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Received May 31, 2000
Accepted December 20, 2000
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The Interpretation of DST Data for Donghae-1 Gas Field, Block VI-1, Korea

Geosystem & Environmental Engineering, Hanyang Univ., Seoul 133-179, Korea 1Gas Development Project Department, Korea National Oil Corporation, AnYang 431-065, Korea 2Construction Technology Institute, LG Engineering & Construction Co., Seoul 110-035, Korea
Korean Journal of Chemical Engineering, January 2001, 18(1), 67-74(8), 10.1007/BF02707200
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Abstract

Donghae-1 gas field is located in Ulleung basin at offshore Ulsan, Korea, and its recoverable reserve is expected to be 170 to 200 BCF (Billion cubic feet). The field was confirmed to have potential gas and condensate reserves from an exploration well in 1998 and two appraisal wells in 1999. This field consists of five zones. with an average reservoir depth of about 7,000 to 8,000 ft. In this study, we have performed an analysis of Gorae V DST (Drillstem test) #2 for testing B4 zone which has the biggest reserves and Gorae V-l DST #2 for testing B3 and B4 zones simultaneously among DST data achieved in a total of 11 zones at three wells. The pressure and flow rate recorded from two tested zones were used to obtain the reservoir characteristics and the well productivity. For pressure transient test data, we carried out the analysis of reservoir permeability, skin factor, wellbore storage effect and barrier effect by using the Horner plot and type curve matching methods. Also, with the deliverability test data, we estimated the absolute open flow which is the maximum flow rate of the gas well, and extracted the correlations representing production rate with reservoir pressure. According to the analysis, Gorae V DST #2 of B4 zone has a permeability and skin factor of 37 md (Millidarcy), 4.54, and Gorae V-l DST #2 of B3 and B4 zones has 23 md and 21.0, respectively. It was also found that the wellbore storage effect was not significant for the two wells tested. From the deliverability test analysis, the AOF (Absolute open flow) of the Gorae V DST #2 is 152.8 MMSCFD (Million standard cubic feet per day), and that of the Gorae V-l DST #2 is calculated to be 68.2 MMSCFD.

References

Agarwal RG, "A New Method to Account for Producing Time Effects When Drawdown Type Curves Are Used to Analyze Pressure Buildup and Other Test Data," SPE, 9289 (1980)
Bourdet D, "Use of Pressure Derivative in Well-test Interpretation," SPEFE, 293 (1989)
Chair TS, Kim W, Pak H, Jhon MS, Korean J. Chem. Eng., 6(2), 121 (1989)
Donohue DAT, Ertekin T, "Gas Well Testing," International Human Resoureces Development Corporation (1986)
Govier GW, "Theory and Practive of the Testing of Gas Well," Energy Resources Conservation Board, Calgary, Alberta, Canada (1975)
Gringarten AC, "A Comparison Between Defferent Skin and Wellbore Storage Type Curves for Early-Time Transient Analysis," SPE, 8205 (1979)
Home RN, "Modern Well Test Analysis," Petroway Inc., Palo Alto, California (1995)
Park J, Kim H, Korean J. Chem. Eng., 10(2), 71 (1993)
Ramey HJ, "Advances in Practical Well-Test Analysis," JPT, 650 (1992)
Sabet MA, "Well Test Analysis," Gulf Publishing Company, Houston, Texas (1991)
Sung WM, "The Interpretation of DST Data for Gorae V Gas Field," Report of Korea National Oil Corporation Research Project (2000)

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