Form A6255
Part Number D301454X012
March 2008
Annubar Flow Calculation Software
(for FloBoss™ 107 Flow Managers)
User Manual
Remote Automation Solutions
Annubar Flow Calculation Software User Manual
Revision Tracking Sheet
March 2008
This manual may be revised periodically to incorporate new or updated information. The revision date
of each page appears at the bottom of the page opposite the page number. A change in revision date to
any page also changes the date of the manual that appears on the front cover. Listed below is the
revision date of each page (if applicable):
Page Revision
All pages Mar-08
Initial release Feb-08
NOTICE
Remote Automation Solutions (“RAS”), division of Emerson Process Management shall not be liable for technical or editorial errors in this
manual or omissions from this manual. RAS MAKES NO WARRANTIES, EXPRESSED OR IMPLIED, INCLUDING THE IMPLIED
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EVENT SHALL RAS BE LIABLE FOR ANY INCIDENTAL, PUNITIVE, SPECIAL OR CONSEQUENTIAL DAMAGES INCLUDING, BUT NOT
LIMITED TO, LOSS OF PRODUCTION, LOSS OF PROFITS, LOSS OF REVENUE OR USE AND COSTS INCURRED INCLUDING
WITHOUT LIMITATION FOR CAPITAL, FUEL AND POWER, AND CLAIMS OF THIRD PARTIES.
Bristol, Inc., Bristol Babcock Ltd, Bristol Canada, BBI SA de CV and the Flow Computer Division are wholly owned subsidiaries of Emerson
Electric Co. doing business as Remote Automation Solutions (“RAS”), a division of Emerson Process Management. FloBoss, ROCLINK,
Bristol, Bristol Babcock, ControlWave, TeleFlow and Helicoid are trademarks of RAS. AMS, PlantWeb and the PlantWeb logo are marks of
Emerson Electric Co. The Emerson logo is a trademark and service mark of the Emerson Electric Co. All other trademarks are property of
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The contents of this publication are presented for informational purposes only. While every effort has been made to ensure informational
accuracy, they are not to be construed as warranties or guarantees, express or implied, regarding the products or services described herein or
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All sales are governed by RAS’ terms and conditions which are available upon request.
RAS does not assume responsibility for the selection, use or maintenance of any product. Responsibility for proper selection, use and
maintenance of any RAS product remains solely with the purchaser and end-user.
©2008 Remote Automation Solutions, division of Emerson Process Management. All rights reserved.
ii Rev. Mar-08
Annubar Flow Calculation Software User Manual
Contents
Page
Chapter 1 – Introduction 1
1.1 Scope and Organization.......................................................................................................1
1.2 Product Overview.................................................................................................................1
1.3 Program Operation...............................................................................................................2
1.3.1 Annubar Flow Calculation........................................................................................2
1.4 Program Requirements........................................................................................................3
1.4.1 License Keys............................................................................................................3
Chapter 2 – Installation 5
2.1 Installing the License Key ....................................................................................................5
2.1.1 Installing a License...................................................................................................5
2.2 Downloading the Program....................................................................................................7
Chapter 3 – Configuration 11
3.1 Annubar Setup Screen.......................................................................................................12
3.1.1 Annubar Setup – General Tab...............................................................................14
3.1.2 Annubar Setup Display – Inputs Tab.....................................................................18
3.1.3 Annubar Setup Display – Advanced Tab...............................................................20
3.1.4 Annubar Setup Display – Fluid Properties Tab......................................................23
3.1.5 Annubar Setup Display – Sampler Tab..................................................................26
3.1.6 Annubar Setup Display – Calibration Factors Tab.................................................28
3.1.7 Annubar Setup Display – Alarms Tab....................................................................29
3.2 Annubar Values Screen.....................................................................................................31
3.2.1 Annubar Values – Current Values Tab..................................................................33
3.2.2 Annubar Values – Calculated Factors Tab............................................................35
3.3 Saving the Configuration....................................................................................................37
Chapter 4 – Reference Materials 39
4.1 Point Type 31: Annubar Configuration...............................................................................40
4.2 Point Type 32: Annubar Flow Calculation Values..............................................................41
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iv Rev. Mar-08
Chapter 1 – Introduction
This chapter describes the structure of this manual and presents an
overview of the Annubar Flow Calculation Software for the FloBoss™
107.
1.1 Scope and Organization
This document serves as the user manual for the Annubar Flow
Calculation Software, which is intended for use in a FloBoss 107 (FB107).
This manual describes how to download, install, and configure the
Annubar Flow Calculation user program (referred to as the “Annubar
program” or “the program” throughout the rest of this manual). You
access and configure this program using ROCLINK™ 800 Configuration
Software loaded on an IBM-compatible personal computer running
Windows® 98, NT 4.0 (with Service Pack 6), 2000 (with Service Pack 2),
or XP.
The sections in this manual provide information in a sequence appropriate
for first-time users. Once you become familiar with the procedures and the
software, the manual becomes a reference tool.
Annubar Flow Calculation Software User Manual
This manual has the following major sections:
Chapter 1 – Introduction
Chapter 2 – Installation
Chapter 3 – Configuration
Chapter 4 – Reference
This manual assumes that you are familiar with the FB107 and its
configuration. For more information, refer to the FloBoss 107 Flow
Manager Instruction Manual (Form A6206) or the ROCLINK 800
Configuration Software User Manual (for FloBoss 107) (Form A6217).
1.2 Product Overview
The Annubar program allows a FB107 to calculate flow rates, integrate
volumes, and archive historical values for installations implementing an
Annubar end element. The program supports both the Annubar Diamond
II and Annubar 485 “T-shaped” element types. The program provides flow
calculations for gas, steam/water and fluid applications in either Metric or
Imperial units.
