Habiganj Gas Field (HGF) is one of the most producing and promising gas field in Bangladesh which is ranked as second largest gas field in aspects of Gas Initially In Place (GIIP). It formed by a north south elongated anticline which lies in the northernmost end of the 130km long Baramura anticline from Tripura (India) in the south. This paper shows the present gas reserve estimation with a view of four gas producing wells (i.e. HBJ-7, HBJ-9, HBJ-10, and HBJ-11) in account of upper gas sand has been access via the investigation of lithology, wire line logging data and production data are used as parameter for volumetric method. The average water and gas saturation of the reservoir has also been determined by Archie equation. From the previous analysis with logging data of HGF, it was found that the Gas Water Contact (GWC) was at 1458m and at present it is at about 1415m. The upper gas sand lies at a depth of 1320m below the surface and has a maximum gross pay 230m thick. The gas sand shows average porosity 30% (calculated from the combination of neutron and density porosity logs) and average permeability in the range of 2-4 Darcy’s which indicates an excellent quality reservoir. The water saturation of Habiganj gas sand layer is considered for the depth range of 1330m to 1510m with 5m interval in-deed. Thereafter, water saturation and gas saturation of those wells (HBJ-7, HBJ-9, HBJ-10 and HBJ-11) are 27% and 73%, 29% and 71%, 15% and 85%, and 19% and 81% respectively. The gas formation volume factor (Bg) is estimated at about 0.0075 (rcf/scf) for the average 2053.13psi shut in pressure. From the above discussion it is found that the Gas Initially in Place by HBJ-7, HBJ-9, HBJ-10, and HBJ-11 wells are 5.35Tcf, 4.83Tcf, 5.71Tcf and 5.20Tcf respectively and the cumulative reserve for the HGF is 5.25Tcf while the recoverable reserve is 3.13Tcf. This study would be significant implications for reserve estimation and decision making in an effort to explore the present condition of gas reserve in HGF and the techniques described here can be used in other gas field as a base line for projections of gas reserve.
Published in | International Journal of Oil, Gas and Coal Engineering (Volume 5, Issue 4) |
DOI | 10.11648/j.ogce.20170504.12 |
Page(s) | 44-50 |
Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
Copyright |
Copyright © The Author(s), 2017. Published by Science Publishing Group |
Habiganj, Reserve Estimation, Volumetric Method, Porosity, Water Saturation, Gas Saturation
[1] | Imam B. (2005). Energy Resources of Bangladesh. Published by University Grants Commission of Bangladesh, Dhaka, 2005, pp 280. |
[2] | Gas reserve to last until 2031. The Daily Star. 28 June 2015. (February 3, 2016). |
[3] | Gas, Natural – Banglapedia (May 3, 2017). |
[4] | BGFCL Annual Report. (2009). Reserve (HCU) of Different Gas Fields under Bangladesh Gas Field Company Limited (BGFCL), published in Reservoir Engineering Section. |
[5] | www.bgfcl.org.bd/habiganj gas field. (May 12, 2017). |
[6] | Roy J. S. (2012). “Habiganj District” In Sirajul Islam and Ahmed A. Jamal. Banglapedia: National Encyclopedia of Bangladesh (Second ed.). Asiatic Society of Bangladesh. |
[7] | Alam M. S. (2002). Gas-in-place Estimate of the Habiganj Gas Field Using Material Balance, A thesis of Masters, Department of Petroleum and Mineral Resources Engineering, University of Engineering and Technology, Bangladesh. 93 p. |
[8] | Shofiqul M. I. and Nusrat J. B. (2013). Reservoir characterization of Habiganj gas field, International Journal of Oil, Gas and Coal Engineering. Vol. 1, No. 1, 2013, pp. 7-15. doi: 10.11648/j.ogce.20130101. 12. |
[9] | Rider M. H. and Kennedy M. (1996). The Geological interpretation of well logs, second edition, Caithness, Scotland: Whittles, 280 p. |
[10] | Reza A., Islam M. T. and Islam M. A. (2014). Evaluation of Gas Reservoir of the Meghna Gas Field, Bangladesh Using Wireline Log Interpretation, Universal Journal of Geoscience 2 (2): 62-69, 2014, DOI: 10.13189/ujg.2014. 020204. |
