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Gas-Leak

GOWLeakCalc (GOW = Gas-Oil-Water) provides quick and accurate estimates of leak-rates of Natural Gas, Crude Oil or Water from piping and equipment given hole-size (or seal-leak) with given operating pressure and temperature, assuming the leak is to the atmosphere

GOWLeakCalc (GOW = Gas-Oil-Water) provides quick and accurate estimates of leak-rates of Natural Gas, Crude Oil or Water from piping and equipment given hole-size (or seal-leak) with given operating pressure and temperature, assuming the leak is to the atmosphere

Gas-Leak

by Bjarne Berge
Gas-Leak
Gas-Leak
Gas-Leak

What is it about?

GOWLeakCalc (GOW = Gas-Oil-Water) provides quick and accurate estimates of leak-rates of Natural Gas, Crude Oil or Water from piping and equipment given hole-size (or seal-leak) with given operating pressure and temperature, assuming the leak is to the atmosphere.

Gas-Leak

App Details

Version
7.0
Rating
(1)
Size
9Mb
Genre
Productivity Utilities
Last updated
February 17, 2021
Release date
March 1, 2017
More info

App Screenshots

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App Store Description

GOWLeakCalc (GOW = Gas-Oil-Water) provides quick and accurate estimates of leak-rates of Natural Gas, Crude Oil or Water from piping and equipment given hole-size (or seal-leak) with given operating pressure and temperature, assuming the leak is to the atmosphere.
The GOWLeakCalc app is provided as a tool for use in an onshore plant or offshore oil and gas installation. The app gives quick and accurate estimates of leak rates of gas and oil from piping and equipment cracks, holes, seals directly on your iPhone without having to run simulations on a desktop/laptop computer.

For natural gas the assumption is that the pressure difference across the leak-point (hole) is large enough to cause critical flow across the hole. Flow-rate is calculated based on restriction orifice correlations, i.e., sonic velocity exists at the leak-point orifice and further decrease in the upstream and downstream pressures ill not change the leak-rate. 

For natural gas, the app also displays a table of expected fugitive emission rates from equipment based on a publication by the Canadian Association of Petroleum Producers (CAPP) and a description of where leaks are likely occurring for each piece of equipment.

For liquids, critical (choked) flow occurs when a cavitation barrier exists across the leak-point (hole) and the downstream pressure (atmospheric) is below the liquid vapor pressure. At this point the liquid will start to flash into bubbles of vapor. For crude oil below about 35 degree and water, the vapor pressure will normally be less than atmospheric pressure. Therefore, in this app, if vapor pressure is found to be lower than atmospheric pressure, the flow-rate is calculated based on control valve pressure drop calculations as defined in the documentation of the app (download from URL).

The app also lets the user select US-Customary or SI-Metric units.

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