Bibliografie tematiche / Microbiological enhanced oil recovery (MEOR)

Letteratura scientifica selezionata sul tema "Microbiological enhanced oil recovery (MEOR)"

Autore: Grafiati
Pubblicato: 8 giugno 2024

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Articoli di riviste sul tema "Microbiological enhanced oil recovery (MEOR)":

1

Brown, Lewis R. "Geomicrobiology". Microbiology Australia 29, n. 1 (2008): 32. http://dx.doi.org/10.1071/ma08032.

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Abstract (sommario):
The ever increasing demand for oil, coupled with the reduction in reserves, is increasing emphasis on finding new oil deposits and recovering more oil from known reserves since half to two thirds of all of the oil discovered to date is still in the ground and not recoverable by present technology. There are, however, microbiological techniques that could be of value in extending the time before alternatives to oil as the major energy source are required. Two will be discussed here ? geomicrobiological prospecting and microbial enhanced oil recovery (MEOR).
2

Towler, B. F., e B. Bubela. "THE APPLICATION OF MICROBIOLOGICALLY ENHANCED OIL RECOVERY TO THE ALTON FIELD, QUEENSLAND, AUSTRALIA". APPEA Journal 27, n. 1 (1987): 378. http://dx.doi.org/10.1071/aj86033.

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The Alton Field has produced 1.875 million stock tank barrels of oil and is nearing the end of its primary life. It is proposed to enhance the recovery from the field microbiologically. Surfactant producing bacteria will be injected into the reservoir in order to lower the oil/water interfacial tension and mobilise the remaining oil. Laboratory experiments on artifical cores have demonstrated the viability of this process. This MEOR project will initially be done in a one-well cyclic Huff and Puff program.
3

Aruawamedor, Onome Christopher, e Sylvester Okotie. "Characterization and Application of Biopolymer Producing Bacteria for Enhanced Oil Recovery". International Journal of Energy and Environmental Research 10, n. 2 (15 febbraio 2022): 1–14. http://dx.doi.org/10.37745/ijeer.13vo10n2pp114.

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The objective of this research is to isolate and identify hydrocarbon-degrading bacteria for biopolymer synthesis and application in the augmentation of Nigerian heavy crude oil recovery. MEOR refers to the process of injecting either indigenous or non-indigenous microbes into hydrocarbon reserves. Injecting microorganisms with nutritional broth facilitate the formation of essential metabolites such as biosurfactants, biopolymers, and gases, resulting in decreased interfacial tension, viscosity modification, and mobility control. It is environmentally friendly, less expensive to implement, and requires minimal or no changes to the existing infrastructure. A soil sample from a hydrocarbon-contaminated site in Ogoniland was collected and sent to a laboratory for physicochemical and microbiological investigation. Bacillus sp, Pseudomonas sp, and Klebsiella sp were biochemically identified after screening three isolates for biopolymer production using Sudan black solution. To assess the ideal growth and biopolymer synthesis capability under reservoir conditions, a variety of pH, temperature, salinity, carbon, and nitrogen nutrition sources were applied to selected microorganisms. Peptone is the optimal nitrogen source for Bacillus sp, glucose is the optimal carbon source for Bacillus sp, and glycerol is the optimal carbon source for Pseudomonas sp and Klebsiella sp, as indicated by the results. In addition, the following are the ideal parameter ranges for the three microorganisms: pH 7–8, a temperature range between 25 and 350 degrees Celsius, and a salinity range between 0.5 and 5% are all desirable conditions for a body of water. After inoculation with microorganisms and the optimum nutrient source, an additional recovery range of 18.33% to 29.09% of the pore capacity was achieved. The post-recovery analysis uncovered a remarkable transformation of heavy crude to light hydrocarbon components by an average of 20.33 percent with glucose and 97.27 percent with peptone.
4

Ayyed, Abbas Kadhim. "Converting Carbon Dioxide in to Methane Gas and Enhance Oil Recovery by using Biotechnology Process". Journal of Petroleum Research and Studies 12, n. 1 (20 marzo 2022): 242–66. http://dx.doi.org/10.52716/jprs.v12i1.601.

