Recomendações

 Aplicar o modelo matemático desenvolvido com dados reais de poços injetores canhoneados.

Referências Bibliográficas

ABRAMS, A, 1977. Mud Design To Minimize Rock Impairment Due To Particle Invasion. Society of Petroleum Engineers. Volume 29, SPE-5713-PA.

ARORA, D. S. e SHARMA, M. M., 2000. The Nature of the Compacted Zone Around Perforation Tunnels. SPE 58720. The University of Texas at Austin.

BARKMAN, J. H., DAVIDSON, D. H., 1972. Measuring Water Quality and Predicting Well Impairment. J.P.T.

BEDRIKOVETSKY, P., MARCHESIN, D., SHECAIRA, F., SOUZA, A. L., MILANEZ, P. V., REZENDE, E., 2001. Characterisation of deep bed filtration system from laboratory pressure drop measurements. Journal of Petroleum Science and Engineering. Volume 31, Page 167-177.

BEDRIKOVETSKY, P., FONSECA, D. R., SILVA, M. F., 2005. Well-History-Based Prediction of Injectivity Decline (Accounting for Oil-Water Mobility Variation During Waterflooding). SPE 93885, Rio de Janeiro, Brasil, 20-23 June.

BEDRIKOVETSKY, P., SANTOS, P. M., NETO, A. M., RIENTE, A. F., 2009. Fractional Flow Theory for Suspension Flow in Petroleum Reservoirs, SPE 121822 proceedings of the 2009 Latin American and Caribbean Petroleum Engineering Conference, Cartagena, Columbia, May 31 – June 3.

BENTLEY, H. W., PHILLIPS, F. M., DAVIS, S. N., 1986. Chlorine-36 in the terrestrial environment. In: Fritz P., Fontes JC (eds). Handbook of environmental isotope geochemistry, vol 2. The terrestrial environment. Elsevier, Amsterdam, Page 427-480.

BIRD, R. B., STEWART, W. E., LIGHTFOOT, E. N., 2002. Transport Phenomena. Second Edition. John Wiley & Sons, Inc., NY.

BONATO, A. J. A. M, LIMEIRA, V. A. G, SANTOS, A. E, DOS SANTOS, A., 2014.

Software para Tratamento de Dados da Perda de Injetividade. IBP1136_14 Rio Oil & Gas

2014 Expo and Conference.

CHURCHER, P. L., FRENCH, P. R, SHAW, J. C., SCHRAMM, L.L., 1991. Rock Properties of Berea sandstone, Baker Dolomite and Indiana Limestone. Society of Petroleum Engineers, SPE 21044-MS. Anaheim, California.

CIVAN, F., 1994. Predictability of Formation Damage: An Assessment Study and Generalized Models, Final Report, U. S. DOE Contract DE-AC22-90-BC14658.

CIVAN, F., 2007. Reservoir Formation Damage: Fundamentals, Modeling, Assessment and Mitigation. Second Edition, Chapter 19 - Injectivity of the Waterflooding Wells. Page 775. DAMBANI, S. L, BLUNT, M. J., TENDO, F., LAWAL, K. A., 2014. Analysis of Injectivity Decline in Some Offshore Water Injectors. SPE – 172469 – MS.

DAVIDSON, D. H., 1979. Invasion and Impairment of Formations by Particulates, SPE 8210, presented at the 54th Annual Fall meeting of the SPE, Las Vegas, Nevada, September 23-26. DELGADO, J. M. P. Q, VÁZQUEZ, M. S., 2011. Analytical Solutions of Mass Transfer around a Prolate or an Oblate Spheroid Immersed in a Packed Bed. ISBN 978-953-307-215-9. Mass Transfer in Multiphase Systems and its Applications. Edited by Prof. Mohamed El- Amin.

DONALDSON, E. C., BAKER, B. A. e CARROL, H. B., 1977. Particle Transport in Sandstone, SPE 6905, presented at the 52nd Annual Technical Conference of SPE, Denver, Colorado, October 9-12.

DULLIEN, F. A. L., 1979. Porous Media Fluid Transport and Pore Structure. Academic Press, Inc. San Diego, California 92101.

EYLANDER, J.G.R., 1988. Suspended solids specifications for water injection from core- flood tests. SPE Res. Engng, 1287.

FURTADO, C. J. A., SOUZA, A. L. S, ARAUJO, C. H. V., 2007. Evaluation of Different Models for Injectivity Decline Prediction. SPE 108055 - SPE Latin American and Caribbean Petroleum Engineering Conference, Buenos Aires, Argentina, 15-18 April.

GAO, C., 2007. Factors Affecting Particle Retention in Porous Media. Emirates Journal for Engineering Research, 12, 1-7.

HAGOORT, J., 2007. An analytical model for predicting the productivity of perforated wells. Journal of Petroleum Science and Engineering, Vol. 56, p. 199-218.

