Monotoring of field development on the basis of integrated reservoir simulatotion

Authors: A.V. Kolmakov, V.A. Marishkin (Gazprom Dobycha Noyabrsk Ltd., RF, Noyabrsk), A.S. Bordzilovsky, V.L. Terentyev, K.M. Fedorov (STC OILTEAM Ltd., RF, Sochi)

Key words: monitoring, reservoir simulation, integrated asset model, history matching, reservoir pressure field, dynamics of gas-water contact, wells treatment program.

Complex work which includes well tests with down hole and permanent sensors, neutron logging and development of integrated reservoir simulator is presented in the paper. It was real case of N gas field. Data of more than 1500 well tests laid in the bases of integrated simulator. Special features of gas reservoir simulation and history matching are outlined. The analysis of calculation run showed that large program of well testing and integrated reservoir simulator is efficient tools for field development improvement.

References

1. Feofilaktov S.V., Inzhenernaya praktika – Oilfield Engineering, 2011, no. 10, pp. 86-90.

2. Mirzadzhanzade A.Kh., Kuznetsov O.L., Basniev K.S., Aliev Z.S., Osnovy tekhnologii dobychi gaza (Basics of gas production), Moscow: Nedra Publ., 2003, 881 p.

3. Ahmed M. Shehata, Ahmed H. El-Banbi M., Helmy Sayyouh, Proper selection of upscaling techniques for different production processes, SPE 150863-MS, 2012.

4. Lee J., Well testing, Textbook Series, SPE of AIME, 1982, V. 1.

5. Vertical flow correlation in gas wells, User manual for API 14B, Subsurface controlled safety valve sizing computer program, Appendix B, January 1978, 2nd edition.

6. Bikbulatov S.M., Pashali A.A., Neftegazovoe delo – Oil and Gas Business, 2005, URL: http://www.ogbus.ru/authors/Bikbulatov/Bikbulatov_1.pdf

Key words: monitoring, reservoir simulation, integrated asset model, history matching, reservoir pressure field, dynamics of gas-water contact, wells treatment program.

Complex work which includes well tests with down hole and permanent sensors, neutron logging and development of integrated reservoir simulator is presented in the paper. It was real case of N gas field. Data of more than 1500 well tests laid in the bases of integrated simulator. Special features of gas reservoir simulation and history matching are outlined. The analysis of calculation run showed that large program of well testing and integrated reservoir simulator is efficient tools for field development improvement.

References

1. Feofilaktov S.V., Inzhenernaya praktika – Oilfield Engineering, 2011, no. 10, pp. 86-90.

2. Mirzadzhanzade A.Kh., Kuznetsov O.L., Basniev K.S., Aliev Z.S., Osnovy tekhnologii dobychi gaza (Basics of gas production), Moscow: Nedra Publ., 2003, 881 p.

3. Ahmed M. Shehata, Ahmed H. El-Banbi M., Helmy Sayyouh, Proper selection of upscaling techniques for different production processes, SPE 150863-MS, 2012.

4. Lee J., Well testing, Textbook Series, SPE of AIME, 1982, V. 1.

5. Vertical flow correlation in gas wells, User manual for API 14B, Subsurface controlled safety valve sizing computer program, Appendix B, January 1978, 2nd edition.

6. Bikbulatov S.M., Pashali A.A., Neftegazovoe delo – Oil and Gas Business, 2005, URL: http://www.ogbus.ru/authors/Bikbulatov/Bikbulatov_1.pdf


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