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Using biotechnology in petroleum industry has many advantages .for example , Microbiologically Enhanced Oil Recovery (MEOR) increase of the productivity of the oil field and decrease the viscosity of the crude oil . It's known that atmosphere has considerable amount of CO2 gas as a result of industrial activities (crude oil production). CO2 gas plays a role in increasing atmosphere temperature and causing global warming. Bioremediation is a viable Biotechnology function for Re-producing depleted wells and global warming. It means Bioremediation uses metabolic adaptation of microorganism, a promising approach, using this technique employs of Methanogenic bacteria to convert CO2 gas in to CH4. Therefore turns carbon dioxide in to carbon which is added to crude oil (so contribute decrease the viscosity for heavy crude oil, This mechanism is a part of the promotion of oil production.it is apart an operation EOR. and Second reacts with Hydrogen by Bacteria to produce methane gas. The aim study, advantage this method increase production. and removal global warming. In this review, we discuss the role of Methanogenic bacteria in transforming CO2 gas into methane gas , that it has a role in crude oil production . Methanogenic bacteria have an important role in petroleum industry and environment during decreasing CO2 amount in the atmosphere and increasing reservoir pressure. MEOR technology uses strains that have a role in crude oil production; these bacterial strains produce biogases (Methane) that increase reservoir pressure. In this study, six strains were isolated from Rumaila oilfield, south of Iraq. These strains were identified based on microscopic and morphological observations. These strains were Methanogenic bacteria. The main part of this study includes identification of bacteria that can consume CO2 gas and making continual lab experiments to isolate and determine the best genus to do this process in oil field. Experiments were done in specific bio-labs for two years, Methanogenic bacteria strains were isolated by using specific selective growth media. The second part of this study is using these strains for bioremediation process of oil wells, which includes providing anaerobic conditions for these strains to transform CO2 gas to methane . Morphological and microscopic observations were conducted to these strains and showed the best kind of these strains according to the ability of transformation of CO2 to methane. The isolated bacteria were called BRS11 strain showed high efficiency in transformation of CO2 to methane.
5

Brown, Lewis R. "Microbial enhanced oil recovery (MEOR)". Current Opinion in Microbiology 13, n. 3 (giugno 2010): 316–20. http://dx.doi.org/10.1016/j.mib.2010.01.011.

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6

Lazar, I., I. G. Petrisor e T. F. Yen. "Microbial Enhanced Oil Recovery (MEOR)". Petroleum Science and Technology 25, n. 11 (27 novembre 2007): 1353–66. http://dx.doi.org/10.1080/10916460701287714.

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Alias, Nur Hashimah, Mohd Sabri Zulkifli, Shareena Fairuz Abdul Manaf, Effah Yahya, Nurul Aimi Ghazali e Tengku Amran Tengku Mohd. "Saccharomyces cerevisiae from Baker’s Yeast for Lower Oil Viscosity and Beneficial Metabolite to Improve Oil Recovery: An Overview". Applied Mechanics and Materials 625 (settembre 2014): 522–25. http://dx.doi.org/10.4028/www.scientific.net/amm.625.522.

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This article is an overview of microbial enhanced oil recovery (MEOR) and the potential ofSaccharomycesCerevisiaeto be applied in MEOR. MEOR may have same mechanisms with commercial enhanced oil recovery (EOR) but it used biological approach in improving oil recovery.SaccharomycesCerevisiaeproduced carbon dioxide and ethanol under anaerobic condition. The carbon dioxide and ethanol that produced by this microbe are two from the six main MEOR agents in improving oil recovery. This articles also discussed on previous MEOR pilot projects that were conducted in Argentina, China and Malaysia.
8

She, Haicheng, Debin Kong, Yiqiang Li, Zaiqiang Hu e Hu Guo. "Recent Advance of Microbial Enhanced Oil Recovery (MEOR) in China". Geofluids 2019 (9 aprile 2019): 1–16. http://dx.doi.org/10.1155/2019/1871392.