The Annubar Flow Calculation Program is compatible with FB107,
firmware version 1.10 and greater. The user program is downloaded and
configured in the FB107 with ROCLINK™ 800 Configuration Software
(version 1.75 or greater).
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Annubar Flow Calculation Software User Manual
The components of the Annubar Flow Calculation Software are:
The Annubar Flow Calculation user program that loads into FloBoss
memory to provide support for Annubar applications.
License Key, containing license(s) enabling the Annubar user
program.
This manual, Form A6255.
1.3 Program Operation
The FB107 reads flow inputs (differential pressure, temperature, and static
pressure) once every second. The Annubar instantaneous flow rate
calculation is performed once a second by the user program. Configuration
is accomplished through a custom Annubar Setup user display.
The program itself does not perform gas or fluid property calculations.
Gas properties can be obtained from FloBoss firmware, using AGA8 1992
standards or from a separate user program installed in the FloBoss. The
program requires density at base conditions, density at flowing conditions,
and heating value be provided.
The user program calculates instantaneous volume, mass and energy and
provides the rates to the FB107 for archival into the periodic and daily
databases. Values saved to the historical database are in the units shown
below.
Volume Units Mass Units Energy Units
MCF or km3 Mlb or Tonnes MMBTU or GJoules
1.3.1 Annubar Flow Calculation
The purpose of the Annubar Flow Calculation program is to provide an
instantaneous flow rate for Annubar installations. Following is the base
equation implemented by the Annubar program:
Q
Annubar Flow Equation
Q
F
K
D
= Fna * K * D2 * Ya * sqrt (hw * pf).
m
Mass flow rate in lbm/hour or kg/hour.
m
Units conversion factor.
na
Annubar flow coefficient (calculated by
Annubar user program or entered by user).
Pipe diameter (ID) at flowing temperature in
inches or millimeters.
Y
h
p
Gas expansion factor (calculated by Annubar
a
user program, always 1.0 for liquids).
Differential pressure in Inches H2O or kPa.
w
Flowing density in lb/ft3 or kg/m3 (provided by
f
FB107 AGA8 calc or other user program).
2 Rev. Mar-08
1.4 Program Requirements
The Annubar program is compatible with version 1.10 (or greater) of the
FB107 firmware and with version 1.75 (or greater) of the ROCLINK 800
software.
Program specifics include:
Annubar Flow Calculation Software User Manual
File Name
Annubar_5.bin FB107 1.10 31, 32 9,999 16,384 1.75 32, 33
Target Unit/
Version
User Defined
Point (UDP)
Flash Used
(in bytes)
DRAM Used
(in bytes)
ROCKLINK
800
Version
Display
Number
Note: You must connect a PC to the FB107’s LOI port before starting the
download.
For information on viewing the memory allocation of user programs, refer
to ROCLINK 800 Configuration Software User Manual (for FloBoss 107)
(Form A6217).
1.4.1 License Keys
Some applications require that you install a license in the CPU to run the
application. This license software is specific to these applications and is
the property of the individual vendor (shown in the Vendor Name field on
the License Key Administrator screens).
RAS (and other authorized vendors) distributes software licenses on
security-enhanced universal serial bus (USB) drives.
You must install the following license keys to use the Annubar Flow
Calculation Program.
Annubar Calc License Key.
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4 Rev. Mar-08
Chapter 2 – Installation
This section provides instructions for installing the Annubar program.
Read Section 1.4 of this manual for program requirements.
Note: The program and license key can be installed in any order. The
manual shows the installation of the license key first.
2.1 Installing the License Key
A license key is required to use the Annubar program. The license is a
USB key-based license. Section 2.1.1 describes the installation process.
2.1.1 Installing a License
To install a USB key-based license on the FB107:
Annubar Flow Calculation Software User Manual
1. Insert the USB license key in a USB port on your PC.
2. Select Utilities > License Key Administrator > Transfer Between
Device and Key from the ROCLINK 800 menu bar. The Transfer
Licenses Between a Device and a Key screen displays.
Figure 1. Transfer Licenses Between a Device and a Key
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Annubar Flow Calculation Software User Manual
Note: This screen has three sections. The upper portion (Licenses on
Device) shows any software licenses installed on the FB107. The
middle portion (Licenses on Key) shows software licenses on the
license key. The lower portion of the screen (License Key Event
Log) provides a rolling log of the last eight events related to this
license key.
3. Select the key-based license you want to transfer to the FB107
(Annubar Calc, as shown in Figure 1).
4. Click Move to Device. ROCLINK moves one instance of the license
from the key to the FB107 and updates the screen.
Figure 2. License Installed
Note: An FB107 can hold up to six different licenses, although you can
install only one instance of each license on the FB107. When you
click Move to Device, ROCLINK 800 moves only one instance of
the license onto the FB107 and automatically decreases the license
quantity on the USB key by one.
5. Verify the license name displays in the Licenses on Device section of
the screen. Proceed to Section 2.2 to download the user program.
6 Rev. Mar-08
2.2 Downloading the Program
This section provides instructions for installing the program into the Flash
memory on the FB107.
To download the program using ROCLINK 800 software:
1. Connect the FB107 to your computer using the LOI port.
2. Start and logon to ROCLINK 800.
3. Select Utilities > User Program Administrator from the ROCLINK
menu bar. The User Program Administrator screen displays (see
Figure 3):
Annubar Flow Calculation Software User Manual
Figure 3. User Program Administrator
4. Click Browse in the Download User Program File frame. The Select
User Program File screen displays (see Figure 4).