HERZIG, J.P., LECLERC, D.M., GOFF, P. LE., 1970. Flow of Suspensions through Porous Media – Application to Deep Filtration. Industrial and Engineering Chemistry, Vol. 62, N°5, p.8-35.

HURST, W., 1953. Establishment of the Skin Effect and its Impediment to Fluid Flow into a Well Bore. Pet. Eng., October.

IWASAKI, T., 1937. Some notes on sand filtration. J. Amer. Water Works Assoc., Vol. 29, (1591-1602).

KARACAN, C. O.; GRADER, A. S.; HALLECK, P. M, 2000. Effect of Pore Fluid Type on Perforation Damage and Flow Characteristics, SPE, Paper Number 67290-MS.

KARAKAS, M., TARIQ, S. M., 1991. Semianalytical Productivity Models for Perforated Completions. SPE Production Engineering, SPE 18247.

LEA, C-M., HILL, A. D, SEPEHRNOORL, K., 1992. Simulation of Sandstone Acidizing of a Damaged Perforation. SPE Production Engineering, SPE 19419.

LIMEIRA, V. A. G, 2010. Modelagem e Previsão da Perda de Injetividade em Poços Canhoneados. Dissertação de Mestrado, Universidade Federal do Rio Grande do Norte. LIMEIRA, V. A. G., SANTOS, A., ARAÚJO, J. A., 2012. Analytical Modeling of Injectivity Decline in Perforated Wells. In: Rio Oil & Gas Expo and Conference, 2012, Rio de Janeiro - RJ. Exploração e Produção.

LIMEIRA, V. A.G, SANTOS, A., 2013. Modelagem da Perda de Injetividade para Poços de Petróleo. 7º Congresso Brasileiro de P&D em Petróleo e Gás – 7ºPDPETRO. Aracaju – SE. LIU, X., CIVAN, F., 1994. Formation Damage and Skin Factors Due to Filter Cake Formation and Fines Migration in the Near-Wellbore Region. SPE 27364 paper. SPE Formation Damage Control Symposium, Lafayette, Louisiana. Page 259-274.

LIU, X., CIVAN, F., 1995. Formation Damage by Fines Migration Including Effects of Filter Cake, Pore Compressibility and Non-Darcy Flow – A Modeling Approach to Scaling from Core to Field. SPE 28980 paper. SPE International Symposium on Oilfield Chemistry, San Antonio, Texas. Page 14-17.

LIU, X., CIVAN, F., 1996. Formation Damage and Filter Cake Buildup in Laboratory Core Tests: Modeling and Model-Assisted Analysis. SPE Formation Evaluation J., Page 26-30. MALISKA, C. R., 2004. Transferência de calor e mecânica dos fluidos computacional. 2 ed. Rio de Janeiro: LTC.

MCDOWELL-BOYER, L. M.; HUNT, J. R. e SITAR, N, 1986. Particle transport through porous media, Water Resour. Res. Vol 22 (13), p.1901-1921.

MELCER, J., GERRISH, H.W., 1996. Effects of formation damage on injection operations and on pressure transient tests. In: Apps, J.A., Tsang, C. (Eds.). Deep Well Dispoal of Hazardous Waste:Scientific and Engineering Aspects, Academic Press, New York, pp. 277– 286.

MUSKAT, M., WYCKOFF, R. D., 1934. A Theorical Analysis of Water-flooding Networks. Journal Transactions of the AIME, 107, SPE 934062, 62-76 (December).

NAGLE, R. K., SAFF, E. B., SNIDER, A. D., 2012. Equações Diferenciais. 8ª Edição. Pearson Education.

NUNES, M. J. S. C., 2007. Tratamento de dados de poços injetores e previsão da injetividade para poços canhoneados. Universidade Estadual do Norte Fluminense. Macaé/RJ.

OCHI, J., VERNOUX, J.F., 1996. Orign of permeability reduction under high flow-rate injection conditions. In: Apps, J.A., Tsang, C. (Eds.). Deep Well Dispoal of Hazardous Waste: Scientific and Engineering Aspects, Academic Press, New York, pp. 637–650.

OORT, V. E., VELZEM, V. J. F. G., LEERLOOIJER, K., 1993. Impairment by Suspended Solids Invasion: Testing and Prediction. Artigo SPE 23822 - SPE Formation Damage Symposium, Lafayette, Louisiana, EUA, 26 – 27 February.

PALSSON, B., DAVIES, D.R., TODD, A. C., SOMERVILLE, J.M. A Holistic Review of the Water Injection Process. Artigo SPE 82224 - SPE European Formation Damage Conference, The Hague, 13-14 May, 2003.

PANG, S., SHARMA, M.M., 1994. A Model for Predicting Injectivity Decline in Water Injection Wells, SPE 28489 presented at the SPE 69th Annual Technical Conference and Exhibition held in New Orleans, Lousiana, September 25-28, pp. 275-284.

