Affiliation:
1. Gaffney, Cline & Associates (Consultants) Pte Ltd, 80 Anson Road #31-01C, Fuji Xerox Towers, Singapore 079907 (e-mail: pworthington@gaffney-cline.com)
Abstract
AbstractBy-passed pay can occur at or between wells. Either way, it constitutes a lower risk prospect than hydrocarbon accumulations in unappraised areas. Beyond this, there are three contemporary drivers for its exploitation. First, new technology in the form of sharper reservoir imaging allows insights that were not achievable previously. Second, an evolving understanding of how reservoirs work has led to improved procedures for maximizing the exploitation of even the most problematic accumulations. Third, market forces amid global post-peak production fears are giving the incremental development of by-passed pay an even greater commercial impetus today. An examination of case histories that illustrate the role of these drivers has led to a six-fold type classification of by-passed pay. Type 1 can be produced using an existing identified well. Type 2 requires a side track or a new well in order to capture the reserves. Each type is further subdivided into three classes. The classification scheme has provided the context for an emergingmodus operandito maximize commercially recoverable hydrocarbons in developed assets. Thus, the approach takes the form of a road map for practical application. By corollary, the type classification demonstrably accommodates a wide range of reported exploitations of by-passed pay from diverse reservoirs. Therefore, this classification constitutes a potential foundation for further systemic refinements to the identification and recovery of by-passed pay.
Publisher
Geological Society of London
Subject
Fuel Technology,Energy Engineering and Power Technology,Geology,Geochemistry and Petrology
Reference29 articles.
1. Bartenhagen K. J. Bradford J. C. Logan D. (2001) Cased Hole Formation Resistivity: Changing the Way We Find Oil and Gas (Society of Petroleum Engineers, Richardson, TX) SPE Paper, 70042.
2. Choon T. T. (2007) Identification of Bypassed Oil for Development in Mature Water-drive Reservoirs (Society of Petroleum Engineers, Richardson, TX) SPE Paper, 109077.
3. Chu W.-C. Welch P. M. (2008) Identification of By-passed Pays in Low-resistivity, Thinly-bedded, Sand–Shale Sequences in the Ghdames Basin of North Africa Through Use of the Wireline Formation Tester (Society of Petroleum Engineers, Richardson, TX) SPE Paper, 114478.
4. Conner M. G. Blesener J. A. (2005) Development of bypassed oil reserves using behind casing resistivity measurements: Santa Fe Springs Field, Los Angeles County, California (US DoE Office of Scientific and Technical Information, Washington, DC) Semiannual Technical Progress Report, DoE Award No. DE-FG26-03NT15435.
5. Energy Partners Ltd (2008) EPL finds bypassed oil in the heart of its 100% owned East Bay Field, (New Orleans, LA) News Release, 31 March 2008. EPL.
Cited by
2 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献
1. Paralic reservoirs;Geological Society, London, Special Publications;2016-07-20
2. Definitive Petrophysical Evaluation of Thin Hydrocarbon Reservoir Sequences;SPE Reservoir Evaluation & Engineering;2012-10-19