5. Select the path and user program file to download from the CD-ROM.
(Program files are typically located in the Program Files folder on the
CD-ROM). As Figure 4 shows, the screen lists all valid user program
files with the .BIN extension:
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Annubar Flow Calculation Software User Manual
Figure 4. Select User Program File
6. Click Open to select the program file. The User Program
Administrator screen displays. As shown in Figure 5, note that the
Download User Program File frame identifies the selected program
and that the Download & Start button is active:
Figure 5. User Program Administrator
8 Rev. Mar-08
Annubar Flow Calculation Software User Manual
7. Click Download & Start to begin loading the selected programs. The
following message displays:
Figure 6. Confirm Download
8. Click Yes to begin the download. When the download completes the
following message displays:
Figure 7. ROCLINK 800 Download Confirmation
9. Click OK. The User Program Administrator screen displays (see
Figure 8). Note that:
The User Programs Installed in Device frame identifies the installed
program(s).
The Status field indicates that the program is running.
Figure 8. User Program Administrator
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Annubar Flow Calculation Software User Manual
Note: If you install the program before you install the license key, the
Status field reads “License Key Not Found.”
10. Click Close. The ROCLINK 800 screen displays and the download is
complete.
10 Rev. Mar-08
Chapter 3 – Configuration
After you have loaded the Annubar program on the FB107 and installed
the required license, you configure and monitor the program using two
program-specific displays (Annubar Setup and Annubar Values):
Use the Annubar Setup display to configure all parameters associated
with the Annubar meter run.
Use the Annubar Values screen to view all instantaneous rates,
accumulations, and calculated Annubar factors for each meter run.
You can access all the program-specific screens from the main ROCLINK
800 screen:
Annubar Flow Calculation Software User Manual
Figure 9. ROCLINK 800
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Annubar Flow Calculation Software User Manual
3.1 Annubar Setup Screen
Use this display to configure parameters required for Annubar flow
calculation.
1. From the Directory Tree, select User Program > Annubar Flow Calc
> Display #32 Annubar Setup.
2. Double-click #1, Meter #1. The Annubar Setup screen displays:
Figure 10. Annubar Setup Display
3. The following fields appear on all tabs of the setup display:
Field Description
Point Number
Meter Tag
Meter Description
12 Rev. Mar-08
Selects the logical number of the meter run to
configure.
Provides a user-defined 10-character description that
uniquely identifies the meter run.
Provides a user-defined 30-character description to
further identify this meter run, or to provide
information about the meter.
Annubar Flow Calculation Software User Manual
Field Description
Active Flow
Calculation
Active Properties
Calc
This read-only field shows the calculation standard
in use for calculating flow rate. For meter runs with
the Annubar calculation enabled, this field always
shows Annubar Flow Calc. When the Annubar
calculation is not enabled and the FloBoss 107
internal flow calculations are active, this field shows
either AGA3-92, AGA7-96, or ISO5167-2003.
This read-only field shows the gas or fluid properties
calculation the program uses to calculate and
provide gas compressibility, density, and heating
value.
Note: For gas volume calculations, this field may
show AGA8 1992 Detailed if the FloBoss 107
internal AGA8 properties calculation is active.
If a separate gas properties user program is
active in the unit, the field displays the name
of the standards calculation implemented in
that program.
4. Click Apply to save any changes you have made to this screen.
5. Proceed to Section 3.1.1 to define the General tab.
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Annubar Flow Calculation Software User Manual
3.1.1 Annubar Setup – General Tab
Use the General tab (which displays when you access the Annubar Setup
screen) to define Annubar-specific configuration information.
Note: You must select Enabled in the Annubar Flow Calculation section
to view all available fields on this tab.
Figure 11. Annubar Setup, General tab
1. Complete the screen fields based on your organization’s requirements.
Field Description
Annubar Flow Calc
Export to Soft Point:
14 Rev. Mar-08
Sets the flow calculation for the meter run. Valid
values are Enabled (use the Annubar flow
calculation) or Disabled (use the AGA3 or ISO5167
flow calculations). The default is Disabled.
Note: The Active Flow Calculation field shows the
current flow calculation.
Specifies the logical of the target softpoint. This
allows a host to access data from a softpoint if it
cannot access the data through other means. Valid
values are 0 (disable the access) or 1 through 32
(enable the access and save the following value to
the designated softpoint parameter):
Annubar Flow Calculation Software User Manual
Field Description
Export to Soft Point:
(continued)
2
3
4
5
6
7
8
9
10
11
12
13
Live Differential Pressure Value (in Inches H2O
1
or kPa).
Live Static Pressure Value (in PSI or kPa).
Live Flowing Temperature Value (in Deg F or
Deg C).
Current Volume Rate (in MCF/Day or km3/Day).
Current Energy Rate (in MMBTU/Day or
GJoules/Day).
Current Mass Rate (in Mlb/Day or Tonnes/Day).
Current Pressure Extension Value (IV) – (sqrt
(hw)).
Current Integral Multiplier Value (IMV).
Upstream/Absolute Static Pressure (in PSIA or
kPaA).
Density at Flowing Conditions (in lb/ft3 or
kg/m3).
Density at Base Conditions (in lb/ft3 or kg/m3).
Calculated Gas Expansion Factor.
Annubar Flow Coefficient (K).
14
15
Sensor Model:
Sets the model and size of the Annubar sensor. Both
Annubar Diamond II and Annubar 485 “T-shape”
models are supported.
The selection automatically sets the probe diameter
on the Inputs tab. Valid selections include:
Annubar 485 Model 1
Annubar 485 Model 2
Annubar 485 Model 3
Annubar Diamond II Model 10
Annubar Diamond II Model 15
Annubar Diamond II Model 16
Annubar Diamond II Model 25
Annubar Diamond II Model 26
Annubar Diamond II Model 35
Pipe Diameter at Flowing Temperature (in
inches or millimeters).
