Deconvolution (2005-2008)
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With current trends towards intelligent wells and fields, continuous bottomhole well pressure monitoring is becoming the norm in new field developments. Theoretically, this should allow operators to better control well performance and address problems before they become irreversible. In practice, the need to interpret the raw information provided by permanent gauges, and the lack of manpower or expertise for doing so prevents real time intervention. Therefore, some sort of automatic interpretation and alarm system is required to benefit from the full potential of downhole permanent gauges.
A new deconvolution algorithm developed at Imperial College by von Schroeter, Hollaender and Gringarten, makes the development of such tools possible. Deconvolution converts pressures at variable rates into pressures at constant rates, thus making more data analysable. Contrary to deconvolution algorithms previously published in the literature, our algorithm provides stable results. Extensive usage at Imperial and, independently, at BP, has confirmed its huge potential for well test analysis of permanent pressure gauges: deconvolution provides information over a radius of investigation that corresponds to the total duration of the production period, which can be orders of magnitude greater than that available from individual flow periods used for conventional well test analysis. Alternatively, deconvolution can reduce considerably the required duration of an extended well test, by revealing boundaries not visible in individual flow periods.
Experience with our algorithm has identified a number of areas for improvement, most notably the need to handle interference effects in highly permeable formations. The objective of this proposal is to address these issues in order to obtain a robust deconvolution algorithm that can be used with confidence by practicing engineers in a wide variety of field conditions to control and optimise well performance.
Attachment | Size |
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Deconvolution Research Proposal 2005-2007 Ch.pdf | 62.87 KB |
Publications
SPE number | Title | Year |
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SPE122299 | Well Production Forecasting by Extrapolation of the Deconvolution of Well Test Pressure Transients | 2009 |
SPE116575 | The Determination of Minimum Tested Volume from the Deconvolution of Well Test Pressure Transients | 2008 |
SPE110465 | Superposition Principle and Reciprocity for Pressure Transient Analysis of Data from Interfering Well | 2007 |
SPE102079 | From Straight lines to Deconvolution: the Evolution of the State of the art in Well Test Analysis | 2006 |
SPE71574-77688 | Deconvolution of Well test Data as a Non-linear Total Least Square Problem | 2004 |
SPE84470 | Use of downhole permanent pressure gauge data to diagnose production problems in a North Sea horizontal well | 2003 |
SPE77688 | Analysis of Well Test Data From Permanent Downhole Gauges by Deconvolution | 2002 |
SPE71574 | Deconvolution of Well Test Data as a Nonlinear Total Least Squares Problem | 2001 |
PhD Theses
MSc Theses
Title | Author | Year |
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Well Production Forecasting Using Deconvolution Of Pressure Transient Data | Hui Jiang | 2008 |
Application of Deconvolution on Gas Fields in Shell Nigeria and its Impact on Proved Reserve Estimates | Ijeoma Oragui | 2007 |
Well Test & Deconvolution Analyses of Gas Condensate Reservoirs for BP Algeria | Olivier Pippi | 2006 |
Use of Deconvolution to Improve the Reservoir Behaviour Understanding of Some Gas Condensate Reservoirs in Britannia | Jean-Baptiste Berchoteau | 2006 |
Deconvolution Analysis of a Horizontal Gas Condensate Well | Thabo Kgogo | 2005 |
Production Data Analysis | Syed Banoori | 2005 |
Assessment of the Deconvolution Method as an Automatic Tool in Well Test Analysis | Nicolas Guilloneau | 2004 |