[11] | Economides and Michael J. (1994). Petroleum Production Systems, Published by Prentice Hall Inc, New Jersey 07458, 67 p. |
[12] | Ikoku and Chiu (1984). Natural Gas Production Engineering, Published by KRIEGER publishing Company Malabar, Florida, 39p and 59 p. |
[13] | Lee W. J. and Wattenbarger R. A. (1996). Gas Reservoir Engineering, SPE. |
[14] | Nawab M. M., and Hossain M. S. (2010). The Effect of Water Influx on Material Balance Analysis for Water Drive Gas Reservoir: A Case Study on Habiganj Gas Field, Bangladesh, Bangladesh Geoscience Journal, v. 16, p. 69-84. |
[15] | Islam A. R. M. T, Habib M. A, Islam M. T. and Mita M. R (2013). Interpretation of wireline log data for reservoir characterization of the Rashidpur Gas Field, Bengal Basin, Bangladesh, IOSR Journal of Applied Geology and Geophysics (IOSR-JAGG), e-ISSN: 2321–0990, p-ISSN: 2321–0982. Volume 1, Issue 4 (Sep. – Oct. 2013), PP 47-54. |
[16] | Hai M. A., Ahammod S., Faruque M. O., Hussain M. A. and Ahmed J. (2014). Identification and determination of gross thickness of hydrocarbon bearing zone of Habiganj gas field, American Journal of Engineering Research (AJER) e-ISSN: 2320-0847 p-ISSN: 2320-0936 Volume-3, Issue-8, pp-79-89. |
[17] | Haq M. B. and Rahman M. K. (2008). A Comparative Study of Three Methods for Estimating Initial Gas-in-place in Gas Fields in Bangladesh, Petroleum Science and Technology, Volume 26, 2008 - Issue 5, Pages 532-544. |
[18] | Australian National University Bangladesh Base Map CAP 12-201, 3 March 2017. |
[19] | Annual Report (2015-16). Bangladesh Gas Field Company Limited (BGFCL), http://www.bgfcl.org.bd., (March 03, 2016). |
APA Style
Ananna Rahman, Ashraf Ali Seddique, Md. Hafijur Rahaman Khan, Mijanur Rahman. (2017). Present Gas Reserve Estimation Using Wireline Logging Data of Habiganj Gas Field, Bangladesh. International Journal of Oil, Gas and Coal Engineering, 5(4), 44-50. https://doi.org/10.11648/j.ogce.20170504.12
ACS Style
Ananna Rahman; Ashraf Ali Seddique; Md. Hafijur Rahaman Khan; Mijanur Rahman. Present Gas Reserve Estimation Using Wireline Logging Data of Habiganj Gas Field, Bangladesh. Int. J. Oil Gas Coal Eng. 2017, 5(4), 44-50. doi: 10.11648/j.ogce.20170504.12
AMA Style
Ananna Rahman, Ashraf Ali Seddique, Md. Hafijur Rahaman Khan, Mijanur Rahman. Present Gas Reserve Estimation Using Wireline Logging Data of Habiganj Gas Field, Bangladesh. Int J Oil Gas Coal Eng. 2017;5(4):44-50. doi: 10.11648/j.ogce.20170504.12
@article{10.11648/j.ogce.20170504.12, author = {Ananna Rahman and Ashraf Ali Seddique and Md. Hafijur Rahaman Khan and Mijanur Rahman}, title = {Present Gas Reserve Estimation Using Wireline Logging Data of Habiganj Gas Field, Bangladesh}, journal = {International Journal of Oil, Gas and Coal Engineering}, volume = {5}, number = {4}, pages = {44-50}, doi = {10.11648/j.ogce.20170504.12}, url = {https://doi.org/10.11648/j.ogce.20170504.12}, eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ogce.20170504.12}, abstract = {Habiganj Gas Field (HGF) is one of the most producing and promising gas field in Bangladesh which is ranked as second largest gas field in aspects of Gas Initially In Place (GIIP). It formed by a north south elongated anticline which lies in the northernmost end of the 130km long Baramura anticline from Tripura (India) in the south. This paper shows the present gas reserve estimation with a view of four gas producing wells (i.e. HBJ-7, HBJ-9, HBJ-10, and HBJ-11) in account of upper gas sand has been access via the investigation of lithology, wire line logging data and production data are used as parameter for volumetric method. The average water and gas saturation of the reservoir has also been determined by Archie equation. From the previous analysis with logging data of HGF, it was found that the Gas Water Contact (GWC) was at 1458m and at present it is at about 1415m. The upper gas sand lies at a depth of 1320m below the