Recuperación Mejorada de Petróleo Asistida por Microorganismos con Capacidad de Sintetizar Biosurfactantes

Autores/as

  • Miguel A. Hernández Rivera Universidad Juárez Autónoma de Tabasco
  • Uri M. Ojeda Morales Universidad Juárez Autónoma de Tabasco
  • Arturo Martínez Morales Universidad Juárez Autónoma de Tabasco

DOI:

https://doi.org/10.19136/jobs.a5n15.3569

Palabras clave:

MEOR, petróleo, combustibles, biosurfactantes

Resumen

El petróleo es la principal fuente de energía del mundo. Con el tiempo su explotación y producción ha disminuido lo cual promueve la implementación de novedosas técnicas de extracción que incrementen la eficiencia de extracción. La recuperación mejorada de petróleo con ayuda de microorganismos (MEOR), resulta una opción viable para implementarse en pozos maduros o abandonados que mediante el uso de microorganismos y sus productos metabólicos, tienen la propiedad de disminuir la tensión superficial e interfacial del agua, así como de cambiar la mojabilidad de la roca reservorio que contiene al petróleo residual. La MEOR es una tecnología ambientalmente amigable que permite recuperar porcentajes importantes de hidrocarburos pesados no recuperables por métodos convencionales. El objetivo de este capítulo es describir mediante una revisión bibliográfica la recuperación mejorada de petróleo con ayuda de microorganismos a través de diferentes fuentes de datos.

Biografía del autor/a

  • Miguel A. Hernández Rivera, Universidad Juárez Autónoma de Tabasco
    División Académica de Ingeniería y Arquitectura
  • Uri M. Ojeda Morales, Universidad Juárez Autónoma de Tabasco
    División Académica de Ciencias Biológicas
  • Arturo Martínez Morales, Universidad Juárez Autónoma de Tabasco
    División Académica Multidisciplinaria de Jalpa de Méndez

Referencias

Satter, A. and G. M. Iqbal. 2016. Cap 17. Enhanced oil recovery processes: thermal, chemical, and miscible floods. Reservoir Engineering, The Fundamentals, Simulation, and Management of Conventional and Unconventional Recoveries.

Sarafzadeh, P., A. Niazi, V. Oboodi, M. Ravanbakhsh, A. Zeinolabedini H., S. Shahab A., S. Raeissi. 2014. Investigating the efficiency of MEOR processes using Enterobacter cloacae and Bacillus stearothermophilus SUCPM#14 (biosurfactant-producing strains) in carbonated reservoirs. Journal of Petroleum Science and Engineering. 113:46–53.

Tatar, A. 2018. Microbial Enhanced Oil Recovery: Microbiology and Fundamentals, Chapter Ten. Fundamentals of Enhanced Oil and Gas Recovery from Conventional and Unconventional Reservoirs. Gulf Professional Publishing. Australia. Pages 291-508.

Patel, J., S. Borgohain, M. Kumar, V. Rangarajan, P. Somasundaran and R. Sen. 2015. Recent developments in microbial enhanced oil recovery. Renewable and Sustainable Energy Reviews. 52:1539–1558.

Safdel, M., M. Amin Anbaz, A. Daryasafar and M. Jamialahmadi. 2017. Microbial enhanced oil recovery, a critical review on worldwide implemented field trials in different countries. Renewable and Sustainable Energy Reviews 74:159–172.

Varjani, S. J. 2017. Microbial degradation of petroleum hydrocarbons. Bioresource Technology 223:277–286

Zhao, F., R. Shi, Q. Cui, S. Han, H. Dong and Y. Zhang. 2017. Biosurfactant production under diverse conditions by two kinds of biosurfactant-producing bacteria for microbial enhanced oil recovery. Journal of Petroleum Science and Engineering 157 (2017) 124–130.

Al-Wahaibi, Y., S. Joshi, S. Al-Bahry, A. Elshafie, A. Al-Bemani y B. Shibulal. 2014. Biosurfactant production by Bacillus subtilis B30 and its application in enhancing oil recovery. Colloids and Surfaces B: Biointerfaces. 114:324– 333.

El-Sheshtawy, H. S., I. Aiad, M.E. Osman, A.A. Abo-ELnasr and A.S. Kobisy. 2015. Production of biosurfactant from Bacillus licheniformis for microbial enhanced oil recovery and inhibition the growth of sulfate reducing bacteria. Egyptian Journal of Petroleum. 24:155–162.

