DanielTM Ultrasonic Gas Flow Meters with Mark III Electronics
Page
Daniel customer service
Signal words and symbols
Important safety instructions
Product Operation Personnel:
Notice
Warranty and Limitations
Contents
Electronic specifications
Hardware features
Safety
FCC Compliance
Section 3: Installation
Section 4: Optional features
Overview
Key expiration warnings (firmware v1.6X and below)
Grandfathered features (firmware v1.6X and below)
Trial period (firmware v1.6X and below)
5.7 Process parameters and calibration configuration
5.8 Saving the meter configuration
5.9 Maintenance logs and reports (Logs/Reports Menu)
5.10 Trend maintenance logs (Logs/reports Menu)
Section 6: Meter operation
Frequency, digital, and analog outputs
Digital Input
Modbus communication
Optional gas chromatograph interface
Archive logs
Section 7: Maintenance and troubleshooting
Field hydrostatic pressure testing procedures
T-SlotTransducer Removal and Installation Procedures
Replacing the Mark III Electronics
Troubleshooting Communications
Appendix A Conversion factors
A.1 Conversion factors per unit of measurement
Appendix B Miscellaneous equations
B.1
B.2 Chord “L” dimension calculation
Appendix F Flow rate summary charts
F.1 Flow Rate Summary Charts
Appendix G Write-protectedconfiguration parameters
G.1
Appendix H Open source licenses
List of Tables
Page
Page
Table A-1
Conversion Factors per unit of measurement
Table C-1 Mark II chord inactive conversion to Mark III data points
C-1
Table C-2
List of Figures
Daniel 3400 Series Gas Ultrasonic Flow Meter
Field Connection and CPU Board communication
CPU Board Frequency and Digital Output
Field Setup Wizard - HART Output Page
Daniel MeterLink Field Setup Wizard
Page
Section 1: Introduction
The following terms, acronyms, and abbreviations are used in this document:
Table 1-1Gas Ultrasonic Meter acronyms, abbreviations and definitions
Acronym or abbreviation
Definition
Highway Addressable Remote Transducer
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Figure 1-2Baseline viewer
Continuous Flow Analysis
•Abnormal profile
•Blockage
•Internal bore buildup
•Liquids present in the gas meter
[1]Gould Modbus Protocol Reference Guide, Rev. B, PI-MBUS-300
[1]
, Rev. B
PI-MBUS-300
Measurement of Fuel Gas By Turbine Meters
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Section 2: Product overview
Page
Page
Upper explosion-proofhousing
Figure 2-2Daniel Ultrasonic Gas Flow Meter Mark III Electronics
Lower intrinsically-safebase unit assembly
Base Unit
Figure 2-3CPU Board (switch-sideview)
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Page
Figure 2-8Mark III Acquisition Module
SeniorSonic
-located at ± 0.309 and ±
Two paths are located at
Figure 2-9SeniorSonicTM Model 3400 meter body
See Figure 2-10 SeniorSonicTM
•Path location:
all are located at ± 0.5-Rfrom the center of the meter
Figure 2-10SeniorSonicTM Model 3422 meter body
JuniorSonic
Figure 2-11JuniorSonicTM Model 3410 meter body
Figure 2-12JuniorSonicTM Model 3420 meter body
and 12-inch60o SeniorSonicTM meters
Figure 2-13 T-11(left) Transducer and T-12Transducer (right)
Figure 2-14 T-21(left) and T-22Transducer (right)
Table 2-1Transducer connection ports and number of transducers
Model
Page
Equation 2-1Meter capacity - reference conditions of pressure and temperature
=flow rate at reference conditions (Nm3/h; Scfh)
=flow rate at flowing conditions (m3/h; cfh)
=absolute pressure at flowing conditions (Pa; psia)
=absolute pressure at reference conditions (Pa; psia)
Table 2-2Temperature ranges for transducers, mounts and holders
Transducer type
Temperature range
Mount and holder type
Page
Digital input
Pressure and temperature analog inputs
frequency Outputs
The frequency and digital outputs are divided into two groups as follows:
