Code.
Cenelec
Compressibility
Factor
A factor used to correct for the non-ideal changes in
a fluid’s density due to changes in temperature
and/or pressure.
CSA
d
Canadian Standards Association.
Width of a bluff body or shedder bar.
Diameter of a flow channel.
D
E F G H
f
Frequency of vortices generated in a vortex flow
meter, usually in Hz.
Flow Channel
Flow Profile
A pipe, duct, stack, or channel containing flowing fluid.
A map of the fluid velocity vector (usually non-
uniform) in a cross-sectional plane of a flow channel
(usually along a diameter).
FM
Ft
Factory Mutual.
Foot, 12 inches, a measure of length.
Square feet, measure of area.
Cubic feet, measure of volume.
Gallons per minute.
Ft^2
Ft^3
gpm
Hz
Hertz, cycles per second.
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Appendix B Glossary
Series 220/221 Instruction Manual
I J K L
In-Line Flow Meter
A flow meter which includes a short section of piping
which is put in-line with the user’s piping.
Insertion Flow Meter
A flow meter which is inserted into a hole in the
user’s pipeline.
Joule
LCD
A unit of energy equal to one watt for one second.
Also equal to a Newton-meter.
Liquid crystal display.
M N O P
m
Mass flow rate.
mA
Milli-amp, one thousandth of an ampere of current.
µ
Viscosity, a measure of a fluid’s resistance to shear stress.
Honey has high viscosity, alcohol has low viscosity.
∆P
P
Permanent pressure loss.
Line pressure (psia or bar absolute).
ρ act
The density of a fluid at the actual temperature and
pressure operating conditions.
ρ std
The density of a fluid at standard conditions (usually
14.7 psia and 20° C).
Permanent
Unrecoverable drop in pressure.
Pressure Loss
Piezoelectric Crystal
A material which generates an electrical charge
when the material is put under stress.
PRTD
psia
An resistance temperature detector (RTD) with plati-
num as its element. Used because of high stability.
Pounds per square inch absolute
(equals psig + atmospheric pressure). Atmospheric
pressure is typically 14.696 psi at sea level.
psig
PV
Pounds per square inch gauge.
Liquid vapor pressure at flowing conditions (psia or
bar absolute).
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IM-22-C
Series 220/221 Instruction Manual
Appendix B Glossary
Q R S T
Q
Flow rate, usually volumetric.
Rangeability
Highest measurable flow rate divided by the lowest
measurable flow rate.
Reynolds Number
or Re
A dimensionless number equal to the density of a fluid
times the velocity of the fluid times the diameter of the
fluid channel, divided by the fluid viscosity (i.e., Re =
ρVD/µ). The Reynolds number is an important num-
ber for vortex flow meters because it is used to deter-
mine the minimum measurable flow rate. It is the ratio
of the inertial forces to the viscous forces in a flowing
fluid.
RTD
Resistance temperature detector, a sensor whose
resistance increases as the temperature rises.
scfm
Standard cubic feet per minute (flow rate converted
to standard conditions, usually 14.7 psia and 20° C).
Shedder Bar
A non-streamlined body placed into a flow stream to
create vortices. Also called a Bluff Body.
Strouhal Number
or St
A dimensionless number equal to the frequency
of vortices created by a bluff body times the width of
the bluff body divided by the velocity of the flowing
fluid (i.e., St = fd/V). This is an important number for
vortex flow meters because it relates the vortex fre-
quency to the fluid velocity.
Totalizer
Traverse
An electronic counter which records the total accu-
mulated flow over a certain range of time.
The act of moving a measuring point across the
width of a flow channel.
U V W X Y Z
Uncertainty
The closeness of agreement between the result of a
measurement and the true value of the measurement.
V
Velocity or voltage.
Volts, alternating current.
Volts, direct current.
An eddy of fluid.
VAC
VDC
VORTEX
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Appendix B Glossary
Series 220/221 Instruction Manual
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