Sarafzadeh, P., A. Niazi, V. Oboodi, M. Ravanbakhsh, A. Zeinolabedini H., S. Shahab A., S. Raeissi. 2014. Investigating the efficiency of MEOR processes using Enterobacter cloacae and Bacillus stearothermophilus SUCPM#14 (biosurfactant-producing strains) in carbonated reservoirs. Journal of Petroleum Science and Engineering. 113:46–53.

Speight, J. 2016. Introduction to enhanced recovery methods for heavy oil and tar sands. Part I. Reservoirs and Reservoir Fluids. Second Edition. U.S.A.

Amato, M., L. Fantacci and J. G. Speight. 2015. An Introduction to Petroleum Technology, Economics, and Politics. Hoboken, NJ, USA: John Wiley & Sons.

Van Hamme, J., A. Singh and O. P. Ward. 2003. Recent Advances in Petroleum Microbiology. Microbiology and Molecular Biology Reviews. 67(4):503-549.

Gao, H., H. Lai, J. Zhang and Q. Xue. 2017. Effects of bacterial cell density and alternating microbial- and enzymolysis-enhanced oil recovery on oil displacement efficiency. Chemical Engineering Journal. 327:28–38.

Kivistö, V. P. K, and M. T. Karp. 2011. Halophilic anaerobic fermentative bacteria. Journal of Biotechnology 152:114–124.

Castorena-Cortés G., I. Zapata-Peñasco, T. Roldán-Carrillo, J. Reyes-Avila, M. Mayol-Castillo, S. Román-Vargas and P. Olguín-Lora. 2012. Evaluation of indigenous anaerobic microorganisms from Mexican carbonate reservoirs with potential MEOR application. Journal of Petroleum Science and Engineering 81:86–93.

Bachmann, R. T., A. Clemensis J. and R. G.J. Edyvean. 2014. Biotechnology in the petroleum industry: An overview International Biodeterioration & Biodegradation. 86:225-237.

Joy, S., P. K. S. M. Rahman and S. Sharma. 2017. Biosurfactant production and concomitant hydrocarbon degradation potentials of bacteria isolated from extreme and hydrocarbon contaminated environments. Chemical Engineering Journal 317:232–241

Soares da Silva, R. D. C., D. G. Alemida, H. M. Meira, E. J. Silva, C. B. B. Farías, R. D. Rufino, J. M. Luna and L. A. Sarubbo. 2017. Production and characterization of a new biosurfactant from Pseudomona cepacia grown in low-cost fermentative medium and its application in the oil industry.

Shibulal, B., S. N. Al-Bahry, Y. M. Al-Wahaibi, A. E. Elshafie, A. S. Al-Bemani and S. J. Joshi. 2014. Microbial Enhanced Heavy Oil Recovery by the Aid of Inhabitant Spore-Forming Bacteria: An Insight Review. The Scientific World Journal. Volume 2014, Article ID 309159. 1-12.

Wolicka, D. and A. Borkowski. 2012. Microorganisms and Crude Oil, Introduction to Enhanced Oil Recovery (EOR) Processes and Bioremediation of Oil-Contaminated Sites. Dr. Laura Romero-Zerón (Ed.), ISBN: 978-953-51-0629-6, InTec. Poland. 318 p.

Gudiña, E. J., J. F. B. Pereira, L. R. Rodrigues, J. A. P. Coutinho and J. A. Teixeira. 2012. Isolation and study of microorganisms from oil samples for application in microbial enhanced oil recovery, Int. Biodeterior. Biodegradation. 68:56-64.

Lin, J., Hao, B., Cao, G., Wang, J., Feng, Y., Tan, X., Wang, W., 2014. A study on the microbial community structure in oil reservoirs developed by water flooding. J. Petroleum Sci. Eng. 122, 354-359.

Saikia, U., Bharanidharan. R., E. Vendhan, K. Y. Santosh and S. Shankar S. 2013. A Brief review on the science, mechanism and environmental constraints of microbial Enhanced Oil Recovery (MEOR). ChemTech. 5(3):1205–12.

Varjani, S. J. and V. N. Upasani. 2017. Critical review on biosurfactant analysis, purification and characterization using rhamnolipid as a model biosurfactant. Bioresource Technology 232:389–397.

Frank, Y., Banks, D., Avakian, M., Antsiferov, D., Kadychagov, P., Karnachuk, O., 2016. Firmicutes is an important component of microbial communities in water injected and pristine oil reservoirs, western Siberia, Russia. Geomicrobiol. J. 33:387-400.