•Group 1:FO1A, FO1B, DO1A, DO1B
Table 2-3Voltage level and drive capability per logic level (TTL)
Logic Value
Voltage Level
Drive Capability
Cable length TTL mode
Cable length open collector mode
Table 2-4Configurations for open collector frequency outputs
Cable
Pull-up
Total
Analog output(s)
CPU Board General Status Indicators
Page
Table 2-5CPU Board General Status Indicators
Label
Description
Color Indicator
CPU Board Communication Status Indicators
Table 2-6CPU Board Communication Status Indicators
Color
Activity
No Activity
Indication
Series 100 Plus Option Board General Status Indicators
Figure 2-19Series 100 Plus Option Board General Status LED Indicators
Table 2-8Series 100 Plus Option Board General Status Indicators
Option Board Communication Status Indicators
Figure 2-20Mark III Option Board Communication Status LED Indicators
Series 100 Plus Option Board Communication Status Indicators
Figure 2-21Series 100 Plus Option Board Communication Status LED Indicators
Table 2-10Series 100 Plus Option Board Communication Status Indicators
Table 2-11Supported Modbus Protocols
Modbus Protocol
Number of Start Bits
Number of Data Bits
Parity Type
RESTRICT ETHERNET AND SERIAL CONNECTIVITY USAGE
EQUIPMENT SAFETY
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Section 3: Installation
Page
DANGER TO PERSONNEL AND EQUIPMENT
Lifting a Daniel Ultrasonic Meter with other equipment
ONLY
CRUSHING HAZARD
LIFTING HAZARD
DOE-STD-1090-2004
HOISTING AND RIGGING
SHALL NOT
Figure 3-1Meter end flange with tapped flat-counterborehole for hoist ring
Plug Bolt
Flat-counterbore
surface
Figure 3-2Safety approved hoist ring and non-complianteye bolt
Safety engineered
Eye bolt
Swivel hoist ring
Figure 3-3Ninety degree angle between slings
Figure 3-4Incorrect sling attachment
Apply heavy lubricant or
•American Drill Bushing Company (www.americandrillbushing.com)
•Carr Lane Manufacturing Company (www.carrlane.com)
•Fastenal (www.fastenal.com)
•Reid Tools (www.reidtool.com)
Table 3-1Daniel hoist ring part numbers
Table 3-3Hoist ring lookup table for Daniel Gas JuniorSonic Meters
Safety precautions using appropriate rated lifting slings on Daniel
Ultrasonic Meters
Figure 3-5Correct sling attachment
Figure 3-6Incorrect sling attachment
Figure 3-7Daniel Ultrasonic Gas meter body
Table 3-4Piping recommendations uni-directionalflow
Table 3-5Piping recommendations bi-directionalflow
EQUIPMENT HANDLING
Observe all precautionary signs posted on the equipment
Figure 3-8Daniel Mark III Ultrasonic Gas Flow Meter
Upper Housing
Base Enclosure and
Transducer Cables
Meter Body and
Figure 3-9Upper electronics enclosure security seals
Figure 3-10Upper enclosure wiring card
Figure 3-11Ground lug upper electronics enclosure
Figure 3-12Mark III base unit electronics
Table 3-6Acquisition board wiring
Acquisition board wiring
Figure 3-13Transducer Ports and Cables Base Unit
18 inches
HAZARDOUS VOLTAGE INSIDE ENCLOSURE
Do not open enclosure in flammable gas area. Disconnect all power to the meter
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Table 3-7J7 Port B Wiring
Power and Communications Field Connection Board Wiring
Figure 3-14Field Connection Board Ethernet Connector Wiring
Figure 3-15Port B Switch S1 Ethernet Settings
Table 3-8J2 Power
Table 3-9J3 Chassis Ground
Table 3-10J18 Digital Input
Table 3-11J11 Analog Output (AO1)
Power and Communications Series 100 Option Board Wiring
Table 3-12J12 Analog Input (AI1)
Table 3-13J12 Analog Input 2 (AI2)
Table 3-14J10 Analog Output Series 100 Plus Option Board (AO2)
Table 3-15J11 Analog Output Series 100 Plus Option Board (AO1)
Table 3-16J12 Analog Input Series 100 Plus Option Board (AI1)
Table 3-17J12 Analog Input Series 100 Plus Option Board (AI2)
Table 3-18J6 Port A
Table 3-19J7 Port B