Probe Diameter at Flowing Temperature (in
inches or millimeters).
Rev. Mar-08 15
Annubar Diamond II Model 36
Annubar Diamond II Model 45
Annubar Diamond II Model 46
Other – Enter Flow Coefficient (K)
Annubar Flow Calculation Software User Manual
Field Description
Flow Coeff (K):
Type of Units
Flow Alarming
Averaging
Technique
Flow
Displays the Annubar Flow Coefficient (K) used in
the rate calculation. This value is typically calculated
by the user program, but can be entered when the
Sensor Model field is set to Other.
Sets the type of units used by the sampler and
alarming functions. Valid values are Volume or
Mass. The default value is Volume.
Sets Flow Alarming as Enabled or Disabled. Alarms
are configured on the Alarms tab of the Annubar
Setup screen. If Enabled, alarms are displayed in the
Active Alarms field and logged to the Alarm Log. If
disabled, no alarm generates for this point,
regardless of the alarm configuration. The default
value is Disabled.
Select an Averaging Technique for the Meter Run.
The default value is Flow Dependent Linear.
This is the simplest and most
Dependant
Linear
commonly used method. This method
discards samples for periods when
there is no measurable flow, and
performs a straightforward (linear)
average of the remaining samples to
compute the minute and hour values.
The value specified in the Low Flow
Cutoff section of the Inputs tab
determines the values. When no flow
occurs, all values are sampled.
Flow
Dependant
Formulaic
Flow
Weighted
Linear
Flow
Weighted
Formulaic
This method discards samples for
periods when there is no flow.
However, in calculating the average,
this method typically takes the square
root of each sample before averaging
the samples together, and then
squares the result. This formulaic
method produces a slightly lower value
than the linear method.
This method does not discard any
samples; instead, it "weights" each
sample by multiplying it by a flow value
(square root of the differential pressure
measured during the sample period).
Next, a linear average is calculated by
dividing the sum of the flow-weighted
sample by the sum of the flow values.
This result includes minute and hourly
values that are more reflective of short
periods of high flow.
This method combines the flow-
weighting action with the formulaic
averaging technique, both of which
were described previously.
16 Rev. Mar-08
Annubar Flow Calculation Software User Manual
Field Description
Integral Multiplier
Period
Active Flow Alarms
Sets, in minutes, the Integral Multiplier Period (IMP).
The IMP is the amount of time between calculations
of the combined correctional factors, called the
Integral Multiplier Value (IMV) in the API
measurement standard Section 21, Section 1.
This value cannot be more than 60 minutes and
cannot be less than 1 minute in length. The default
value is 1 minute.
Displays any currently activated flow related alarms.
For example, Low indicates that the calculated flow is
below the Low Alarm limit. Other alarms can include
High, No Flow, and Manual Mode.
2. Click Apply to save any changes you have made to this screen.
3. Proceed to Section 3.1.2 to define Annubar inputs.
Rev. Mar-08 17
Annubar Flow Calculation Software User Manual
3.1.2 Annubar Setup Display – Inputs Tab
The Inputs tab allows you to define pressure sources, temperature source,
diameters, and low flow cutoff value.
Note: You must select Enabled in the Annubar Flow Calculation section
of the General tab to view the fields on this tab.
1. Select the Inputs tab on the Annubar Setup screen.
Figure 12. Annubar Setup, Inputs tab
2. Complete the screen fields based on your organization’s requirements.
Field Description
Differential Pressure
Static Pressure
Temperature
Pipe Diameter:
18 Rev. Mar-08
Click “…” to define an input to provide the differential
pressure reading. Values are displayed in H2O or
kPa.
Click “…” to define an input to provide the static
pressure reading. Values are displayed in PSI or
kPa.
Click “…” to define an input to provide the
temperature reading. Values are displayed in Deg F
or Deg C.
Sets the inside Pipe Diameter of the pipe near the
Annubar probe at reference conditions in this Meter
Run. Values are displayed in inches or millimeters.
Annubar Flow Calculation Software User Manual
Field Description
Probe Diameter:
Sets the Annubar probe diameter at reference
conditions.
Note: This field is read-only and the value is set by
the program unless you select Other – Enter
Flow Coefficient (K) in the Sensor Model field
on the General tab.
Low Flow CutOff:
Enter a value for the Low Flow CutOff. When the
differential pressure value of the metering device falls
below this value, the calculated flow rate is set to
zero and a No Flow alarm is recorded in the Alarm
Log if Alarming is Enabled. For the Annubar
calculation method, this value is in terms of inches of
water column or kPa.
3. Click Apply to save any changes you have made to this screen.
4. Proceed to Section 3.1.3 to define Annubar advanced configuration.
Rev. Mar-08 19
Annubar Flow Calculation Software User Manual
3.1.3 Annubar Setup Display – Advanced Tab
The Advanced tab allows you to define advanced configuration
parameters.
Note: You must select Enabled in the Annubar Flow Calculation section
of the General tab to view the fields on this tab.
1. Select the Advanced tab on the Annubar Setup screen.
Figure 13. Annubar Setup, Advanced tab
2. Complete the screen fields based on your organization’s requirements.
Field Description
Atmospheric
Pressure
20 Rev. Mar-08
Select either Calculate or Enter Atmospheric
Pressure for the value of the atmospheric pressure
(absolute) at the metering location. If Calculate is
selected, the value is calculated from Elevation. If
Enter is selected, type a value for the pressure. The
units of measurement are in PSIA or kPaA. If
entered, the value must be greater than zero.