Li, X.-X., S. M. Mbadinga, J.-F. Liu, L. Zhou, S.-Z. Yang, J.-D. Gu and B.-Z. Mu. 2017. Microbiota and their affiliation with physiochemical characteristics of different subsurface petroleum reservoirs. International Biodeterioration & Biodegradation 120:170-185.

Xue, Y. and G. Voordouw. 2015. Control of Microbial Sulfide Production with Biocides and Nitrate in Oil Reservoir Simulating. Frontiers in Microbiology. 6:1-11.

Yakimov, M. M., K. N. Timmis, V. Wray and H. L. Fredrickson. 1995. Characterization of a New Lipopeptide Surfactant Produced by Thermotolerant and Halotolerant Subsurface Bacillus licheniformis BAS50. Applied and Environmental Microbiology. 61(5):1706–1713.

Zheng, C., M. Wang, Y. Wang and Z. Huang. 2011. Optimization of biosurfactant-mediated oil extraction from oil sludge. Bioresource Technology. 110:338–342

Darvishi, P., S. Ayatollahi, D. Mowla y A. Niazi. 2011. Biosurfactant production under extreme environmental conditions by an efficient microbial consortium, ERCPPI-2. Colloids and Surfaces B: Biointerfaces 84:292–300.

Ghojavand, H., F. Vahabzadeh and A. Khodabandeh Shahraki. 2012. Enhanced oil recovery from low permeability dolomite cores using biosurfactant produced by a Bacillus mojavensis (PTCC 1696) isolated from Masjed-I Soleyman field. Journal of Petroleum Science and Engineering 81:24–30.

Sarafzadeh, P., A. Zeinolabedini H., M. Ravanbakhsh, A. Niazi and S. Ayatollahi. 2013. Investigating the efficiency of MEOR processes using Enterobacter cloacae and Bacillus stearothermophilus SUCPM#14 (biosurfactant-producing strains)in carbonated reservoirs. Journal of Petroleum Science and Engineering. 113:46–53.

Al-Bahry, S.N., Y.M. Al-Wahaibi, A.E. Elshafie, A.S. Al-Bemani, S.J. Joshi, H.S. Al-Makhmari, H.S. and Al-Sulaimani. 2013. Biosurfactant production by Bacillus subtilis B20 using date molasses and its possible application in enhanced oil recovery. International Biodeterioration & Biodegradation 81:141-146.

Pereira, J. F.B., E. J. Gudiña, R. Costa, R. Vitorino, J. A. Teixeira, J. A. P. Coutinho and L. R. Rodrigues. 2013. Optimization and characterization of biosurfactant production by Bacillus subtilis isolates towards microbial enhanced oil recovery applications. Fuel 111: 259–268.

Arora, P., D. R. Ranade and P. K. Dhakephalkar. 2014. Development of a microbial process for the recovery of petroleum oil from depleted reservoirs at 91–96° C. Bioresource Technology 165:274–278.

Andrade, S. N. R., M. A. C. Luna, A. L. C. M. A. Santiago, L. O. Franco, G. K. B. Silva, P. M. de Souza, K. Okada, C. D. C. Albuquerque, C. A. Alves da Silva and G. M. Campos-Takaki. 2014. [35] Biosurfactant-and-Bioemulsifier Produced by a Promising Cunninghamella echinulata Isolated from Caatinga Soil in the Northeast of Brazil Int. J. Mol. Sci. 15, 15377-15395.

Zoua, C., M. Wang, Y. Xing, G. Lan, T. Ge, X. Yan, T. Gu.. 2014. Characterization and optimization of biosurfactants produced by Acinetobacter baylyi ZJ2 isolated from crude oil-contaminated soil sample toward microbial enhanced oil recovery applications. Biochemical Engineering Journal. 90:49–58.

Inès, M. and G. Dhouha. 2015. Glycolipid biosurfactants: Potential related biomedical and biotechnological applications. Carbohydrate Research. 416:59–69-.

Konishi, M., Y. Yoshida and J. Horiuchi. 2015. Efficient production of sophorolipids by Starmerella bombicola using a corncob hydrolysate medium. Journal of Bioscience and Bioengineering. 119(3):317-322.

Gaytán, I., M. Á. Mejía, R. Hernández-Gama, L. G. Torres, C. A. Escalante y A. Muñoz-Colunga. 2015. Effects of indigenous microbial consortia for enhanced oil recovery in a fragmented calcite rocks system. Journal of Petroleum Science and Engineering. 128:65–72.