Table 3-20J16 Port C
Table 3-21J8 Ethernet Port
Ethernet Port
RJ45 Connections
Field Conn Bd
Table 3-23Case Ground Jumper Settings
Table 3-24Digital Input Connector
Figure 3-16Daniel 3400 Series Gas Ultrasonic Flow Meter Wiring Switch Settings
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Figure 3-20CPU Board Switches
Figure 3-21Series 100 Option Board Switches
Figure 3-22Series 100 Plus Option Board Switches
Figure 3-23Field Connection board switches
Field Connection Board
CPU Board
Serial Communication Port Drivers
Port A Driver Configuration
Table 3-25Port A driver settings
Position
Table 3-26Port A RS-485full duplex settings
Table 3-27Port A RS-485half duplex settings
Port B Driver Configuration
Table 3-28Port B RS-232driver settings
Table 3-29Port B RS-485full duplex
Table 3-30Port B RS-485half duplex
Port C Driver Configuration
Table 3-31Port C RS-232settings
Table 3-32Port C RS-485half duplex
Figure 3-25CPU Board Frequency and Digital Output configuration switch banks
Group
S8Outputs
S9 Group
Outputs
Figure 3-26CPU Board Switch Banks S8 and S9
Switch Position
Output
CPU Board
Internally
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Page
Table 3-37Series 100 Option board Analog Out sink setting
Table 3-38Series 100 Option board Analog Out source setting
Table 3-39Series 100 Plus Option board Analog In 1 temperature sink setting
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Table 3-42Series 100 Plus Option board Analog In 2 pressure source setting
Table 3-43Series 100 Plus Option Board Analog Out 1 sink settings
Table 3-44Series 100 Plus Option Board Analog Out 1 source settings
Table 3-45Series 100 Plus Option Board Analog Out 2 sink settings
Table 3-46Series 100 Plus Option Board Analog Out 2 source settings
Table 3-47DHCP server settings
CPU Board Switch
DHCP Server Disabled
DHCP Server Enabled
Table 3-48CPU configuration protection switch
Figure 3-27Upper electronics end cap security seals
1.Rotate end cap clockwise fully closing and compressing the end cap seal
4.Adjust wire, removing all slack and seal. Remove excess wire
Figure 3-28Upper electronics housing to base unit security seal
3.Twist and adjust wire removing all slack and seal
4.Remove excess wire
Figure 3-29Transducer housing, cable nut and security seal
A.Transducer cable nut
B.Transducer cable chordset
C.Security wire seal
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Section 4: Optional features
•E-mail:tech.service@emersonprocess.com
•Also see, Daniel MeterLink Help|Technical Support
Eth1Key
LogAccessKey
GCKey
AGA10Key
Leaving the Key field empty or entering
will disable the feature once
is clicked
IsAnyKey- AboutToExpire
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Section 5: Startup and meter configuration
Table 5-1Daniel MeterLink setup wizards
Daniel MeterLink Setup Wizards
Wizard
Page
Page
Table 5-2Supported Modbus Protocols
Modbus
Number of Start
Number of Data
Number of Stop
Page
Table 5-3Data Points for Ethernet Port Configuration
Data Points, Options and Guidelines
Display Name
Ethernet Initial Connection Material Checklist
Daniel 3410 Series Gas Ultrasonic Flow Meter Ethernet adapter cable (Daniel P/N
•Personal computer (PC) configured as follows:
•Daniel MeterLink software installed (version 3.0 or higher)
•Ethernet LAN adapter
Figure 5-1Program directory
Figure 5-2Ethernet connections parameters
Figure 5-3Meter connect
11.After a connection to the meter is established, use the
menu path to access the
Figure 5-4Communications settings Ethernet port
Page
Serial port configurations
•ASCII Modbus (7 data bits, even or odd parity, 1 stop bit)
•RTU Modbus (8 data bits, no parity, 1 stop bit)
•TCP/IP
Table 5-4Data Points for serial ports configuration
Daniel MeterLink Display Name
IsHWFlowControlEnabledPortA