Annubar Flow Calculation Software User Manual
Field Description
Gravitational
Acceleration
Base Pressure
Base Temperature
Elevation
Latitude
Annubar Probe
Material
Select Calculate or Enter Gravitational Acceleration
for the value at the metering location. If Calculate is
selecte
latitude. If Enter is selected, type a value for the
acceleration. The units of measurement are in ft/sec2
or M/sec2. If entered, the value must be greater than
zero.
Enter the flow measurement Base Pressure specifie
in the gas contract. The pressure units are in PSIA o
kPaA.
Enter the flow measurement Base Temperature
specified in the gas contract. The temperature
are in degrees Fahrenheit or degrees Celsius.
Enter the elevation of the metering location. The
units are in feet o
the calculation of atmospheric pressure and
gravitational acceleration.
location. Latitude is required for calculation of
gravitational acceleration. The units are in degrees
and minutes, separated by a decimal point. For
example: 46.15.
Select the material the Annubar probe is constructe
of. Valid Values are Stainless Steel, Monel, Carbon
Steel, or Hastelloy C.
d, the value is calculated from elevation and
units
r meters. Elevation is required for
atitude of the metering Enter the geographic L
d
d
r
Ref Temperature
(Annubar Probe)
Pipe Material
Ref Temperature
(Pipe)
Force Recalculation
Limit Meter Events
Sets the temperature at which the bore diameter of
the probe was measured. Values are displayed in
Deg F or Deg C.
Select the meter tube material (Pipe Material):
Stainless Steel, Monel, or Carbon Steel. Nearly all
natural gas applications use carbon steel meter
tubes.
ter of Sets the temperature at which the inside diame
the pipe was measured. Values are displayed in Deg
F or Deg C.
Select Force Recalculation and click Apply to caus
a full recalculation of the flow without waiting for the
next Normal recalculation. Normal recalculation
periods are established in Annubar Setup screen
using the Integral Multiplier Period. The Force
Recalculation parameter is automatically set to Clear
after the recalculation completes.
Enable Limit Meter Events if the FloBoss is to log
AGA events. An AGA limit event is logged when an
input to the AGA
limits or the calculation fails. Disable this parameter if
the FloBoss should ignore AGA calculation related
events. Disabling this parameter prevents the Event
Log from filling with AGA limit type events.
calculation is outside the specified
e
Rev. Mar-08 21
Annubar Flow Calculation Software User Manual
Field Description
Pressure Tap
Select the P
this Meter Run.
Gauge or
Absolute
Upstream or
Downstream
ress
ure Tap type and location used in
Select either Gauge or Absolute as
the pressure tap type. This choice
must match the static pressure typ
actually measured by the sensor.
The MVS sensor, DVS sensor, or
other pressure tra
ordered to provide either a
gauge measurements. The default
value is Gauge.
Select either Upstream or
Downstream to indicate the locatio
of the static
to the Annub
normal flow. The default value is
Upstream.
nsmitter can be
pressure tap in relation
ar element during
e
bsolute or
n
3. Click Apply to save any changes you have made to this screen.
4. Proceed to Section 3.1.4 to define fluid properties.
22 Rev. Mar-08
Annubar Flow Calculation Software User Manual
3.1.4 Annubar Setup Display – Fluid Properties Tab
The Fluid Properties tab allows you to define properties of the gas
following through the meter.
Notes:
You must select Enabled in the Annubar Flow Calculation section of
the General tab to view the fields on this tab.
If fluid properties are being calculated a separate user program (and
not the embedded FB107 AGA8 calculation), the fields on this tab are
replaced by the following message: Fluid properties for the meter run
are not being calculated using AGA8.
1. Select the Fluid Properties tab on the Annubar Setup screen.
Figure 14. Annubar Setup, Fluid Properties tab
2. Complete the screen fields based on your organization’s requirements.
Field Description
Compositions
Rev. Mar-08 23
Enter the mole percent of each Gas Component.
This value is required to calculate the compressibility
of gas using the AGA 8 detailed method. If the AGA
8 detailed method is selected, the Total Mole %
should equal 100% after all the component mole
percentages have been entered. The default value is
96% Methane, 3% Ethane, and 1% Nitrogen.
Annubar Flow Calculation Software User Manual
Field Description
FPV Method
Detailed
Gross I
Gross II
Sets the method of calculating the compressibility
factor. Valid values are:
Requires the natural gas composition in
mole percent to be entered for all
components. Refer to the information
on the Gas Quality.
Uses the Specific Gravity of the natural
gas, its heating value, and the quantity
of non-hydrocarbon components as
follows:
Specific Gravity
Real gas gross heating value per
unit volume
The mole % of CO2
Uses the Specific Gravity of the natural
gas, as well as the quantity of nonhydrocarbon components as follows:
Specific Gravity
The mole % of CO2
The mole % of N2
Heating Value
Note: If either Gross Method is
chosen, manually enter the
Specific Gravity and Heating
Value in the Gas Quality screen.
For Gross Method II, the Heating
Value is required only for
calculating the gas energy flow.
For AGA calculations, select FPV Method Detailed,
Gross I, and Gross II (methods of calculating the
compressibility factor). The Detailed method provides
the highest accuracy in a broader range of
measurement conditions; however, one of the Gross
methods can be used when:
Temperature is between 0 and 54ºC (32 and
130ºF).
Pressure is between 0 and 8274 kPa (0 and 1200
PSIA).
Gas composition is within the Normal range as
defined in the 1992 AGA8 report
Select Enter to manually set the Heating Value or
Calculate to have the program automatically
calculate the Heating Value of a specified gas.