PANG, S., SHARMA, M.M., 1995. Evaluating the Performance of Open-Hole, Perforated and Fractured Water Injection Wells, SPE 30127, SPE European Formation Damage Control Conference in the Hague, The Netherlands.

PANG, S., SHARMA, M.M., 1997. A Model for Predicting Injectivity Decline in Water Injection Wells, SPE Formation Evaluation, September pp. 194-201.

PERKINS, T. K., GONZALEZ, J. A., 1995. The effect of thermoelastic stresses on injection well fracting, SPE 11332, Society of Petroleum Engineers Journal, Feb 1995, p. 78-88.

ROSA, A. J., CARVALHO, R. S., XAVIER, J. A. D., 2006. Engenharia de Reservatórios de Petróleo, p. 660-661. Interciência.

SANTANA, A. P. S. C., 2008. Recuperação Suplementar. Apostila do curso de Tecnologia de Petróleo e Gás.

SANTOS, A., BARROS, P.H.L., 2010. Multiple Particle Retention Mechanisms during Filtration in Porous Media. Environmental Science & Technology, 44, p. 2515-2521.

SANTOS, A., BEDRIKOVETSKY, P., 2006. A Stochastic Model for Particulate Suspension Flow in Porous Media. Transport in Porous Media, 62: 23-53.

SARIPALLI, K. P., SHARMA, M. M., BRYANT, S. L., 2000. Modeling injection well performance during deep-well injection of liquid wastes. Journal of Hidrology, Volume 227, 41-55.

SCHECHTER, R. S., 1992. Oil Well Stimulation. Prentice Hall Inc., Englewood Cliffs, New Jersey.

SHARMA, M. M., PANG, S., WENNBERG, K. E., MORGENTHALER, L. N., 2000. Injectivity Decline in Water-Injection Wells: An Offshore Gulf of Mexico Case Study. SPE 60901. SPE Prod. & Facilities, February.

SILVA, M. F., BEDRIKOVETSKY, P., VAN DEN BROEK, W. M. G. T., SIQUEIRA, A., SOUZA, A. L., 2004. A New Method for Injectivity Impaiment Characterization from Well and Coreflood data. SPE 89885. SPE Annual Technical Conference and Exhibition , Houston, Texas.

STOW, S.H., JOHNSON, K.S., 1990. Environmental impacts associated with deep-well disposal. In: LaMoreaux, P.E., Vrba, J. (Eds.). Hydrogeology and Management of Hazardous Waste by Deep-well Disposal, International Association of Hydrogeologists, Hannover, Germany.

TANG, K. T., 2007. Mathematical Methods for Engineers and Scientists 2. Vector Analysis, Ordinary Differential Equations and Laplace Transforms. Chapter 3 – Curved Coordinates. Springer-Verlag.

TIEN, C., RAMARAO, B. V., 2007. Granular Filtration of Aerosols and Hydrosols. Elsevier Science & Technology Books. Chapter 4 – Mechanisms of Particle Deposition.

TIEN, C., PAYATAKES, A.C., 1979. Advances in deep bed filtration. AlChE Journal, 25(9), 737-759.

TODD, A. C., BROWN, J., NOORKAMI, M, TWEEDIE, J. A., 1979. Review of Permeability Damage Studies and Related North Sea Water Injection, presented at the SPE International Symposium on Oilfield and Geothermal Chemistry, SPE 7883, Dallas, Texas. TODD, A. C., SOMERVILLE, J. E., GRAHAM SCOTT, 1984. The Application of Depth of Formation Damage Measurements in Predicting Water Injectivity Decline. Presented at the Formation Damage Control Symposium, SPE 12498, Bakersfield, California.

VAN DEN BROEK, W. M. G. T, BRUIN, J. N., TRAN, T. K., VAN DER ZANDE, M. J., e VAN DER MEULEN, H., 1999. Delft University of Technology, SPE 54769, 31 May – 01 June.

VAN EVERDINGEN, A. F., 1953. The Skin Effect and its Influence on the Productive Capacity of a Well. Trans. AIME, 198, 171-176. Reprint Series, nº 9 – Pressure Analysis

Methods, 1967. Dallas, SPE of AIME, 45-50.

VETTER, O. J., KANDARPA, V., STRATTON, M., VEITH, E., 1987. Particle Invasion into Porous medium and Related Injectivity Problems. Presented at the SPE International Symposium on Oilfield and Geothermal Chemistry, SPE 16625, San Antonio, Texas.

WENNBERG, K. I., e SHARMA, M.M., 1997. Determination of the Filtration Coefficient and the Transition Time for Water Injection Wells, SPE 38181.

YAO JUN, W. M., 2009. Streamline numerical well-testing interpretation model and pressure response for partially perforated wells. Petroleum Exploration and Development. Science Direct. Volume 36, Issue 4.

YERRAMILLI, R., 2012. Water Injectivity Prediction: Experiments and Modeling. Department of Geotechnology – Section of Petroleum Engineering. TUDelft – Delft University of Technology.