Difference between revisions of "OptiFracMS"
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For the given set of reservoir properties and the proppant mass it calculates optimal number of transverse hydraulic fractures and required fractures geometry to maximize well productivity index. | For the given set of reservoir properties and the proppant mass it calculates optimal number of transverse hydraulic fractures and required fractures geometry to maximize well productivity index. | ||
| − | [[File:OptiFracMS_i.png|thumb|right|200px|link=https://www.pengtools.com/ | + | [[File:OptiFracMS_i.png|thumb|right|200px|link=https://www.pengtools.com/optiFracMS|pengtools optiFracMS]] |
== Typical applications == | == Typical applications == | ||
| − | * | + | * Multi Stage Fracture Design |
* Design Sensitivity Studies and Benchmarking | * Design Sensitivity Studies and Benchmarking | ||
* Optimum fracture design parameters determination: | * Optimum fracture design parameters determination: | ||
| + | ** Number of fractures, '''''n'''''. | ||
** Dimensionless productivity index, '''J<sub>D</sub>''' . | ** Dimensionless productivity index, '''J<sub>D</sub>''' . | ||
** Dimensionless Fracture conductivity, '''C<sub>fD</sub>''' . | ** Dimensionless Fracture conductivity, '''C<sub>fD</sub>''' . | ||
| Line 21: | Line 22: | ||
== Main features == | == Main features == | ||
| − | * Plot of '''J<sub>D</sub>''' as a function of ''' | + | * Plot of '''J<sub>D</sub>''' as a function of '''''n''''' and '''N<sub>p</sub>''' as parameter. |
| − | * Plot of '''J<sub>D</sub>''' as a function of | + | * Plot of '''J<sub>D</sub>''' as a function of '''N<sub>p</sub>''' showing the width constraint influence. |
| − | * Design optimization | + | * Plot of '''J<sub>D</sub>''' and '''''w''<sub>f</sub>''' as a function of '''''n''''' for the given '''N<sub>p</sub>''' . |
| − | * | + | * Plot of '''J<sub>D</sub>''' as a function of '''C<sub>fD</sub>''' for the given '''''n'''''. |
| − | * | + | * Design optimization curves which corresponds to the maximum '''J<sub>D</sub>''' values for different '''N<sub>p</sub>''' and '''''n'''''. |
| − | * Proppant library with predefined proppant properties | + | * Optimum number of fractures '''''n''''' and well '''J<sub>D</sub>'''. |
| − | + | * Practical constrains envelope – minimum fracture width and choke skin effect. | |
| + | * Sensitivity for the different from the optimal '''''n''''', ''X<sub>f</sub>''', ''I<sub>x</sub>''', '''C<sub>fD</sub>''', '''''w''<sub>f</sub>'''. | ||
| + | * Proppant library with the predefined proppant properties. | ||
== Interface features == | == Interface features == | ||
| Line 39: | Line 42: | ||
== References == | == References == | ||
| − | + | Vyacheslav Guk, Mikhail Tuzovskiy, Don Wolcott, Joe Mach (2015) Optimizing Number of Fractures in Horizontal Well. SPE-174772-MS. | |
[[Category:optiFracMS]] | [[Category:optiFracMS]] | ||
[[Category:pengtools]] | [[Category:pengtools]] | ||
| + | |||
| + | {{#seo: | ||
| + | |title=optiFracMS - Multistage Hydraulic Fracture Design Optimization Software | ||
| + | |titlemode= replace | ||
| + | |keywords=hydraulic fracturing, hydraulic fracturing formulas, optimization, horizontal well, proppant, petroleum engineering, optimum | ||
| + | |description=optiFracMS - Multistage Hydraulic Fracture Design Optimization Software | ||
| + | }} | ||
Latest revision as of 07:55, 7 December 2018
Brief
optiFracMS is a tool to optimize the number of hydraulic fractures in horizontal well.
For the given set of reservoir properties and the proppant mass it calculates optimal number of transverse hydraulic fractures and required fractures geometry to maximize well productivity index.
Typical applications
- Multi Stage Fracture Design
- Design Sensitivity Studies and Benchmarking
- Optimum fracture design parameters determination:
- Number of fractures, n.
- Dimensionless productivity index, JD .
- Dimensionless Fracture conductivity, CfD .
- Fracture half length, Xf .
- Fracture width, w .
- Fracture penetration, Ix .
Main features
- Plot of JD as a function of n and Np as parameter.
- Plot of JD as a function of Np showing the width constraint influence.
- Plot of JD and wf as a function of n for the given Np .
- Plot of JD as a function of CfD for the given n.
- Design optimization curves which corresponds to the maximum JD values for different Np and n.
- Optimum number of fractures n and well JD.
- Practical constrains envelope – minimum fracture width and choke skin effect.
- Sensitivity for the different from the optimal n, Xf, Ix, CfD, wf.
- Proppant library with the predefined proppant properties.
Interface features
- Save and share models with colleagues
- Last saved model on current computer and browser is automatically opened
- Metric and US oilfield units
- Save as image and print plots by means of chart context menu (button at the upper-right corner of chart)
- Download pdf report with input parameters, calculated values and plots
- Select and copy results to Excel or other applications
References
Vyacheslav Guk, Mikhail Tuzovskiy, Don Wolcott, Joe Mach (2015) Optimizing Number of Fractures in Horizontal Well. SPE-174772-MS.
