SIMULATION OF A DEPLETED GAS CONDENSATE RESERVOIR FOR STORAGE OF NATURAL GAS IN IRAN

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KHAMEHCHI E.; RASHIDI F.

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Journal Paper

Paper Information

Journal: AMIRKABIR Year:2006 | Volume:17 | Issue:64-D (TOPICS IN: GROUPS OF ENGINEERING, TEXTILE, POLYMER, CHEMISTRY) Page(s): 71-78

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Information Journal Paper

Title

SIMULATION OF A DEPLETED GAS CONDENSATE RESERVOIR FOR STORAGE OF NATURAL GAS IN IRAN

Author(s)

KHAMEHCHI E. | RASHIDI F. | Issue Writer Certificate

Keywords

UNDERGROUND GAS STORAGE (UGS)

GAS INJECTION

DEPLETION

HISTORY MATCHING

RESERVOIR PERFORMANCE

Abstract

The northern part of the city located in higher elevations is of the main concerns in Tehran during winter which leads to the shortage in gas supply. To deal with this problem, National Iranian Gas Company (NIGC) decided to store gas in nearby natural reservoirs during hot season and produce it during cold season. Sarajeh gas condensate reservoir was considered for UGS to deal with gas demand. In this study, we first present the significance of UGS, different types of reservoirs considered for UGS and its history. Next, using GEM software, a coarse grid model of the reservoir is built. Then, simulation and HISTORY MATCHING of Sarajeh gas field are introduced and briefly discussed. Finally conclusions and recommendation for future work is presented. Based on available information and those results generated by the model, this field could be a candidate for UGS plan. The results showed that two horizontal and one vertical gas production wells need to be drilled to achieve pressure drop in the reservoir and deliver 150 MMSCF of gas per day including production from former producers. RESERVOIR PERFORMANCE after HISTORY MATCHING using DEPLETION scenarios is predicted. DEPLETION last for 4.5 years. Ultimate recovery factor is 65% for gas and 40% for gas condensate. Following reservoir DEPLETION to approximately 2400 psia, GAS INJECTION cycles in 6 months during hot season with the injection rate of 160 MMSCF per day and gas production cycles in 5 months in cold season with the rate of 175MMscfD can start. Total gas volume stored in each cycles is approximately 0.84x1012m3.

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APA: Copy

KHAMEHCHI, E., & RASHIDI, F.. (2006). SIMULATION OF A DEPLETED GAS CONDENSATE RESERVOIR FOR STORAGE OF NATURAL GAS IN IRAN. AMIRKABIR, 17(64-D (TOPICS IN: GROUPS OF ENGINEERING, TEXTILE, POLYMER, CHEMISTRY)), 71-78. SID. https://sid.ir/paper/564788/en

Vancouver: Copy

KHAMEHCHI E., RASHIDI F.. SIMULATION OF A DEPLETED GAS CONDENSATE RESERVOIR FOR STORAGE OF NATURAL GAS IN IRAN. AMIRKABIR[Internet]. 2006;17(64-D (TOPICS IN: GROUPS OF ENGINEERING, TEXTILE, POLYMER, CHEMISTRY)):71-78. Available from: https://sid.ir/paper/564788/en

IEEE: Copy

E. KHAMEHCHI, and F. RASHIDI, “SIMULATION OF A DEPLETED GAS CONDENSATE RESERVOIR FOR STORAGE OF NATURAL GAS IN IRAN,” AMIRKABIR, vol. 17, no. 64-D (TOPICS IN: GROUPS OF ENGINEERING, TEXTILE, POLYMER, CHEMISTRY), pp. 71–78, 2006, [Online]. Available: https://sid.ir/paper/564788/en

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