Click to view article in PDF format.
PS2D Seismic Lines Reprocessing Using Prestack Time Migration
:
Case
Study of the Solimões Basin*
Ronan M. Avila1 and Leo R. Nascimento1
Search and Discovery Article #10231 (2010)
Posted February 8, 2010
*Adapted from extended abstract prepared for poster presentation at AAPG International Conference and Exhibition, Rio de Janeiro, Brazil, November 15-18, 2009.
1 Landmark, Halliburton, Rio de Janeiro, Brazil ([email protected])
After the discovery of hydrocarbons in the maritime basins, investment in the exploration of hydrocarbons in Brazilian land sedimentary basins was reduced, which has led to a relative lack of information today. In most cases, there is little seismic data coverage, or the data are old and were processed using obsolete techniques. The Solimões Basin is an exception among the Paleozoic basins in terms of coverage and has reasonable line quality. In economic terms, this basin is now producing oil near the Urucú River (discovered in 1986) and gas near the Juruá River (discovered in 1978). This work presents the results of the reprocessing of the 2D seismic lines of the Solimões Basin, to which modern processing techniques were applied to improve the seismic image quality of data acquired in the 1970s and 1980s.
In addition to the economic issues, the poor quality of the seismic data of Brazilian land basins is attributed to a strong presence of magmatism which, without proper treatment, can damage the seismic imaging because of the high speed of wave propagation in these rocks. The central portion of the Solimões Basin contains three sills of diabase with a total thickness of approximately 800 m. Despite the imaging difficulty, these sills played an important historical role in the generation of hydrocarbons.
A Kirchoff algorithm was applied to the prestack time migration
. The reprocessing emphasized static correction (first break pick and residuals), parameters applied to recover the amplitudes, deconvolution, noise reduction process, and three-
velocity
analysis. The results show final sessions with high quality and resolution, and better signal-to-noise ratio below the second door-sill, and deliver relevant benefits to the interpreters.
|
In 2007, Landmark, a Halliburton entity, reprocessed approximately 20 km of 2D seismic lines from the Solimões Basin. The objective was to improve the quality of the seismic signal, primarily below the second door-sill, delivering relevant benefits to the interpreter. This objective was met and the final products were delivered (Silva et al., 2007 and Pelizzon et al., 2007).
On this job, we used the same workflow applied in 2007, but with one more The Solimões Basin is located in the Amazonas state of the northern region of Brazil, between the parallels 2° and 8°S and the meridians 62° and 72°W (Figure 1). It covers a total area of 600 km2. The Solimões Basin is structurally limited to the north and south by the Guyana and Brazilian shields, respectively (Figure 2). It is bounded on the east side by the Purus Arch and on the west by the Iquitos Arch. The High of Carauari divides the basin into two sub-basins (Juruá on the east and Jandiatuba on the west). Petroliferous System of Solimões Basin
The Paleozoic Solimões Basin includes an important petroliferous system called Jandiatuba-Jurua. The Devonian source rock is mainly represented by the radioactive shale of the Jandiatuba Formation (Eiras, 1999). The reservoir rock consists of eolian and marginal marine Carboniferous sandstones of the Jurua Formation. Its stratigraphy is positioned above and in direct contact with the source rock, which facilitated the The Mesozoic magmatism deeply affected the maturation of the source rock and played an important historical role in the generation of hydrocarbons of this basin. From a geological perspective, the presence of the diabase sills was important in the maturation of the organic matter in oil and gas (Bender et al., 2001). There was a close relationship between maturation and geothermal effects. The fluid type present in the reservoirs, if oil or gas, directly depends on the thickness and position of the intrusive body (Figure 5).
The first processing of the 2D seismic lines of the Solimões Basin was developed by another company using poststack Kirchhoff time
The workflow applied includes noise edit (statistical methods and manual),
The addition of a residual
Even with a good model, it is difficult to produce the desired imaging with performed poststack
On this job, a residual
When comparing the results of the two seismic processing methods, differences become obvious, as shown in Figure 8. This comparison shows two images; the first image shows migrated poststack data, and the second image shows migrated prestack data. For the second image, a The reprocessing of old seismic data using modern methods is a valuable tool for improving the quality of the subsurface image. Advantages of reprocessing the data include better focus on the target area, reduced time, and cost savings. In addition, because of current environmental restrictions, new data acquisitions would not be permitted in some areas.
The use of Kirchhoff prestack time The authors would like to thank M&S Oil Company for allowing the disclosure of data in this work, and Landmark, a Halliburton entity, for providing technical support and equipment. They are also grateful to geologist Jaime Eiras who provided relevant contributions to this job. The authors also wish to provide special thanks, in memorial, to geophysicist Marcela Pellizon, who was part of the Halliburton seismic processing team. Bender, A.A., J.F. Eiras, J.R. Wanderley Filho, and C.M. Barbosa Filho, 2001, Quantificação 3D da Evolução Termal da Bacia do Solimões e suas Implicações Petrolíferas, in VII Simpósio de Geologia da Amazônia; CD-ROM, Belém: Sociedade Brasileira de Geologia, Núcleo Norte.
Chopra, S., V. Alexeev, J. Lanteign, and Y. Xu, 2005, Mackenzie Delta Seismic Eiras, J.F., C.R. Becker, E.M. Souza, F.G. Gonzaga, J.G.F. Silva, L.M.F. Daniel, N.S. Matsuda, and F.J. Feijó, 1994, Bacia do Solimões, Boletim de Geociências da Petrobras, Rio de Janeiro: CENPES, 8 (1): 17-45. Eiras, J.F., 1999, Geologia e Sistemas Petrolíferos da Bacia do Solimões. in VI Simpósio de Geologia da Amazônia, Manaus, Boletim de Resumos Expandidos. Manaus: Sociedade Brasileira de Geologia, Núcleo Norte: 30-32. Mello, M.R., W.U. Mohriak, E.A.M. Koutsoukos, and G. Bacoccoli, 1994, Selected Petroleum Systems in Brazil, in L.B. Magoon and W.G. Dow, eds., The Petroleum System–from Source to Trap: American Association of Petroleum Geologists Memoir 60: 499-512. Milani, E.J., and F.A. Thomaz-Filho, 2000, Sedimentary Basins of South America, in U.G. Cordani, E.J. Milani, A. Thomaz-Filho, and D.A. Campos, Tectonic Evolution of South America, 31st International Geological Congress: 389-449. Pellizon, M., M. Makler, and R. Ávila, 2007, Qualidade do Imageamento Sísmico através do Reprocessamento de Dados–Bacia do Solimões, Presented at the 10th International Congress of the Brazilian Geophysical Society, Salvador, Brazil.
Ritchie, W., M. Popovici, M. Fleidner, and C. Saxon, 2005, Challenges and Opportunities in Pre-Stack Depth Imaging of Legacy Seismic Data: an Overthrust Belt
Silva, B., L. Nascimento, R. Ávila, and R. Baldanza, 2007, Seismic Data Reprocessing of the Solimões Basin - Prestack x Posstack Wanderley Filho, J.R., W.A.S. Travassos, and D.B. Alves, 2006, O Diabásio nas Bacias Paleozóicas Amazônicas, Boletim de Geoci&ecicr;ncias Petrobras, Rio de Janeiro: CENPES, 14, (1): 117-184.
Copyright © AAPG. Serial rights given by author. For all other rights contact author directly. |