RS-232serial initial connection material checklist
RS-232serial initial connection steps
Configure the Mark III Port B for
Table 5-5Serial Port B RS-232Configuration Switch Settings
From Daniel MeterLink
8.Disconnect Daniel MeterLink from the Mark III meter
Disable the Port B override by setting CPU Board switch
RS-485serial initial connection material checklist
RS-485serial initial connection steps
Full Duplex operation
Table 5-6Serial Port A RS-485Full duplex configuration switch settings
Half Duplex operation
Table 5-7Serial Port A RS-485half duplex configuration switch settings
Table 5-8Serial Port B RS-485full duplex configuration switch settings
To configure Port B for
Table 5-9Serial Port B RS-485half duplex configuration switch settings
10.Disconnect Daniel MeterLink from the Mark III meter
Figure 5-5Writing Ethernet port communications settings
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•Meter units system
•Volumetric flow rate time
•Gage or Absolute Pressure type
Table 5-10Register reference help file
Register Topic
Conventions used for data points reference
•BaudPortA
•EnablePressureInput
options
InputPressureUnit:
Figure 5-6Write protected registers
The Mark III meter maintains a configuration checksum value
CnfgChksumValue
CnfgChksumDate
To view or edit a configuration in table format, use the Daniel MeterLink
•Temperature and Pressure Page Section
•Gas Chromatograph Setup Page Section
•AGA8 Setup Page Section
•Continuous Flow Analysis Page Section
•Update Time Wizard Section
PageDescription
Page
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Figure 5-7Field Setup Wizard - Startup Page (Series 100 Option Board)
Figure 5-8Field Setup Wizard - Startup Page (Series 100 Plus Option Board
Page
—Pipe outside diameter: Enter the outside diameter of the meter body
available for DFI boards running version 3.10 or later firmware
Table 5-12Enabling Meter Corrections
Table 5-13Enable Temperature/Pressure Meter Corrections Data Points, Source
- EnableTemperatureInput
- EnablePressureInput
5.Click the checkbox(s) to enable or disable the desired Meter Outputs:
•Frequency outputs
Figure 5-9Field Setup Wizard - General Page
Table 5-14Data Points for Meter Real-TimeClock
RTCSecondsSinceEpochSet
•Contract hour for daily log
3.Enter additional information as desired in the Notepad field
Figure 5-10Field Setup Wizard - Meter Frequency Outputs Page
Page
Figure 5-11Field Setup Wizard - Meter Current Outputs Page
1.From the Current Outputs Page, choose the desired settings:
• Content:
—Current output 1 Current output
•Direction:
Table 5-15Data Points for Analog (Current) Output Configuration
Page
Page
Figure 5-12Field Setup Wizard - HART Output Page (Series 100 Plus Option Board)
HART® Field Device Specification Guide: Daniel Gas Ultrasonic Meter
. If you want a different Primary variable, you will need to go back to the
and choose a different selection for its Content control for
a.Process Variable:
—Primary variable
Figure 5-13Field Setup Wizard - Digital Outputs Page
, choose the desired settings:
a.Digital output group 1A, 1B, 2A, and 2B
—For DO1AContent, choose Freq1 Validity (0) or Flow Direction (2)
—For DO1BContent, choose Freq1 Validity (0) or Flow Direction (2)
Figure 5-14Field Setup Wizard - Meter Corrections page
See the Notice above regarding support for Mark II Gas Ultrasonic Flow Meters
g.Pipe outside diameter: Enter the outside diameter of the meter body
Figure 5-15Daniel MeterLink Field Setup Wizard - Temperature and Pressure Page
The
is only displayed if the temperature and/or pressure is
(as selected in the earlier
page
To configure the
Table 5-16Live Temperature Inputs
Options and Guidelines
If Fixed was selected for
Table 5-17Fixed Temperature Inputs
To configure