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Compared with other enhanced oil recovery (EOR) techniques like gas flooding, chemical flooding, and thermal production, the prominent advantages of microbial enhanced oil recovery (MEOR) include environment-friendliness and lowest cost. Recent progress of MEOR in laboratory studies and microbial flooding recovery (MFR) field tests in China are reviewed. High biotechnology is being used to investigate MFR mechanisms on the molecular level. Emulsification and wettability alternation due to microbial effects are the main interests at present. Application of a high-resolution mass spectrum (HRMS) on MEOR mechanism has revealed the change of polar compound structures before and after oil degradation by the microbial on the molecular level. MEOR could be divided into indigenous microorganism and exogenous microorganism flooding. The key of exogenous microorganism flooding was to develop effective production strains, and difficulty lies in the compatibility of the microorganism, performance degradation, and high cost. Indigenous microorganism flooding has good adaptation but no follow-up process on production strain development; thus, it represents the main development direction of MEOR in China. More than 4600 wells have been conducted for MEOR field tests in China, and about 500 wells are involved in MFR. 47 MFR field tests have been carried out in China, and 12 field tests are conducted in Daqing Oilfield. MFR field test’s incremental oil recovery is as high as 4.95% OOIP, with a typical slug size less than 0.1 PV. The input-output ratio can be 1 : 6. All field tests have shown positive results in oil production increase and water cut reduction. MEOR screening criteria for reservoirs in China need to be improved. Reservoir fluid, temperature, and salinity were the most important three parameters. Microbial flooding technology is mature in reservoirs with temperature lower than 80°C, salinity less than 100,000 ppm, and permeability above 5 mD. MFR in China is very close to commercial application, while MFR as quaternary recovery like those in post-polymer flooding reservoirs needs further study.
9

Heenan, Jeffrey, Abigail Porter, Dimitrios Ntarlagiannis, Lily Y. Young, Dale D. Werkema e Lee D. Slater. "Sensitivity of the spectral induced polarization method to microbial enhanced oil recovery processes". GEOPHYSICS 78, n. 5 (1 settembre 2013): E261—E269. http://dx.doi.org/10.1190/geo2013-0085.1.

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The demand for more efficient and economic oil recovery techniques has driven research into novel extraction approaches, including microbial enhanced methods. Microbial enhanced oil recovery (MEOR) is an underutilized technology that could significantly enhance tertiary oil recovery. Previous research has shown the spectral induced polarization (SIP) method to be sensitive to microbial degradation of hydrocarbons, so the method should therefore be sensitive to MEOR treatments. To test this hypothesis, heavy-oil-containing sands were monitored for a period of approximately six months while undergoing MEOR treatment. SIP monitoring showed significant sensitivity to biodegradation induced changes. Increases in phase and imaginary conductivity, with a polarization peak centered on approximately 3–8 Hz, were observed for the two MEOR active columns. Similarly, the normalized chargeability, an integrated parameter of a Debye decomposition analysis of the spectra, showed a linear increase in time. Chromatographic methods confirmed oil biodegradation in the active columns. The SIP responses are likely the result of microbial processes and the changes they promote to oil properties, such as altering wettability, or possibly the effect of organic acid production. The results of this experiment indicate that SIP may be a viable method of monitoring MEOR processes.
10

Kussuryani, Yanni. "Studi Microbial Enhanced Oil Recovery Skala Laboratorium Dan Penerapannya Di Lapangan Minyak". Lembaran publikasi minyak dan gas bumi 50, n. 1 (24 aprile 2016): 49–56. http://dx.doi.org/10.29017/lpmgb.50.1.730.

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Microbial Enhanced Oil Recovery (MEOR), merupakan teknologi yang dapat meningkatkan perolehan minyak dengan memanfaatkan aktivitas mikroba. Kegiatan penelitian MEOR dimulai dari isolasi dan identifi kasi mikroba; uji tabung guna menentukan mikroba dan nutrisi yang cocok untuk reservoir tertentu; uji Microbial Core Flooding/MCF dan uji coba MEOR di lapangan. Melalui uji tabung dan MCF, telah diperoleh mikroba dan nutrisi potensial yaitu kultur campuran dari sumur LDK 230 dengan starter KKL 11 dan medium M4 plus. Namun untuk uji coba lapangan berbagai faktor seperti kesesuaian antara karakteristik reservoir, kinerja mikroba dalam menghasilkan bioproduk, dan kondisi operasi masih perlu dipertimbangkan untuk keberhasilan teknologi MEOR, sehingga dapat diimplementasikan untuk peningkatkan perolehan minyak.
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Tesi sul tema "Microbiological enhanced oil recovery (MEOR)":

1

Mukhamediyarova, Akerke. "Microbiological Enhanced Oil Recovery : Model of Kinematic Waves and Asymptotic Analysis". Electronic Thesis or Diss., Université de Lorraine, 2020. http://www.theses.fr/2020LORR0301.

