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- Volume 11, Issue 6, 1993
First Break - Volume 11, Issue 6, 1993
Volume 11, Issue 6, 1993
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Crosswell seismic tomography in improved oil recovery
Authors J.H. Justice, M.E. Mathisen, A.A. Vassiliou, I. Shiao, B.R. Alameddine and N.J. GuinzySeismic tomography is a rapidly developing technology which is attracting considerable interest in the petroleum industry. lts primary use at this time is in reservoir imaging applications, including EOR monitoring. As a result, this multifaceted and interdisciplinary technology is beginning to play an important role in improved oil recovery. New developments in seismic tomography promise to solve or contribute to the solution of many problems associated with reservoir management. When used properly, seismic tomography may enable us to improve the efficiency of our programmes, cut our ultimate costs and increase our recoverable reserves.
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Evaluating gas in-place from 3D Seismic data - Rotliegend formation, North Germany
Authors M. Hartung, J. Heinke and B. ReichelThe Rotliegend gas reservoirs are one of the two major targets in NW Germany (Albertsen 1992). Recent 3D seismic data may serve as an important aid in the future for picking well locations and field development planning, as it already does in the Zechstein play (Karnin et al. 1992). This article will introduce a new lateral prediction method for aspecific Rotliegend reservoir integrating all information available.
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Integration of well and seismic data for for 3D velocity model building
By J.M. ReillyRock velocity information may be obtained from a variety of sources: weIl sonics, weIl check shots, fixed offset weIl surveys, moving source weIl surveys and surface seismic. A key element in the successful integration of these data is the recognition of the geophysical attributes and limitations of the individual datasets. This paper presents, through a case history approach, the evaluation of weIl and surface seismic velocity data and their integration with the seismic time interpretation to produce an integrated, fully three dimensional (3D) velocity field model.
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Volumes & issues
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Volume 42 (2024)
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Volume 41 (2023)
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Volume 40 (2022)
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Volume 39 (2021)
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Volume 38 (2020)
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Volume 37 (2019)
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Volume 36 (2018)
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Volume 35 (2017)
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Volume 34 (2016)
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Volume 33 (2015)
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Volume 32 (2014)
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Volume 31 (2013)
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Volume 30 (2012)
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Volume 29 (2011)
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Volume 28 (2010)
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Volume 27 (2009)
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Volume 26 (2008)
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Volume 25 (2007)
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Volume 24 (2006)
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Volume 23 (2005)
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Volume 22 (2004)
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Volume 21 (2003)
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Volume 20 (2002)
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Volume 19 (2001)
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Volume 18 (2000)
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Volume 17 (1999)
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Volume 16 (1998)
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Volume 15 (1997)
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Volume 14 (1996)
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Volume 13 (1995)
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Volume 12 (1994)
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Volume 11 (1993)
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Volume 10 (1992)
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Volume 9 (1991)
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Volume 8 (1990)
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Volume 7 (1989)
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Volume 6 (1988)
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Volume 5 (1987)
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Volume 4 (1986)
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Volume 3 (1985)
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Volume 2 (1984)
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Volume 1 (1983)