Table 5-18Live Pressure Inputs
Table 5-19Fixed Pressure Inputs
button and Daniel MeterLink displays the
Figure 5-16Field Setup Wizard - Gas Chromatograph Setup page
c.GC baud rate: Select the baud rate for which the GC is configured
d.GC comms address: Enter the Modbus ID of the GC
g.GC heating value type: Select the type of heating value the GC will return
Figure 5-17Field Setup Wizard - AGA8 Setup page
page is only displayed if both temperature and pressure are set to
is selected in the earlier
page
). Configuring AGA8 parameters is necessary for obtaining the desired AGA8
1.From the Field Setup Wizard - AGA 8 Page, choose the desired settings:
•AGA8 calculations to be performed:
—Internally (by meter)
—Base temperature
—Base pressure
Click
and Daniel MeterLink displays the
Figure 5-18Field Setup Wizard - Continuous Flow Analysis
2.Click the Finish button to write the changes to the meter
Figure 5-19Meter Monitor - Baseline Viewer
Figure 5-20Daniel MeterLink Update Time Wizard
Daniel MeterLink Update Time Wizard (listed in the table below):
Table 5-21Data Points for Batch Cycle Processing, or Update Time Control
Page
Figure 5-21Calibration - Meter Factors Page
Page
Dry calibration
Table 5-22Data Points for Dry Calibration
Page
Wet calibration
•Piece-WiseLinearization (PWL) Method
•Polynomial Method
page:
Table 5-23Data Point for wet calibration method
Piece-Wiselinearization- wet calibration
Table 5-24Data Points for Piece-Wise linearization calibration
Polynomial Wet Calibration
Meter Factors page as shown in the table below:
Table 5-25Data Points for Polynomial Wet Calibration
menu
button
To create a Maintenance log
menu path. The Maintenance and Logs window displays
Figure 5-22Maintenance logs and reports
Figure 5-23Log file pathname
Figure 5-24Maintenance Logs and Reports - Data Collection
Table
Duration (mins):
Microsoft® Excel
Inspection Report
—Default view -TheTechnician view displays the following data:
Comma-SeparatedValues
Flow Pressure
Flow Temperature
Save meter configuration .cfg file
Comment
Meter Status Alarms
Page
Charts
Raw Data
Ultrasonic Meter Archive log types
Table 5-26Ultrasonic Meter Archive Log Types
Log type
Section 6: Meter operation
Page
Figure 6-4Update time, stack size, emission rate and filter
Sequence
Stack size
Emission rate
Stack emission rate
measure of the signal “goodness” is the
Stacking
Stacking is only available when the standard update rate is selected (see
below)
Filtering
Batch update period
Table 6-1Actual meter update period
1 (None)
BatchUpdatePeriod
Emission rates
Smoothing
IsAcqMode
Laird
SSMin
SSMax
⋅ tan
For all other port angles
PortAngleFactor
=chord average gas velocity (m/s) (FlowVelA ... FlowVelD)
=chord average sound velocity (m/s) (SndVelA ... SndVelD)
=chord “L” dimension (m) (LA ... LD)
Optional AGA10 sound velocity calculation and comparison
AGA10SndVel
AGA10SndVelStatus
Table 6-2AGA10 calculation status
Description
Equation 6-4Average weighted gas flow velocity
(AvgWtdFlowVel)
Average weighted flow velocity using chord proportions
MeterMaxVel
Equation 6-5Chord proportion calculation
Prop
chord proportion (dimensionless)
PropUpdt- Batches
Equation 6-6Updating chord proportion bin data values
Equation 6-7Estimating average flow velocity using proportion values
InterpPropchord
AvgWtdFlowVel
Re-acquisition
Equation 6-8 Dry-calibrationgas flow velocity
DryCalVel
FwdA0
RevA0
FwdA1
Equation 6-9 Wet-calibrationgas flow velocity
VWetCal = WetCalFunction(VDryCal)
wet-calibrationgas flow velocity (m/s) (AvgFlow)
WetCalFunction(x)
selected wet calibration function
Third-orderpolynomial
Equation 6-11Wet calibration - third-orderpolynomial
FwdC0
RevC0
FwdC1
⋅ 3600 s ⁄ hr
ExpCorrP = 1 + [3 ⋅ β ⋅ (Pabs, f – Pref)]
(1 + υ)] + [Din2 (1 – 2υ)]
ExpCorrT = 1 + [3 ⋅ α ⋅ (Tf – Tref)]