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L’un des objectifs stratégiques de l’industrie pétrolière moderne est le développement réserve effective de pétrole à haute viscosité, caractérisées par une faible mobilité entraînant une forte baisse du facteur de récupération du pétrole. Le développement de tels réservoirs par des méthodes traditionnelles (déplétion naturelle, injection d’eau, etc.) n’est souvent pas efficace. L’alternative est une application de méthodes de récupération actives, en d’autres termes, des méthodes de récupération assistée du pétrole. Dans cette thèse, nous analysons les problèmes de modélisation du déplacement du pétrole par l’eau en présence de bactéries produisant des agents chimiques actifs qui changent favorablement les propriétés du pétrole et de l’eau. Plus strictement, nous analysons les bactéries produisant un biosurfactant qui réduit les effets négatifs du piégeage d’huile capillaire en milieux poreux. Un tel problème fait partie de la théorie générale de l’écoulement multiphase multicomposant partiellement miscible avec des réactions chimiques, couplé à la dynamique de la population. Le modèle mathématique général du processus est présenté, qui a été réduit au modèle des ondes cinématiques, grâce à plusieurs simplifications admissibles. Plus exactement, nous avons obtenu le système de cinq équations différentielles en dérivées partielles non linéaires du premier ordre, qui peuvent avoir des solutions discontinues. Un tel système ne peut être étudié que numériquement dans le cas général. Cependant, nous avons montré que pour un cas particulier, ce modèle peut être complètement analysé qualitativement. Pour une telle analyse, nous avons introduit le concept de faible bioréactivité. Elle correspond au comportement asymptotique du modèle général lorsque le taux de cinétique bactérienne tend vers zéro. En appliquant la technique de développement asymptotique, nous avons obtenu la solution semi-analytique du problème de déplacement. En particulier, cela nous a offert la possibilité de détecter les discontinuités (les chocs) de différents types et d’analyser exactement leur structure. Le cas général du taux cinétique arbitraire a été étudié numériquement, en utilisant le code COMSOL MULTIPHYSICS. Nous avons analysé l’impact du taux de croissance microbien, des concentrations microbiennes et nutritives, de la forme des fonctions cinétiques et du rapport de viscosité sur la récupération de l’huile. Dans le dernier chapitre, nous avons simulé un cas réel d’un champ pétrolier kazakh. Le principal et unique outil d’étude de la récupération microbiologique assistée du pétrole (RAMP) était l’analyse numérique, alors qu’il manquait des solutions analytiques. Les solutions semi-analytiques que nous avons obtenues comblent cette lacune. Ils représentent des résultats exacts qui pourraient être utilisés pour vérifier la validité de divers schémas et codes numériques
One of the strategic objectives of the modern oil industry is the efficient development of high-viscosity oil reserves, which are characterized by low mobility leading to a sharp decline in the oil recovery factor. The development of such reservoirs by traditional methods (natural drives, waterflooding etc.) is frequently not efficient. The alternative is an application of active recovery methods, in other words, enhanced oil recovery methods. In this thesis we analyze the problems of modelling the displacement of oil by water in presence of bacteria producing some active chemicals that change favorably the properties of oil and water. More strictly, we analyze the bacteria producing biosurfactant that reduces the negative effects of capillary oil trapping in porous media. Such a problem makes part of the general theory of multiphase multicomponent partially miscible flow with chemical reactions, coupled with the dynamics of population. The general mathematical model of the process is presented, which is reduced next to the model of kinematic waves, due to several admissible simplifications. More exactly, we have obtained the system of five nonlinear partial differential equations of the first order, which can have discontinuous solutions. Such a system can be studied only numerically in the general case. However, we have shown that for a particular case this model can be completely analyzed qualitatively. For such an analysis, we have introduced the concept of weak bioreactivity. It corresponds to the asymptotic behavior of the general model as the rate of bacterial kinetics tends to zero. Applying the technique of asymptotic expansions, we have obtained the semi-analytical solution to the displacement problem. In particular, this offered us the possibility to detect the discontinuities (chocks) of various types and to analyze exactly their structure. The general case of arbitrary kinetic rate was studied numerically, by using the code COMSOL MULTIPHYSICS. We analyzed the impact of the microbial growth rate, microbial and nutrient concentrations, the form of kinetic functions and the viscosity ratio on the oil recovery. In the last chapter, we simulated a field case for a Kazakhstani oil field. The main and unique tool of studying MEOR was the numerical analysis, whilst analytical solutions were missing. The semi-analytical solutions we have obtained fill this gap. They represent exact results that could be used to check the validity of various numerical schemes and codes
2

