Quantitative characterization of hydrocarbon reservoir using integrated seismic rock physics analysis: an integrated approach using seismic data, seismic rock physics of well-log and core

Bagus Endar B. Nurhandoko; Muhammad Thurisina Choliq; Kaswandhi Friyoso; Iwan Soemantri; Sunu Hadi Praptono; Mochamad Nurcahyo

doi:10.1071/ASEG2009ab026

ISSN: 2202-0586
E-ISSN:

oa Quantitative characterization of hydrocarbon reservoir using integrated seismic rock physics analysis: an integrated approach using seismic data, seismic rock physics of well-log and core
Authors Bagus Endar B. Nurhandoko^a,b, Muhammad Thurisina Choliq^c, Kaswandhi Friyoso^c, Iwan Soemantri^d, Sunu Hadi Praptono^d and Mochamad Nurcahyo^d
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^a Wave Inversion and Subsurface Fluid Imaging Research (WISFIR) Laboratory, Physics Dept., Institut Teknologi Bandung, , Bandung, , Indonesia, , ^b email: [email protected] ^c PT. Rock Fluid Imaging Lab., Jakarta, , Indonesia ^d Lapindo Brantas Inc., , Jakarta, , Indonesia
Publisher: Australian Society of Exploration Geophysicists
Source: ASEG Extended Abstracts, Volume 2009, Issue ASEG2009 - 20th Geophysical Conference, Dec 2009, p. 1 - 6
DOI: https://doi.org/10.1071/ASEG2009ab026
- Published online: 01 Dec 2009

Abstract

Introduction

The concept of quantitative reservoir geophysics is relatively new in petroleum reservoir geophysics. This will produce more detailed information than common exploration seismic. To predict the existence of hydrocarbon using seismic wave, usually we use a direct method.

The quantitative reservoir needs information from many wells in the area of the geophysical survey, such as: well-log, petrophysics, core-rock samples and even fluid samples from the reservoir. The result of quantitative reservoir characterization is an important step in predicting the reservoir character, especially for predicting facies, porosity distribution and reservoir fluid types.

In this paper, we show the steps of quantitative reservoir characterization using a seismic rock physics study in order to tie the seismic wave to reservoir properties. To conduct quantitative reservoir characterization, we should have seismic rock physics data under varying reservoir conditions, such as: overburden pressure as well as pore pressure, pore fluid type and even temperature.

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References

Wang, Z., 2001, Fundamentals of seismic rock physics, Geophysics, V. 66, NO. 2, 398–412.
Dvorkin, J., Mavko, G. andNur, A., 1995, Squirt flow in fully saturated rocks, Geophysics, V. 60, NO. 1, 97-107.
Nurhandoko, B.E.B., Adler, J., Riyanto, E., Bucli, M.L., Supriyanto, E.B., Susilowati, 2006, Influences of pore fluid to Parigi carbonate’s seismic parameter: a carbonates seismic rock physics study, Proceeding Indonesian Petroleum Association.
Nur, A. M., and Wang, Z., 1989, Seismic and acoustic velocities in reservoir rocks, 1: Experimental studies: Soc. Expl. Geophys.
Wang, Z., and Nur,A. M., 1992, Seismic and acoustic velocities in reservoir rocks, 2: Theoretical and model studies: Soc. Expl. Geophys.
Mavko, G., and Mukerji, T., 1998, A rock physics strategy for quantifying uncertainty in common hydrocarbon indicators : Soc. Expl. Geophys.

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Article Type: Research Article

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oa Quantitative characterization of hydrocarbon reservoir using integrated seismic rock physics analysis: an integrated approach using seismic data, seismic rock physics of well-log and core

Abstract

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