log⎛
Equation 6-18Reynolds number
Re = MAX
(PathFactor)
Re
MAX
Equation 6-19 Base-conditionvolumetric flow rate
PBase
TBase
ZBase
ZFlow
DoUpdtTrigDeltaVols
TrigDeltaPosVolFlow
TrigDeltaNegVolFlow
TrigDeltaPosVol- Base
TrigDeltaNegVolBase
1000dm3
1000kJ
The non-volatileenergy total data points are as listed in the table below:
Table 6-4Energy total data points
PosEnergy
PosEnergyFrac
NegEnergy
MassRateValidity
QFlowValidity
AGA8FlowCalcValidity
The non-volatilemass total data points are as listed in the table below:
Table 6-5Mass Total Data Points
Profile Factor
ProfileFactor
Swirl angle
SwirlAngle
•expansion correction
Data updates
) once per second
regardless of the input selection
(disabled, live, or fixed)
FlowPressure
The flow-conditionabsolute flow pressure is calculated as shown in Equation
Equation 6-23 Flow-ConditionAbsolute Pressure
InputPressureUnit = FALSE(Gage)
InputPressureUnit = TRUE(Absolute)
=flow-conditionabsolute pressure (MPaa) (AbsFlowPressure)
Click the Edit Scaling button to modify the input scaling
Fixed gas property data
MeasVolGrossHeatingVal
RefTemperatureHV
Table 6-7Fixed gas composition data points
Gas composition data points
Live (GC) gas property data
GCHeatingValueUnit
Table 6-8 GC-reportedgas composition data points
GC reported composition data points
“In-Use”gas property data
Fixed
Live - GC
Fixed value
HeatingValueInUse
NeoPentaneGC
PlusGC
NHexaneInUse
Table 6-10 C6+ breakdown to standard components by component ID
C6+ Component ID
external (0) with results specified to the meter (via the
•internal via Gross Method 1 (1)
•internal via Gross Method 2 (2)
•internal via Detail Method (3)
•None (4) (AGA8 calculations are not performed)
Frequency data content
Frequency data flow direction
Dir
except
Channel “B” operation on error
Frequency value data points
Freq1ChnlA
Freq1ChnlB
Freq2ChnlA
Freq2ChnlB
Frequency test mode
Table 6-12Data points for frequency outputs test
Freq1MaxFrequency or Freq2MaxFrequency data point
both
The following paragraphs describe the digital output configuration options
Digital output data content
DO1BContent
DO2AContent
DO2BContent
Digital output test mode
Table 6-13Data points for digital outputs test
range [1, 30 min] and has a default value of 2 min
(P/N 3-9000-754)for analog output configuration details
Analog output data content
Analog output data flow direction
AO1Content w
AO1Dir
AO1FullScaleEnergyRate
AO2FullScaleEnergyRate
AO1FullScaleMassRate
AO2FullScaleMassRate
Outputs test mode
Figure 6-5Meter Outputs Test page
because the frequency output is considered invalid during test mode
output
under test
timeout is set to two minutes
Outputs are driving live values
DI1IsInvPolarity
The value of the input is accessible via the DI1 data point
Also, refer to the Daniel website:
http://www2.emersonprocess.com/EN-US/BRANDS/DANIEL/FLOW/Pages/Flow.aspx
For backward compatibility to the Mark II, Modbus registers within the range
For Modbus access information for a particular data point, consult
Table 6-15Gas Chromatograph Sim 2251 Registers
Sim 2251 Register
GCSerialPort
–protocol (GCProtocol)
GCProtocol
–baud rate (GCBaud)
GCBaud
IsGCComErr
GCCommStatus
Table 6-16GC Communication status list
GCComm status value
Error description
AreGasPropertiesInvalidGC
Table 6-17 GC-readgas property invalid conditions
Condition
Data Point
siredStreamTimeout)
Manual of Petroleum Measurement Standards
Daily and hourly log data point actions
•Snapshot:causes the data point’s value at the log time to be recorded
ContractHour
Table 6-18Daily log content
Log action
PosVolFlow
NegVolFlow
PosVolBase
Table 6-18Daily log content (Continued)
PrevDayMacro1*:
PrevDayMacro2*:
Page
MethaneInUse
N2InUse
CO2InUse
EthaneInUse
PropaneInUse
DoOverwriteUn- readHoulyLog
IsHourlyLogFull