24 Rev. Mar-08
Annubar Flow Calculation Software User Manual
Field Description
Heating Value Basis
Specific Gravity
Viscosity:
Select between Dry (no water vapor present in the
gas), Wet (saturated water vapor present in the gas),
or As Delivered (may contain some water vapor) for
the Heating Value Basis. This selection indicates on
what basis the entered Heating Value was
determined and affects the flow or energy
calculations.
If Wet Gas selected, the FB107 calculates the mole
percentage of water based on the algorithm from
IAPWS – IF97 standards and adjusts the other mole
percentages accordingly.
Select either Calculate or Enter for the Spec Gravity
ratio of the molar mass of the gas to the molar mass
of air. The value entered for standard conditions is
used in the flow calculation. The Specific Gravity
value cannot be less than 0.07.
If Calculate, the FloBoss calculates the Specific
Gravity value to be used in the flow calculations.
If Enter, the value entered is used in the flow
calculation. The Specific Gravity should be entered
for the gas at standard conditions and cannot be less
than 0.07.
Enter the dynamic Viscosity of the flowing gas. The
units of measure will be either Lbm/Ft-Sec for US
Units or cP for Metric Units.
Sp Heat Ratio:
Log Methane Adjust
Gas Quality
Enter the Specific Heat Ratio (Sp Heat Ratio) of the
gas (defined as the specific heat of the gas at
constant pressure divided by the specific heat of the
gas at constant volume). Accepted practice for
natural gas applications is to use a value of 1.3,
which was used to develop the expansion factor
tables in the AGA 3 Report – Part 3. If entered, the
value must be greater than zero.
If the percentages are automatically adjusted to total
100 and you would like to log this adjustment, select
Enabled in the Log Methane Adjust field. If you select
Disable, this does not prevent the FloBoss from
automatically adjusting the Methane, but does
prevent an Event Log entry.
The Gas Quality field determines where to get Gas
Quality readings. Live indicates readings come from
a gas chromatograph or periodically downloaded
from a host and changes are not entered in the Event
Log. Constant indicates that the changes are entered
in the Event Log.
3. Click Apply to save any changes you have made to this screen.
4. Proceed to Section 3.1.5 to define sampler setup.
Rev. Mar-08 25
Annubar Flow Calculation Software User Manual
3.1.5 Annubar Setup Display – Sampler Tab
The Sampler tab allows you to define the sampler functionality.
Note: You must select Enabled in the Annubar Flow Calculation section
of the General tab to view the fields on this tab.
1. Select the Sampler tab on the Annubar Setup screen.
Figure 15. Annubar Setup, Sampler tab
2. Complete the screen fields based on your organization’s requirements.
Field Description
Sampler Control
Output Point:
Sampler Accum:
26 Rev. Mar-08
Select Enabled in the Sampler Control field for the
Sampler to override the DO located on the CPU I/O
assembly or on an I/O module
Use the Output Point TLP box to select the DO point
is to be used.
The Unit Accumulation field determines when an
output pulse generates. The Input Rate Value is
integrated over time. When the total matches the Unit
Accumulation value, a pulse is generated for the
duration specified in the duration field.
Annubar Flow Calculation Software User Manual
Field Description
Sampler Duration:
The Duration is how long (in seconds) the output
pulse will be on. This is how long the DO stays ON.
The DO is turned on for the amount of time set in the
Duration field every time the Unit Accumulation value
is exceeded.
3. Click Apply to save any changes you have made to this screen.
4. Proceed to Section 3.1.6 to define calibration factors.
Rev. Mar-08 27
Annubar Flow Calculation Software User Manual
3.1.6 Annubar Setup Display – Calibration Factors Tab
The Calibration Factors tab allows you to define deadweight calibration
factors applied to differential and static pressure inputs.
Note: You must select Enabled in the Annubar Flow Calculation section
of the General tab to view the fields on this tab.
1. Select the Calibration Factors tab on the Annubar Setup screen.
Figure 16. Annubar Setup, Calibration Factors Tab
2. Complete the screen fields based on your organization’s requirements.
Field Description
Static Press
Dif Press
Calibrated Grav.
Accel.
3. Click Apply to save any changes you have made to this screen.
4. Proceed to Section 3.1.7 to define alarm parameters.
28 Rev. Mar-08
Select Yes or No to have the program correct the
static pressure for local gravity effect on deadweight
calibration.
Select Yes or No to have the program correct the
differential pressure for local gravity effect on
deadweight calibration.
Enter a value in this field if the gravitational
acceleration at the site where the deadweights were
calibrated is different from the value indicated. The
units assumed for the input are Ft/Sec
2
or m/Sec2.
Annubar Flow Calculation Software User Manual
3.1.7 Annubar Setup Display – Alarms Tab
The Alarms tab allows you to define limits for flow alarming.
Note: You must select Enabled in the Annubar Flow Calculation section
of the General tab to the available fields on this tab.
1. Select the Alarms tab on the Annubar Setup screen.
Figure 17. Annubar Setup, Alarms Tab
2. Complete the screen fields based on your organization’s requirements.
Field Description
Time Basis For
Alarming
Low Alarm Limit:
High Alarm Limit:
Rev. Mar-08 29
Determines the time base for which the flow alarms
are calculated. Valid values are Alarm on Daily Flow
Rate and Alarm on Hourly Flow Rate. The default
value is Alarm on Daily Flow Rate.
Enter the Low Alarm limit value to which the
Volumetric or Mass Flow Rate value must fall to
generate a Low Alarm.
Enter the High Alarm limit value to which the
Volumetric or Mass Flow Rate value must rise to
generate a High Alarm.
