Monitor, Verify and Trust.

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  • Windsor, Colorado

  • United States

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  • support@copious.com

  • Manhattan Hall,

  • Copious Melbourne, New Yourk

  • 08:00 - 16:30

  • Monday to Saturday

  • +1(123) 456 567

  • support@copious.com

  • Manhattan Hall,

  • Copious Melbourne, New Yourk

  • 08:00 - 16:30

  • Monday to Saturday

Case Study

If it Isn’t Broke Don’t Fix It!

This is a more economical maintenance practice, makes technicians more efficient, and is safer. Don’t break containment if it’s not absolutely necessary.

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Case Study | Orifice | Differential Meter Prognosis
Reduced Routine Scheduled Maintenance

The results assure the end user that the orifice meter is fully serviceable and does not require maintenance.

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Case Study | Orifice | Differential Meter Prognosis
UK Central Acquisition Terminal Service

A primary use of flow meter verification systems (powered by diagnostic systems) is to assure the flow meter is operating correctly.

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Case Study | Orifice | Differential Meter Prognosis
Orifice Meter Prognosis

Due to a mass balance issue, a natural gas station operator suspected a 12" 0.496 beta orifice meter was giving erroneous readings.

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Case Study | Orifice | Differential Meter Prognosis
GDF SaltEnd Power Station

Orifice Meter with Erroneous DP Reading, Power Station, 12” Orifice Meter.

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Case Study | Orifice | Differential Meter Prognosis
Contamination(Orifice)

Prognosis was installed on a 6”, 0.60 beta natural gas station Orifice Meter, The diagnostic response indicated a metering problem.

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Case Study | Orifice | Differential Meter Prognosis
ConocoPhilips / Rosneft “Polar Lights” Field

Due to a mass balance issue, a natural gas station operator suspected a 12" 0.496 beta orifice meter was giving erroneous readings.

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Case Study | Orifice | Differential Meter Prognosis
Geometry Error and Contamination

Prognosis was installed on a 4”, sch 40,0.4 beta orifice plate union meter in a natural gas station.

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Case Study | Orifice | Differential Meter Prognosis
Wet Gas Venturi

A 10” 0.4 beta Venturi meter was calibrated to be Prognosis ready (see Figure), This meter was installed offshore

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Case Study | Orifice | Differential Meter Prognosis
Geometry Error(Venturi)

Prior to meter installation on a North Sea offshore platform, during calibration Prognosis detected an error in the 8" 0.4 beta keypad entered meter geometry.

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Case Study | Venturi | Differential Meter Prognosis
CoVor Meter Case Study

The CoVor meter measures the fluid density as well as the mass flow. CoVor meters were installed on a oil truck’s loading and unloading line (see Figures 1 and 2). As the oil is of varying grade / density it was important to be able to meter the mass flow and fluid density. The oil truck is an extremely adverse metering environment with short meter runs, severe meter vibration during off road transit, intermittent flows, and varying fluid densities.

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Case Study | Cone | CoVor
Saturated Steam CoVor Meter at Boiler Outlet

A boiler operator had the quality setting at 72%. Apart from trusting the boiler manufacturer’s specifications, the only way of checking the boiler outlet quality was the traditional laborious manual method of periodically comparing the boiler inlet and outlet water sample relative salinities.

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Case Study | Cone | CoVor
Saturated Steam CoVor Meter at Oil Pad Injection Site

An oil field operator using Enhanced Oil Recovery (EOR) saturated steam injection wished to improve the control of steam quality injection. Optimal production requires precise control of the saturated steam quality. However, traditional methods of estimating the steam quality were rudimentary so the operator wished to test the CoVor meter’s ability measure the quality.

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Case Study | Cone | CoVor
Tire Manufacturer Reduces Costly Product Losses with CoVor™

Significantly reduced costly product losses due to improper curing. Increase manufacturing throughput by reducing energy costs. Identifiy and correct problem areas in steam piping.

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Case Study | Cone | CoVor