Jones, Cleveland Maximino. "Avaliação do possível impacto das técnicas de MEOR (Microbial Enhanced Oil Recovery) no fator de recuperação das reservas de petróleo e gás do Brasil". Universidade do Estado do Rio de Janeiro, 2014. http://www.bdtd.uerj.br/tde_busca/arquivo.php?codArquivo=7103.

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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior
Os métodos tradicionais de estimular a produção de petróleo, envolvendo a injeção de água, vapor, gás ou outros produtos, estabeleceram a base conceitual para novos métodos de extração de óleo, utilizando micro-organismos e processos biológicos. As tecnologias que empregam os processos de bioestimulação e bioaumentação já são amplamente utilizadas em inúmeras aplicações industriais, farmacêuticas e agroindustriais, e mais recentemente, na indústria do petróleo. Dada a enorme dimensão econômica da indústria do petróleo, qualquer tecnologia que possa aumentar a produção ou o fator de recuperação de um campo petrolífero gera a expectativa de grandes benefícios técnicos, econômicos e estratégicos. Buscando avaliar o possível impacto de MEOR (microbial enhanced oil recovery) no fator de recuperação das reservas de óleo e gás no Brasil, e quais técnicas poderiam ser mais indicadas, foi feito um amplo estudo dessas técnicas e de diversos aspectos da geologia no Brasil. Também foram realizados estudos preliminares de uma técnica de MEOR (bioacidificação) com possível aplicabilidade em reservatórios brasileiros. Os resultados demonstram que as técnicas de MEOR podem ser eficazes na produção, solubilização, emulsificação ou transformação de diversos compostos, e que podem promover outros efeitos físicos no óleo ou na matriz da rocha reservatório. Também foram identificadas bacias petrolíferas brasileiras e recursos não convencionais com maior potencial para utilização de determinadas técnicas de MEOR. Finalmente, foram identificadas algumas técnicas de MEOR que merecem maiores estudos, entre as técnicas mais consolidadas (como a produção de biossurfatantes e biopolímeros, e o controle da biocorrosão), e as que ainda não foram completamente viabilizadas (como a gaseificação de carvão, óleo e matéria orgânica; a dissociação microbiana de hidratos de gás; a bioconversão de CO2 em metano; e a bioacidificação). Apesar de seu potencial ainda não ser amplamente reconhecido, as técnicas de MEOR representam o limiar de uma nova era na estimulação da produção de recursos petrolíferos existentes, e até mesmo para os planos de desenvolvimento de novas áreas petrolíferas e recursos energéticos. Este trabalho fornece o embasamento técnico para sugerir novas iniciativas, reconhecer o potencial estratégico de MEOR, e para ajudar a realizar seu pleno potencial e seus benefícios.
The traditional methods of stimulating production, involving the injection of water, steam, gas or other products, have established the conceptual basis for new methods of oil extraction, utilizing microorganisms and biological processes. Technologies that employ biostimulation and bioaugmentation processes are widely utilized in numerous industrial, pharmaceutical and agroindustrial applications, and, more recently, in the oil industry. Given the enormous economic dimension of the oil industry, any technology that can increase production or recovery of an oil field creates the expectation of large technical, economic and strategic benefits. In order to assess the possible impact of MEOR (Microbial Enhanced Oil Recovery) on the recovery factor of oil and gas reserves in Brazil, and which techniques might be most indicated, a wide ranging study of those techniques and of various aspects of the geology of Brazil was carried out. Preliminary studies of a MEOR technique (bioacidification) with possible application in Brazilian reservoirs were also carried out. The results demonstrate that MEOR techniques can be effective in the production, solubilization, emulsification or transformation of several compounds, and that they can promote other physical effects in the oil or the reservoir rock matrix. Brazilian oil basins and unconventional resources with potential for utilization of certain MEOR techniques were also identified. Finally, certain MEOR techniques that deserve further studies were identified, involving both more consolidated techniques (such as biosurfactant and biopolymer production, and the control of microbially induced corrosion), as well as those that have not yet fully proven their viability (such as coal, oil and organic matter gasification; microbial dissociation of gas hydrates; bioconversion of CO2 into methane; and bioacidification). Despite the fact that their potential is not yet fully recognized, MEOR techniques represent the dawn of a new era in the stimulation of production of existing oil resources, and even in the production development plans of new oil and other energy resources. This work furnishes the technical basis for suggesting new initiatives, for recognizing the strategic potential of MEOR, and for helping to realize the full potential of MEOR and its benefits.
3