Armstrong, R. T., D. Wildenschild and B. K. Bay. 2015. The effect of pore morphology on microbial enhanced oil recovery. Journal of Petroleum Science and Engineering. 130:16–25.

Gudiña, E. J., A. I. Rodrigues, V. de Freitas, Z. Azevedo, J. A. Teixeira and L. R. Rodrigues. 2016. Valorization of agro-industrial wastes towards the production of rhamnolipids. Bioresource Technology 212:144–150

Fooladi, T., N. Moazami, P. Abdeshahian, A. Kadier, H. Ghojavand, W. M. Wan Yusoff and A. A. Hamid. 2016. Characterization, production and optimization of lipopeptide biosurfactant by new strain Bacillus pumilus 2IR isolated from an Iranian oil field.Journal of Petroleum Science and Engineering 145:510–519.

Oluwaseun A. C., O. J. Kola, P. Mishra, J. Ravinder Singh, A. K. Singh, S. S. Cameotra and B. Oluwasesan Micheal. Characterization and optimization of a rhamnolipid from Pseudomonas aeruginosa C1501 with novel biosurfactant activities. Sustainable Chemistry and Pharmacy 6:26–36.

Ismail, W., I. S. Al-Rowaihi, A. A. Al-Humam, R. Y. Hamza, A. M. El Nayal and M. Bououdina. 2013. Characterization of a lipopeptide biosurfactant produced by. a crude-oil-emulsifying Bacillus sp. I-15. International Biodeterioration & Biodegradation 84:168-178.

Yañez-Ocampo, G. y A. Wong-Villarreal. 2013. Biosurfactantes Microbianos, Producción Potencial con Residuos Agroindustriales de Chiapas. BioTecnología. 17(3):12-28.

Sobrinho, H. B. S., J. M. L., R. D. Rufino, A. L. F. Porto and L. A. Sarubbo. 2013. Biosurfactants: Classification, Properties and Environmental Applications. In: R. D. Rufino and L. Sarubbo (ed). Biotechnology Vol. 11: Bioremediation. ResearchGate. Pp. 1-29.

Tadros, T. F. 2014. An Introduction to Surfactants. De Gruyter. Germany.

Sajna, K. V., R. Höfer, R. K. Sukumaran, L. D. Gottumukkala and A. Pandey. 2015. White Biotechnology in Biosurfactants, chapter 14. In: Pandey, A., R. Höfer, C. Arroche, M. Taherzadeh, and K. M. Nampoothiri (editors). Elsevier-Book Aid International. USA.

Karlapudi, A. P., T.C. Venkateswarulu, J. Tammineedi, L. Kanumuri, B. K. Ravuru and V. R. Dirisala. 2018. Role of biosurfactants in bioremediation of oil pollution-a review. Petroleum. 4:241-249.

Al-Sulaimani, H., Y. M. Al-Wahaibi, S. Joshi and S. Al-Bahry. 2014. Microbial biotechnology for enhancing oil recovery: Current developments and future prospects. Invited Review. Biotechnol. Bioinf. Bioeng. 1(2):147-148.

McInerney, M. J., D. P. Nagle and R. M. Knap. 2005. Microbially enhanced oil recovery: past, present, and future. In: Ollivier, B. y M. Magot (eds). Petroleum Microbiolgy. ASM PRESS. U.S.A.

Roldán-Carrillo, T., G. Castorena-Cortés, J. Reyes-Ávila, I. Zapata-Peñasco and Patricia Olguín-Lora. 2012. Effect of porous media types on oil recovery by indigenous microorganisms from a Mexican oil field. J Chem Technol Biotechnol. 88:1023–1029.

Volk, P. H. 2010. 3° Oil recovery: Fundamental approaches and principles of microbially enhanced oil recovery, in: K.N. Timmis (Ed.), Handbook of Hydrocarbon and Lipid Microbiology, Springer, Berlin, Heidelberg. pp. 2727-2738.

Descargas

Publicado

2020-02-29

Número

Sección

Artículo científico

Cómo citar

Hernández Rivera, M. A., Ojeda Morales, U. M., & Martínez Morales, A. (2020). Recuperación Mejorada de Petróleo Asistida por Microorganismos con Capacidad de Sintetizar Biosurfactantes. Journal of Basic Sciences, 5(15). https://doi.org/10.19136/jobs.a5n15.3569