Performance prediction of a rich gas condensate reservoir through material balance and PVT behavior-A Case study

سال انتشار: 1384
نوع سند: مقاله کنفرانسی
زبان: انگلیسی
مشاهده: 2,826

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شناسه ملی سند علمی:

NICEC10_373

تاریخ نمایه سازی: 6 بهمن 1385

چکیده مقاله:

With a 217 STB/MMSCF liquid-gas ratio (LGR) Sarvak reservoir of Zilaei field is one of the richest gas condensate reservoirs in the world. Due to asphaltene precipitation during well shut-in, it is not possible to acquire static pressure data for the reservoir. Since the reservoir pressure is of the main reservoir parameters for performance prediction, material balance calculations was performed based on volumetric and PVT data to determine current reservoir pressure. Furthermore the retrograde condensate deposition (liquid drop-out) is also calculated with the introduction of new parameter of Liquid-Fluid ratio (LFR). The curve of P/z (the ratio of pressure and gas deviation factor) versus cumulative gas production is conventionally utilized to predict the gas reservoir performance. This method is used for gas condensate reservoirs by replacing gas z-factor with two-phase z-factor (zT). Since reservoir pressure data are not available a direct usage of the above method for reservoir is impossible. As such the experimental data of Constant Volume Depletion Zilaei-Sarvak (CVD) experiment have been used that simulate the gas condensate fluid behavior. The experimental data are simulated using the PVT simulator of Winprop and tuned to EOS to provide non-available parameters and to check the validity of the Peng-Robinson data. Gas deviation factor at the dew point (zd) was determined as 1.1457 based on which the z-factor was calculated for different pressured below the dew point pressure. two-phase Backward calculation was performed to correct the available experimental data of produced gas percentage to reservoir conditions. The percentage of gas produced to reach the dew point was determined as 3.496 percent of the Gas Initially In Place (GIIP). Utilizing the GIIP of 620 MMMSCF concluded from volumetric calculations the reservoir will reach the dew point after 20.25MMMSCF of gas production. It is estimated that current reservoir pressure after cumulative gas production (Gp) of 60 MMMSCF would be 5931 Psia. Furthermore the retrograde liquid deposition of the reservoir is determined to be 31.5 MMSTB through the plot of liquid-Feed Ratio (LFR) versus Gp/G.

نویسندگان

Mehdi Zeidouni

Reservoir Engineer, NISOC

Gholam Movazi

Senior Reservoir Engineer, NISOC

Bagher Pourghasem

Senior Reservoir Engineering, NISOC

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  • Craft B.C., _ Petroleum Reservoir engineering «, 1991 ...
  • Whitson C., ،Phase behavior *, SPE monograph, 2000 ...
  • Ahmed T., ،Reservoir Engineering handbook _ ...
  • unIranian Chemical Engineering Congress (IChEC10), Sistan & Balochestan University , ...
  • unIranian Chemical Engineering Congress (IChEC10), Sistan & Balochestan University , ...
  • unIranian Chemical Engineering Congress (IChEC10), Sistan & Balochestan University , ...
  • unIranian Chemical Engineering Congress (IChEC10), Sistan & Balochestan University , ...
  • unIranian Chemical Engineering Congress (IChEC10), Sistan & Balochestan University , ...
  • unIranian Chemical Engineering Congress (IChEC10), Sistan & Balochestan University , ...
  • unIranian Chemical Engineering Congress (IChEC10), Sistan & Balochestan University , ...
  • unIranian Chemical Engineering Congress (IChEC10), Sistan & Balochestan University , ...
  • نمایش کامل مراجع