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MEASUR-Tools-Suite v1.0.11
The MEASUR Tools Suite is a collection of industrial efficiency calculations written in C++ and with bindings for compilation to WebAssembly.
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This calculator implements the bag method, a practical field technique for measuring compressed air leaks. A measurement bag (typically a trash bag with a known volume) is placed over the leak point and the time required for the bag to fill completely is recorded. The fill time and bag volume together yield the volumetric flow rate of the leak. This method is the second most accurate field technique for measuring compressed air consumption, after inline flow meters.
The bag method is commonly used in compressed air leak surveys to quantify individual leak points that cannot be instrumented with a flow meter. It requires only a pre-measured bag and a stopwatch, making it well suited for difficult-to-access leak locations. The annual consumption estimate is derived by scaling the instantaneous leak rate by system operating hours, enabling the economic impact of each leak to be estimated directly.
Procedure:
The calculation methods are:
Relevant formulas are documented below.
Instantaneous compressed air leak flow rate from bag volume and fill time.
The leak flow rate is determined by dividing the pre-measured bag volume by the time required to fill the bag, with the fill time converted from seconds to minutes. This gives the volumetric flow rate of the leak in standard cubic feet per minute (scfm), at approximately standard atmospheric conditions.
The formula assumes that the bag is held snugly over the leak and that all leaked air enters the bag (no bypass). Fill times under 5 seconds reduce accuracy because reaction-time measurement error becomes significant; fill times over 60 seconds are generally unnecessary since a smaller bag should be used for those cases.
\begin{equation}\label{eq:bag-method-flow-rate} Q_{leak} = \frac{V_{bag} \cdot 60}{t_{fill}} \end{equation}
| \(Q_{leak}\) | Compressed air leak flow rate \([\unit{ \scfm}]\) |
| \(V_{bag}\) | Pre-measured volume of the measurement bag \([\unit{ \cubicFoot}]\) |
| \(t_{fill}\) | Time for the bag to fill with leaked air \([\unit{ \second}]\) |
| \(60\) | Seconds per minute conversion \([\unit{ \second\per\minute}]\) |
Estimated annual air consumption from a compressed air leak measured by the bag method.
Annual air loss is computed by scaling the instantaneous leak flow rate by the annual system operating time, converting from standard cubic feet to kiloscf. The factor of 60 converts operating hours to minutes so the units are consistent with the flow rate in scfm. The factor of 1000 converts standard cubic feet to kiloscf, a more practical unit for annual volumes.
\begin{equation}\label{eq:bag-method-annual-consumption} C_{annual} = \frac{Q_{leak} \cdot t_{op} \cdot 60}{1000} \end{equation}
| \(C_{annual}\) | Estimated annual air loss from the leak \([\unit{ \kscf}]\) |
| \(Q_{leak}\) | Compressed air leak flow rate \([\unit{ \scfm}]\) |
| \(t_{op}\) | Annual system operating time \([\unit{ \hour}]\) |
| \(60\) | Minutes per hour conversion \([\unit{ \minute\per\hour}]\) |
| \(1000\) | Standard cubic feet per kiloscf conversion \([\unit{ \unitless}]\) |
Modules | |
| Bag Method Flow Rate Formula | |
| Instantaneous compressed air leak flow rate from bag volume and fill time. | |
| Bag Method Annual Consumption Formula | |
| Estimated annual air consumption from a compressed air leak measured by the bag method. | |
Files | |
| file | bag_method.h |
| Declarations for the bag method compressed air leak flow rate measurement. | |
Namespaces | |
| namespace | bag_method |
| Compressed air leak flow estimation using the bag fill-time method. | |
Classes | |
| struct | bag_method::Input |
| Input parameters for the bag method compressed air leak calculation. More... | |
| struct | bag_method::Result |
| Result of the bag method leak flow rate calculation. More... | |
1.9.8