uCFlowCal Flow Calculation | Xybernetics Inc.

µCFlowCal

XynetSCADAµCFlowCal is a an embedded flow calculation solution that enables gas and liquid flow measurement of up to ten flow runs. µCFlow supports concurrent AGA3 (for orifice plate; gas), AGA7 (for turbine meter; liquid) and V-Cone/Wafer-Cone flow measurements with AGA8 for compressibility calculations.

Along with the flow calculation solution, we also provides data acquisition tools in this solution (at no cost) to allow operations acquire all the necessary data they need to complete their daily task.

For further information contact us today.Compliance to Restriction of Hazardous Substances Directive 2002/95/EC (RoHS)Compliance to UL 508 (Industrial Control Equipment)Suitable for use in Class I, Division 2, Groups A, B, C and D Hazardous Locations (CSA Std. C22.2, No 142, 213)

 

General
CPU Toshiba S1X643034
Core Processor ARM920T
Speed 400 MHz
RAM 64MB
Solid State Drive Space 512MB
Supply Voltage 6VDC - 15VDC
Supply Current 13mA - 500mA
Power Consumption 1.2W - 16.2W (depending on number of USB port usage, 2.5W per USB)
Operating Temperature -40°C to 70°C
Hazardous Location Suitable for use in Class I, Division 2, Groups A, B, C and D Hazardous Locations.
Temperature Code T4 CSA certified to the req of CSA Std. C22.2, No 142, 213
ANSI/ISA 12.12.01-2000 for Hazardous Locations Certification
UL 508 (Industrial Control Equipment)
Flow Computer
Number of concurrent meter runs 10
Flow algorithms AGA-3 (1992/2000)
AGA-7
V-Cone
Wafer Cone
Compression calculations AGA-8 (1992)
Energy calculation GPA2172
AGA-5
Calculation speed Once per second
Event Log 40 days of audit trails (configurable)
Reports Daily Report
Monthly Report
Meter Report (As Found/As Left)
Snapshot Report (On Demand by User)
Standards and compliance tested American Gas Association (AGA)
American Petroleum institute (API) 21.1
Alberta Energy and Utilities Board (AEUB) Directive 17
Data Access Tool
Configuration Microsoft Internet Explorer 7.0 or higher
Firefox 14 or higher
Safari 4 or higher
Or any internet browser
Calculated Data Microsoft Internet Explorer 7.0 or higher
Firefox 14 or higher
Safari 4 or higher
Or any internet browser
Event Log Microsoft Internet Explorer 7.0 or higher
Firefox 14 or higher
Safari 4 or higher
Or any internet browser
Reports Microsoft Internet Explorer 7.0 or higher
Firefox 14 or higher
Safari 4 or higher
Or any internet browser
Event and Report File Format Comma Separated Values (CSV)
Required Operating System (OS) Any OS
Additional Information User can configure, monitor and access (import/export) flow
calculation data and configuration parameters
remotely (from their laptop, operating room, HMI
server room or engineering workstations).
Miscellaneous
Security Login required to configure flow parameters.
Event log tracks user change(s)
Time Sync Capability Able to configure/sync time though the
web configuration tool
Maintenance Mode Maintenance mode is available for the purpose of testing and loop checking
Communication Port
Ethernet Port (RJ45, 10/100BaseT) 1
RS-485 (configurable) 6
RS-232 (configurable) 6
Wi-Fi Allows for 255 mobile devices (e.g. laptop, smart phone and tablet) connections
Communication Protocol
Protocols Modbus TCP (Ethernet)
Modbus RTU (serial RS232 and/or RS485)
Baudrate 300, 600, 1200, 2400, 4800, 9600, 19200, 38400, 57600 and 115200
Web Services
Services Hypertext Transfer Protocol (XyberHTTP)
Secure File Transfer Protocol (XyberSFTP)
Dynamic Host Configuration Protocol (XyberDHCP)
Physical Dimension
Size 3.4"(86.36mm) wide, 5.5"(139.70mm) deep, 1.33"(33.78mm) high
Application
Flow measurement in wellhead
Pipeline leak detection
Energy consumption measurement
Gas and liquid totalisation

uCFlowCal supports wide variety of multi-variable transmitters to acquire instantaneous differential pressure, static pressure and flow temperature.

The following are some sample communication network setup that can be used with uCFlowCal controller.

Solution 1 Solution 2 Solution 3 Solution 4
Flow Calculation Radio PLC XynetSCADA Mobile App

uCFlowCal works with all end device that has Modbus TCP or RTU (both RS232 and RS485) communication available.
These are the following multivariable transmitter has been tested and proven to be working with uCFlowCalc controller.

  • Rosemount 3095 Multivariable Transmitter
  • Rosemount 3051S Multivariable Transmitter
  • ABB Multivariable Transmitter 267CR
  • ABB Multivariable Transmitter 269CR
  • ABB Multivariable Transmitter 267CS
  • ABB Multivariable Transmitter 269CS
  • Bristol 3808-10A Multivariable Transmitter
  • Bristol 3808-30A Multivariable Transmitter
  • Thermo Scientific AutoMITTER PRO Smart Multivariable Transmitter


Secured Web Based Flow Calculation Setup
Secured Web Based Flow Calculation Setup
Secured Web Based Flow Calculation Setup
XynetSCADA
XynetSCADA
XynetSCADA

Testing AGA3 and AGA8 using AER Directive 17 Test Case #1

Testing AGA3 and AGA8 using AER Directive 17 Test Case #2

Testing AGA3 and AGA8 using AER Directive 17 Test Case #3

Testing AGA3 and AGA8 using AER Directive 17 Test Case #4

Testing AGA3 and AGA8 using AER Directive 17 Test Case #5