Table 6-19Hourly log content
Log Action
PosVolFlow
RhoMixFlow
ZFlow
ZBase
Page
DoOverwriteUnreadAuditLog
IsAuditLogFull
The groupings are as follows:
•AGA8
•Calibration
Table 6-20Audit log content
Data group
Data point
CalFlag
EnableExpCorrPress
Page
General
AvgSoundVelHiLmt
AvgSoundVelLoLmt
DeviceNumber
MaxNoDataBatches
Indicators
DidColdStart
Page
InputPressureUnit
Signal Processing
Determining meter power-upand power-downtimes
PowerFailTime
DoOverwriteUnreadAlarmLog
IsAlarmLogFull
Table 6-21Alarm log non-booleandata points monitored
Low Alarm Limit
High Alarm Limit
MeterMaxNegVel
Table 6-22Alarm log boolean data points monitored
Boolean Alarm Limit
Page
DoOverwriteUnreadSystemLog
IsSystemLogFull
The System log is for Daniel use and interpretation
•daily
•hourly
Collecting and viewing log records
Three log formats are available:
Page
Backup Upgrade
In Daniel MeterLink, use the
menu and select
Figure 6-6Program settings dialog FTP-onlyconnection
2.Click the OK button to close Program Settings dialog
Communications cable between two computers
Figure 6-7Port A and B direct connection settings
•Click the OK button and you will be prompted to Attempt FTP-onlyconnection …
•Click the Yes button and if successful, Daniel MeterLink displays the message
Next, use the
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Section 7: Maintenance and troubleshooting
Figure 7-1 J-MountTransducer Assembly
Page
Page
•Transducers are always replaced in pairs
Table 7-1 Tools and supplies for disassembly and assembly
Table
Tool list, shop supplies and reference documents
Shop supplies
Procedure
1.Blow the line down according to the site standard operating procedures
Meters with
If the meter is equipped with
Note
9.Clean the transducer holder with a dry cloth
2.Apply a small amount of Molykote 111to the female contacts on the transducer
Figure 7-6Transducer holder, stalk and transducer assembly
A. Transducer holder
B.Stalk
Figure 7-7 M-mountcover and chordset with “V” arrowhead mark
A.Mount cover captive screws
B.Mount cover “V” alignment arrowhead
C.Chordset “V” alignment arrowhead
A. B
C. Mount and holder
D. Transducer port (meter body)
100 oC - 5’ length P/N 2-3-3400-190)
100 oC -15’length (P/N
Page
and a Configuration file
Average Delay Time and Delta Delay Time Modifications
Determining the “L” Value
Figure 7-9Daniel MeterLink Transducer Swap-outWizard
•Acquisition board (Base unit)
•CPU board (Upper Explosion-proofHousing Assembly)
•I.S. Interface board (Upper Explosion-proofHousing Assembly)
•Field Termination board (Upper Explosion-proofHousing Assembly)
•Series 100 Option board or Series 100 Plus Option Board (Upper housing)
Tools> Menu>Communications Analyzer menu path
0047-0001,Rev D. This manual may be downloaded from the following location:
AMS™ Books Online
•Ethernet Connections
•Direct Serial Connections
Direct Serial Connections
Files do not appear in workbook
Microsoft® excel® log/export options are not available
Maintenance logs or trend files are not created
Figure 7-10Excel® Tools Menu
Windows 2000 Excel® Menu
checkbox and click the
button to apply your selections
Figure 7-11Excel® Trusted Access Setting
Service Pack
Known Issue
For English North American versions of Windows®
For All Other Versions of Windows®
http://support.Microsoft.com/default.aspx?scid=kb;[LN];824301
Windows® 2000 Service Pack 4 and the Security Update for
Windows® Hotfixes
Figure 7-12Meter Monitor Status Alarms
Figure 7-13Meter Monitor Status Summary
Table 7-3Chord alarms
LED Color
Problem
Table 7-4Maintenance log collection
Collection rate
Maximum Duration (based on 3600 records)
menu path
Figure 7-14Maintenance Logs and Reports Dialog
Figure 7-15Log collection parameters
Format|Column|Unhide
Figure 7-16Excel custom view settings