Annubar Flow Calculation Software User Manual
Field Description
Alarm Deadband:
Enter the amount of time, in seconds, that is an
inactive zone before and after the flow alarm is
triggered. The purpose of the Alarm Deadband Time
is to prevent the alarm from being set and cleared
continuously when the input value is oscillating
around the alarm limit.
RBX Alarming
Select the RBX Alarming option to configure
Spontaneous-Report-by-Exception (SRBX or RBX)
alarming for this point.
Disabled – The RBX Alarming is turned off.
On Alarm Set – When the point enters an alarm
condition, the FloBoss generates a Spontaneous-
Report-by-Exception message to the host.
On Alarm Clear – When the point leaves an alarm
condition, the FloBoss generates a Spontaneous-
Report-by-Exception message to the host.
On Alarm Set and Clear – In either condition, an RBX
message generates to the host.
Note: RBX Alarming requires the communications
port to be properly configured for RBX Alarming.
3. Click Apply to save any changes you have made to this screen.
4. Proceed to Section 3.2 to view flow rates, accumulations and
calculated factors associated with the Annubar flow calculation.
30 Rev. Mar-08
3.2 Annubar Values Screen
Use this display to view flow rates, accumulations and calculated factors
associated with the Annubar flow calculation.
1. From the Directory Tree, select User Program > Annubar Flow Calc
> Display #33 Annubar Values.
2. Double-click #1, Meter Tag. The Annubar Values screen displays:
Annubar Flow Calculation Software User Manual
Figure 18. Annubar Values Screen
3. The following fields appear on all tabs of the setup display:
Field Description
Point Number
Meter Tag
Meter Description
Rev. Mar-08 31
Selects the logical number of the meter run to view.
This read-only field shows a 10-character
description that uniquely identifies the meter run.
This read-only field shows a 30-character
description to further identify this meter run, or to
provide information about the meter.
Annubar Flow Calculation Software User Manual
Field Description
Active Flow
Calculation
This read-only field shows the calculation
standard in use for calculating flow rate. For
meter runs with the Annubar calculation
enabled, this field always shows Annubar
Flow Calc. When the Annubar calculation is
not enabled and the FloBoss 107 internal
flow calculations are active, this field shows
either AGA3-92, AGA7-96, or ISO5167-
2003.
Active Properties
Calc
This read-only field shows the gas or fluid properties
calculation the program uses to calculate and provide
gas compressibility, density, and heating value.
Note: For gas volume calculations, this field may
show AGA8 1992 Detailed if the FloBoss 107
internal AGA8 properties calculation is active.
If a separate gas properties user program is
active in the unit, the field displays the name
of the standards calculation implemented in
that program.
4. Proceed to Section 3.2.1 to view totals on the Current Values tab.
32 Rev. Mar-08
Annubar Flow Calculation Software User Manual
3.2.1 Annubar Values – Current Values Tab
Use the Current Values tab (which displays when you access the Annubar
Values screen) to view current input values, flow rates, and
accumulations. All fields on this screen are read-only.
Figure 19. Annubar Values, Current Values Tab
1. Review the values in the following fields.
Field Description
Differential Pressure
Static Pressure
Flowing
Temperature
Flow Rate
Energy Rate
Mass Rate
This read-only field displays the current differential
pressure in H2O or kPa.
This read-only field displays the current static
pressure in PSI or kPa.
This read-only field displays the current flowing
temperature in Deg F or Deg C.
This read-only field displays the current hourly and
daily flow rates in Cf/Hour and MCF/Day or m3/hr
and Km3/Day.
This read-only field displays the current hourly and
daily energy rates in BTU/Hour and MMBTU/Day or
MJ/Hour and GJ/Day.
This read-only field displays the current hourly and
daily mass rates in Lb/Hour and Mlb/Day or Kg/Hour
and Tonnes/Day.
Rev. Mar-08 33
Annubar Flow Calculation Software User Manual
Field Description
MCF/Km3
MMBTU/GJoules
Mlb/Tonnes
Minutes
Displays the total flow in MCF or Km3 for the current
day, the previous day, the current month, the
previous month and the accumulated total since the
program began running.
Displays the total energy in MMBTU or GJoules for
the current day, the previous day, the current month,
the previous month and the accumulated total since
the program began running.
Displays the total mass in Mlb or Tonnes for the
current day, the previous day, the current month, the
previous month and the accumulated total since the
program began running.
Displays flow time in Minutes for the current day,
the previous day, the current month, the previous
month and the accumulated total since the program
began running.
2. Proceed to Section 3.2.2 to view factors used in the Annubar flow rate
calculation.
34 Rev. Mar-08
Annubar Flow Calculation Software User Manual
3.2.2 Annubar Values – Calculated Factors Tab
The Calculated Factors tab shows the factors used in the Annubar flow
rate calculation. Use this screen to view the individual factors used in the
Annubar flow equation described in Section 1.3.1. All fields on this screen
are read-only.
Note: You must select Enabled in the Annubar Flow Calculation section
of the Annubar Setup screen to view all available fields on this tab.
1. Select the Calculated Factors tab on the Annubar Values screen.
Figure 20. Annubar Values, Calculated Factors Tab
2. Review the values in the following fields.
Field Description
Sqrt(hw):
IMV:
Rev. Mar-08 35
This read-only field shows the instantaneous
Integral Value (IV) which for the Annubar calculation
is square root of current differential pressure.
This read-only field shows the Integral Multiplier
Value (IMV) calculated at period defined in the
Integral Multiplier Period (IMP) defined on the
Annubar Setup, General tab. This value is based on
the average pressure and temperature over the last
IMP.
