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Effect of rheological model on cuttings transport in foam drilling

محل انتشار: دومین همایش علمی مهندسی مخازن هیدروکربوری، علوم و صنایع مرتبط
سال انتشار: 1392
نوع سند: مقاله کنفرانسی
زبان: انگلیسی
مشاهده: 2,128

فایل این مقاله در 11 صفحه با فرمت PDF قابل دریافت می باشد

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لینک ثابت به این مقاله:
https://civilica.com/doc/200228

شناسه ملی سند علمی:

RESERVOIR02_019

تاریخ نمایه سازی: 11 خرداد 1392

چکیده مقاله:

Foam drilling is the one of main branches of underbalanced drilling. The rheological properties of drilling fluids such as foam directly affect on flow characteristics and hydraulic performance. Two rheological Herschel-Bulkly and Power law models were fitted to two foam systems in this study. Computational fluid dynamics (CFD) was used to simulate the effect of rheological model, foam velocity and foam quality on cuttings transport (solid- liquid flow) hydrodynamics in concentric and eccentric annulus during foam drilling operation. The simulation results are compared to the experimental data from previous studies. The results of CFD using Power law model are in good agreement with experimental results in horizontal annulus respect to Herschel- Bulkly model with relative error less than 8%. So, for CFD cuttings transport simulation in inclined and horizontal annulus, it is best to use Power law model rheological model parameters.

کلیدواژه ها:

Cuttings transport ، Rheological models ، solid- liquid flow ، foam drilling ، CFD simulation

نویسندگان

Reza Rooki

Faculty of Mining, Petroleum and Geophysics, Shahrood University of Technology, Shahrood, Iran

Faramarz Doulati Ardejani

Faculty of Mining, Petroleum and Geophysics, Shahrood University of Technology, Shahrood, Iran

Ali Moradzadeh

Faculty of Mining, Petroleum and Geophysics, Shahrood University of Technology, Shahrood, Iran

Mahmood Norouzi

Faculty of Mechanics, Shahrood University of Technology, Shahrood, Iran

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  • Zhu T, Volk L, Carroll H: Industry state-of-the art in ...
  • Ozbayoglu M E, Miska SZ, Reed T, Takach N: Cuttings ...
  • Ozbayoglu ME: Cuttings transport with foam in horizontal and highly-inclined ...
  • Rojas Y, Vieira P, Borrel] M, Blanco J, Ford M, ...
  • Gumati A, Takahshi H: Experimental study and modeling of pressure ...
  • Kelessidis V C, Maglione R, Tsamantaki C, Aspirtakis, Y: Optimal ...
  • Rooki R, Doulati Ardejani F, Moradzadeh A, Mirzaei H, Kelessidis ...
  • Kelessidis V, Maglione R, Shear rate corrections for Hersche. Bulkley ...
  • Kelessidis _ Hatzistamou V, Maglione R: Wall slip phenomenon assessment ...
  • Machado CJ, Ikouk CU: Experimental determination of solids fraction and ...
  • Capo J, Yu M and Miska, S Z, Takach NE, ...
  • Owayed, J, F: Simulation of water influx during underbalanced foam ...
  • Saintpere S, Marcillat Y, Bruni F, Toure A: Hole cleaning ...
  • Martins AL, Luorenco AMF, de Sa CHM Foam properties requirements ...
  • Li Y and Kuru E: Numerical Modeling of Cuttings Transport ...
  • Chen Z, Ahmed R M, Miska S Z, Takach NE, ...
  • Chen Z, Cuttings transport with foam in horizontal concentric annulus ...
  • Osunde O, Kuru E: Numerical modeling of cuttings transport with ...
  • Wang R, Cheng R, Wang H, Bu Y: Numerical simulation ...
  • Duan M: Study of cuttings transport using foam with drill ...
  • Duan M, Miska S, Yu M, Takach NE, Ahmed, MB, ...
  • Versteeg HK, Malalasekera W: An introduction to computational fluid dynamics, ...
  • Wang ZM, Guo XL, Li M, Hong YK: Effect of ...
  • Pereira FAR, Ataide CH, Barrozo MAS CFD approach using _ ...
  • Han S M, Hwang Y K, Woo N S Kim ...
  • Al-Kayiem HH, Mohd Zaki N, Asyraf Z, Elfee ME: Simulation ...
  • Zhonghou S, Haizhu W, Gensheng L: Numerical simulation of the ...
  • Hajidavalloo E, Sadeghi Behbahani Zadeh M, Shekari Y: Simulation of ...
  • Krug JA, Mitche]l BJ: Charts help find volume pressure needed ...
  • Sanghani V, Ikoku CU: Rheology of foam and is implication ...
  • Herzhaft B: Rheology of aqueous foams: _ literature review of ...
  • Shah SN, Shanker NH, Ogugbue CC: Future challenges of drilling ...
  • Gajbhiye RN, Kam SI: The effect of inclination angles _ ...
  • Enzendorfer C, Harris R, Valko P, Economides M Pipe viscometry ...
  • Mitche]l BJ: Viscosity of foam, Ph.D Thesis, University of Oklahoma, ...
  • Beyer AH, Millhone RS, Foote RW: Flow behavior of foam ...
  • Blauer RE, Mitchel BJ, Kohllhaas CA Determination of laminar, turbulent, ...
  • Bonilla LF, Shah SN: Experimental investigation _ the rheology of ...
  • Sani AM, Shah SN: Experimental investigation of xanthan foam rheology, ...
  • Ahmed RM, Takach NE, Khan UM, Taoutaou S, James S, ...
  • FLUENT: Fluent user s guide, Version 6.3.26, Lebanon, NH, USA ...
  • Yeoh, GH, Tu J: Computational techniques for multi-phase flows, B ...
  • Larsen TI, Pilehvari AA, Azar JJ: Development of a new ...
  • Sifferman T.R, Myers G.M., Haden E.L, , Wahl H.A. Drill-cuttings ...
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