Figure 7-17Maintenance logs and reports start dialog
Figure 7-18Speed of Sound dialog
Figure 7-19Log complete dialog
Figure 7-20Microsoft® Excel report view toolbar
Figure 7-21Microsoft® Excel charts view
Figure 7-22Microsoft® Excel inspection report view
Figure 7-23Microsoft® Excel Speed of Sound View
Figure 7-24Microsoft® Excel Meter Config View
Figure 7-25Microsoft® Excel Raw Data View
Appendix A Conversion factors
Conversion factors
Appendix B Miscellaneous equations
3600 ⋅ π s ft2
=Vft ⁄ s ⋅ D2in ⋅ 19.63495((s ft2) ⁄ (hr in2))
πDm2
= Vm ⁄
(s ⁄ hr)
Equation B-5Chord “L” Dimension
Page
Appendix C Upgrading a Mark II to a Mark
. The SeniorSonic™ Mark III meter
12-P
. The Mark III offers two
independent
"B
XML
Modbus-readable
for remote monitoring
database point
the file size (MARK III Modbus Table 386KB.xls)
Section C.4 below
optionally accessible via Daniel MeterLink (see Section 6.6.6)
AvgDlyA
AvgDlyD
DltDlyA
DltDlyD
SystemDelay
=(A0 + (A1 ⋅ BG ⋅ vAvgWtd) + (A2 ⋅ BG2 ⋅ vAvgWtd2) + (A3 ⋅ BG3 ⋅ vAvgWtd3))
Mark III Calibration
Equation C-4Mark III Application of the “A” Polynomial Coefficient
Equation C-5Mark III Application of the “C” Polynomial Coefficient
Calibration Parameter Conversions
Converting Mark II “BG” and “A” Polynomial Coefficients
⋅ BG
⋅ BG2
GaindB = 20 ⋅ log(GainHardware)
StackEmRateDe- sired
The Mark II ChordInactv (bitfield) parameter is converted to the Mark
IsInactiveA...IsInactiveD data points as follows:
Table C-1Mark II chord inactive conversion to Mark III data points
Mark II ChordInactv
Mark III Data Point
The Mark III, like the Mark II, provides two frequency output pairs:
•Freq1A and Freq1B
•Freq2A and Freq2B
•FreqFlowRateCondition is copied to Freq1Content and Freq2Content
is copied to
EnableTem- peratureInput
LogDateTimeFormat
LogDailyVolumeFormat
LogHourlyVolumeFormat
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•bring up DOS prompt window (Start->Run->(type)cmd)
•in the DOS prompt window, type ipconfig
You should then see something like:
If you get the following:
To ensure connection to the Mark III from the PC, at the DOS prompt type:
If the Mark III meter is reachable, then you will see a message like:
etc
If the Mark III is not reachable, then you will see something like:
Table D-1Mark III Mechanical/Electrical Troubleshooting
Solution(s)
See
Appendix I)
see Appendix E
(see Appendix E)
Note that the outside chord cables cannot be exchanged with inner
chord cables
Appendix E Meter setup and configuration worksheet
Wiring and Connections
• Section 5.1 through Section
Section 3.4, Figure 3-14,and
Section 5.4.1, Section 5.4.2
and Section
Figure
• Table 3-25 and Figure
• Table 3-26 and Figure
• Table 3-27 and Figure
• Table 3-28 and Figure
• Table 3-20, Table 3-31
“Port C
Driver Configuration” on
• Table 3-32
• Section 3.5.2, Figure 3-25
Daniel MeterLink Software Startup and Meter Configuration
• Table
through
• Section
• Section 5.7.2 and Section
• Table 5-23 to Table
E-2
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“Open Collector”
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(see note above)
Bidirectional:
FO2A pulses
is in the
forward direc
tion
(see note below)
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Appendix F Flow rate summary charts
(MSCMH) B
Flow Rates (MMSCFD) Based Upon 100 ft/s
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Section 3.5.8)
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Appendix H Open source licenses
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GNU GENERAL PUBLIC LICENSE
Preamble
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Reserved except as specified below
(1)
(3)
Appendix I Engineering drawings
Engineering drawings
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Appendix J Index