surface and has a maximum gross pay 230m thick. The gas sand shows average porosity 30% (calculated from the combination of neutron and density porosity logs) and average permeability in the range of 2-4 Darcy’s which indicates an excellent quality reservoir. The water saturation of Habiganj gas sand layer is considered for the depth range of 1330m to 1510m with 5m interval in-deed. Thereafter, water saturation and gas saturation of those wells (HBJ-7, HBJ-9, HBJ-10 and HBJ-11) are 27% and 73%, 29% and 71%, 15% and 85%, and 19% and 81% respectively. The gas formation volume factor (Bg) is estimated at about 0.0075 (rcf/scf) for the average 2053.13psi shut in pressure. From the above discussion it is found that the Gas Initially in Place by HBJ-7, HBJ-9, HBJ-10, and HBJ-11 wells are 5.35Tcf, 4.83Tcf, 5.71Tcf and 5.20Tcf respectively and the cumulative reserve for the HGF is 5.25Tcf while the recoverable reserve is 3.13Tcf. This study would be significant implications for reserve estimation and decision making in an effort to explore the present condition of gas reserve in HGF and the techniques described here can be used in other gas field as a base line for projections of gas reserve.}, year = {2017} }
TY - JOUR T1 - Present Gas Reserve Estimation Using Wireline Logging Data of Habiganj Gas Field, Bangladesh AU - Ananna Rahman AU - Ashraf Ali Seddique AU - Md. Hafijur Rahaman Khan AU - Mijanur Rahman Y1 - 2017/08/03 PY - 2017 N1 - https://doi.org/10.11648/j.ogce.20170504.12 DO - 10.11648/j.ogce.20170504.12 T2 - International Journal of Oil, Gas and Coal Engineering JF - International Journal of Oil, Gas and Coal Engineering JO - International Journal of Oil, Gas and Coal Engineering SP - 44 EP - 50 PB - Science Publishing Group SN - 2376-7677 UR - https://doi.org/10.11648/j.ogce.20170504.12 AB - Habiganj Gas Field (HGF) is one of the most producing and promising gas field in Bangladesh which is ranked as second largest gas field in aspects of Gas Initially In Place (GIIP). It formed by a north south elongated anticline which lies in the northernmost end of the 130km long Baramura anticline from Tripura (India) in the south. This paper shows the present gas reserve estimation with a view of four gas producing wells (i.e. HBJ-7, HBJ-9, HBJ-10, and HBJ-11) in account of upper gas sand has been access via the investigation of lithology, wire line logging data and production data are used as parameter for volumetric method. The average water and gas saturation of the reservoir has also been determined by Archie equation. From the previous analysis with logging data of HGF, it was found that the Gas Water Contact (GWC) was at 1458m and at present it is at about 1415m. The upper gas sand lies at a depth of 1320m below the surface and has a maximum gross pay 230m thick. The gas sand shows average porosity 30% (calculated from the combination of neutron and density porosity logs) and average permeability in the range of 2-4 Darcy’s which indicates an excellent quality reservoir. The water saturation of Habiganj gas sand layer is considered for the depth range of 1330m to 1510m with 5m interval in-deed. Thereafter, water saturation and gas saturation of those wells (HBJ-7, HBJ-9, HBJ-10 and HBJ-11) are 27% and 73%, 29% and 71%, 15% and 85%, and 19% and 81% respectively. The gas formation volume factor (Bg) is estimated at about 0.0075 (rcf/scf) for the average 2053.13psi shut in pressure. From the above discussion it is found that the Gas Initially in Place by HBJ-7, HBJ-9, HBJ-10, and HBJ-11 wells are 5.35Tcf, 4.83Tcf, 5.71Tcf and 5.20Tcf respectively and the cumulative reserve for the HGF is 5.25Tcf while the recoverable reserve is 3.13Tcf. This study would be significant implications for reserve estimation and decision making in an effort to explore the present condition of gas reserve in HGF and the techniques described here can be used in other gas field as a base line for projections of gas reserve. VL - 5 IS - 4 ER -