Annubar Flow Calculation Software User Manual
Field Description
Upstream Static
Pressure:
Flowing Density:
Base Density:
Expansion Factor
(Ya):
Annubar Flow Coeff
(K):
Pipe Diameter @
Temp:
Probe Diameter @
Temp:
This read-only field shows the static pressure
corrected to absolute upstream conditions in psia or
KpaA.
This read-only field shows the calculated density at
flowing conditions in lb/cf or Kg/m3.
This read-only field shows the calculated density at
base conditions in lb/cf or Kg/m3.
This read-only field shows the gas expansion factor
used in the flow rate calculation. The expansion
factor adjusts for density and internal energy effects
of a gas as it flows around the Annubar primary
element. The expansion factor is set to 1.0 for liquid
applications.
This read-only field shows the Annubar Flow
Coefficient (K) used in the flow calculation. This
value may be calculated by the user program or
manually entered.
This read-only field shows the adjusted pipe
diameter at flowing temperature in inches or
millimeters.
This read-only field shows the adjusted probe
diameter at flowing temperature in inches or
millimeters.
3. Proceed to Section 3.3 to save the configuration to non-volatile
memory and/or to file.
36 Rev. Mar-08
3.3 Saving the Configuration
Whenever you modify or change the configuration, it is a good practice to
save the final configuration to memory. To save the configuration:
1. Select ROC > Flags. The Flags screen displays:
Annubar Flow Calculation Software User Manual
Figure 21. Flags
2. Click Save Configuration. A verification message displays:
Figure 22. Save Verification
Rev. Mar-08 37
Annubar Flow Calculation Software User Manual
3. Click Yes. When the save process completes, a confirmation message
displays:
Figure 23. Confirmation
Note: Depending on the size and complexity of the user program, this
process may take several minutes. When the process ends, the
Status field on the Flags screen displays Completed.
4. Click Update on the Flags screen. This completes the process of
saving your new configuration.
Note: For archive purposes, you should also save this configuration to
your PC’s hard drive or a removable media (such as a diskette or a
flash drive) using the File > Save Configuration option on the
ROCLINK 800 menu bar.
38 Rev. Mar-08
Annubar Flow Calculation Software User Manual
Chapter 4 – Reference Materials
This section provides tables of information on the user-defined point types
used by the Annubar Flow Calculation program.
Point Type 31: Annubar Configuration
Point Type 32: Annubar Flow Calculation Values
Rev. Mar-08 39
Annubar Flow Calculation Software User Manual
4.1 Point Type 31: Annubar Configuration
Point type 31 contains the parameters for configuring the Annubar Flow calculation program. The program maintains up to four logicals of this
point.
Parm
#
0 Point Tag ID R/W AC 10 ““ Point Type Description
1 Calc Enable Flag R/W UINT8 1 0 , 1 0 0 = FB107 AGA3 or ISO5167 Flow Calculation active
2 Softpoint Enable Flag R/W UINT8 1 0 0 = Transfer to softpoint is disabled
3 Sensor Model R/W UINT8 1 0, 1, 2, 3, 10, 15, 16,
4 Annubar Flow Coefficient (K) R/W FL 4 Any Positive Floating
5 Pipe Diameter at Flowing
Temperature
6 Annubar Probe Diameter
Flowing at Temperature
7 Gas Expansion Factor R/O FL 4 Any Positive Floating
Name Access
R/O FL 4 Any Positive Floating
R/O FL 4 Any Positive Floating
Data
Type
Length Range Default Description of functionality and meaning of values
0x20 → 0x7E for
each ASCII character
1 = User Program Annubar Flow Calculation active
0 → 31
1 Valid values include:
25, 26, 35, 36, 45, 46
Point Number
Point Number
Point Number
Point Number
1-31 = Transfer of Annubar data to softpoint active (value
specifies logical of destination softpoint). See Section
3.1.1 for description of data transferred.
0 = Other model, enter Flow Coeff (K)
1 = Annubar 485 Model 1
2 = Annubar 485 Model 2
3 = Annubar 485 Model 3
10 = Annubar Diamond II Model 10
15 = Annubar Diamond II Model 15
16 = Annubar Diamond II Model 16
25 = Annubar Diamond II Model 25
26 = Annubar Diamond II Model 26
35 = Annubar Diamond II Model 35
36 = Annubar Diamond II Model 36
45 = Annubar Diamond II Model 45
46 = Annubar Diamond II Model 46
Annubar Flow Coefficient value used in flow equation. This
value is calculated by the program when Sensor model is
set to valid model number. You must enter this value when
Sensor Model is set to “Other”.
Pipe diameter adjusted to flowing tem perature conditions
(in inches or millimeters)
Annubar probe diameter adjusted to flowing temperature
conditions (in inches or millimeters)
Calculated gas expansion factor used in the Annubar flow
rate calculation.
40 Rev. Mar-08
Annubar Flow Calculation Software User Manual
4.2 Point Type 32: Annubar Flow Calculation Values
Point type 32 is required for ROCLINK to properly display the meter tag for each meter run when accessing the Annubar Values display.
Parm
#
0 Point Tag Id. R/O AC 10
Name Access
Data
Type
Length Range Default
0x20 → 0x7E for
each ASCII
character
“” Point Type Description
Description of functionality
and meaning of values
Revised Mar-08 41
Annubar Flow Calculation Software User Manual
If you have comments or questions regarding this manual, please direct them to your local sal es representative or
contact:
Emerson Process Management
Remote Automation Solutions
Marshalltown, Iowa 50158 USA
Houston, TX 77065 USA
Pickering, North Yorkshire UK Y018 7JA
Website: www.EmersonProcess.com/Remote
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