Gaol, Calvin Lumban [Verfasser], e L. [Akademischer Betreuer] Ganzer. "Experimental and numerical investigation of pore-scale mechanisms of microbial enhanced oil recovery (MEOR) using a microfluidics approach / Calvin Lumban Gaol ; Betreuer: L. Ganzer". Clausthal-Zellerfeld : Technische Universität Clausthal, 2020. http://d-nb.info/123136243X/34.

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Kögler, Felix [Verfasser], Dirk [Akademischer Betreuer] Schulze-Makuch, Hakan [Akademischer Betreuer] Alkan, Nicole [Akademischer Betreuer] Dopffel, Foppe [Akademischer Betreuer] Visser, Dirk [Gutachter] Schulze-Makuch, Thomas [Gutachter] Neumann e Mohd [Gutachter] Amro. "Opportunities and challenges for in situ, fermentation-based microbial enhanced oil recovery (MEOR) in a high-salinity oilfield / Felix Kögler ; Gutachter: Dirk Schulze-Makuch, Thomas Neumann, Mohd Amro ; Dirk Schulze-Makuch, Hakan Alkan, Nicole Dopffel, Foppe Visser". Berlin : Technische Universität Berlin, 2020. http://d-nb.info/121816008X/34.

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Capitoli di libri sul tema "Microbiological enhanced oil recovery (MEOR)":

1

Rivera, Miguel A. Hernández, Jose Marcio Vasconcellos e Marcia E. Ojeda Morales. "Factors Affecting Microbial Enhanced Oil Recovery (MEOR)". In Proceedings of the 25th Pan-American Conference of Naval Engineering—COPINAVAL, 375–84. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-89812-4_33.

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Liu, Keyu, e Xiaofang Wei. "Oil Recovery: Experiences and Economics of Microbially Enhanced Oil Recovery (MEOR)". In Consequences of Microbial Interactions with Hydrocarbons, Oils, and Lipids: Production of Fuels and Chemicals, 1–18. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-31421-1_203-1.

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Liu, Keyu, e Xiaofang Wei. "Oil Recovery: Experiences and Economics of Microbially Enhanced Oil Recovery (MEOR)". In Consequences of Microbial Interactions with Hydrocarbons, Oils, and Lipids: Production of Fuels and Chemicals, 671–88. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-50436-0_203.

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Nerurkar, Anuradha S., Harish G. Suthar e Anjana J. Desai. "Biosystem Development for Microbial Enhanced Oil Recovery (MEOR)". In Microorganisms in Sustainable Agriculture and Biotechnology, 711–37. Dordrecht: Springer Netherlands, 2011. http://dx.doi.org/10.1007/978-94-007-2214-9_31.

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Volk, H., e K. Liu. "3° Oil Recovery: Experiences and Economics of Microbially Enhanced Oil Recovery (MEOR)". In Handbook of Hydrocarbon and Lipid Microbiology, 2739–51. Berlin, Heidelberg: Springer Berlin Heidelberg, 2010. http://dx.doi.org/10.1007/978-3-540-77587-4_203.

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Rudyk, Svetlana, e Erik Søgaard. "How Specific Microbial Communities Benefit the Oil Industry: Microbial-Enhanced Oil Recovery (MEOR)". In Applied Microbiology and Molecular Biology in Oilfield Systems, 179–87. Dordrecht: Springer Netherlands, 2010. http://dx.doi.org/10.1007/978-90-481-9252-6_21.

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Khire, J. M. "Bacterial Biosurfactants, and Their Role in Microbial Enhanced Oil Recovery (MEOR)". In Advances in Experimental Medicine and Biology, 146–57. New York, NY: Springer New York, 2010. http://dx.doi.org/10.1007/978-1-4419-5979-9_11.

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Vishnyakov, Vladimir, Baghir Suleimanov, Ahmad Salmanov e Eldar Zeynalov. "Microbial enhanced oil recovery (MEOR)". In Primer on Enhanced Oil Recovery, 161–69. Elsevier, 2020. http://dx.doi.org/10.1016/b978-0-12-817632-0.00012-8.

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Sharma, Neha, Meeta Lavania, Nimmi Singh e Banwari Lal. "Microbial Enhanced Oil Recovery: An Overview and Case Studies". In Enhanced Oil Recovery - Selected Topics. IntechOpen, 2022. http://dx.doi.org/10.5772/intechopen.106641.

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Abstract (sommario):
After traditional oil recovery processes, large amount of residual oil are still trapped in the pore spaces of the complex capillary network of the reservoir. MEOR (microbial enhanced oil recovery), a promising tertiary oil recovery method involves the utilization of indigenous microbial species capable of producing various secondary metabolites which further enhances the recovery of oil through their plugging, viscosity or interfacial tension reduction mechanisms. The chapter represents the overview of MEOR, mechanism involved in the process and field trials. Furthermore, microbial based mechanisms are widely demonstrated. The chapter confirms the credibility of MEOR process towards the enhanced oil recovery.
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Sheng, James J. "Introduction to MEOR and Its Field Applications in China". In Enhanced Oil Recovery Field Case Studies, 543–59. Elsevier, 2013. http://dx.doi.org/10.1016/b978-0-12-386545-8.00019-1.

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Atti di convegni sul tema "Microbiological enhanced oil recovery (MEOR)":

1

Hou, Zhaowei, Xumou Dou, Rui Jin, Rui Wang, Yanling Wang, Wei Li e Jianjun Le. "The Application of MEOR in Daqing Oilfields". In SPE Enhanced Oil Recovery Conference. Society of Petroleum Engineers, 2011. http://dx.doi.org/10.2118/143952-ms.

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Zahner, Robert L., Shane Tapper, Brian W. G. Marcotte e Bradley R. Govreau. "What Has Been Learned From A Hundred MEOR Applications". In SPE Enhanced Oil Recovery Conference. Society of Petroleum Engineers, 2011. http://dx.doi.org/10.2118/145054-ms.

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Kögler, F., N. Dopffel, E. Mahler e H. Alkan. "Dynamic Screening for Microbial Enhanced Oil Recovery (MEOR)". In IOR 2017 - 19th European Symposium on Improved Oil Recovery. Netherlands: EAGE Publications BV, 2017. http://dx.doi.org/10.3997/2214-4609.201700235.

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Amro, Mohammed M. "Multidisciplinary Challenge for Microbial Enhanced Oil Recovery (MEOR)". In SPE Saudi Arabia Section Technical Symposium. Society of Petroleum Engineers, 2008. http://dx.doi.org/10.2118/120820-ms.

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Jenneman, G. E., e J. B. Clark. "The Effect of In-Situ Pore Pressure on MEOR Processes". In SPE/DOE Enhanced Oil Recovery Symposium. Society of Petroleum Engineers, 1992. http://dx.doi.org/10.2118/24203-ms.

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Ghazali Abd. Karim, M., Mat Ali Hj Salim, Zahidah Md. Zain e Noor Nazri Talib. "Microbial Enhanced Oil Recovery (MEOR) Technology in Bokor Field, Sarawak". In SPE Asia Pacific Improved Oil Recovery Conference. Society of Petroleum Engineers, 2001. http://dx.doi.org/10.2118/72125-ms.

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Premuzic, E. T., e M. Lin. "Prospects for Thermophilic Microorganisms in Microbial Enhanced Oil Recovery (MEOR)". In SPE International Symposium on Oilfield Chemistry. Society of Petroleum Engineers, 1991. http://dx.doi.org/10.2118/21015-ms.

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Popov, Anton I., Anastasia A. Boytsova, Sergey A. Chivilikhin, Ekaterina V. Milovanovich e Igor Y. Popov. "Mathematical modeling of enhanced oil recovery by microbiological methods". In INTERNATIONAL CONFERENCE OF NUMERICAL ANALYSIS AND APPLIED MATHEMATICS ICNAAM 2019. AIP Publishing, 2020. http://dx.doi.org/10.1063/5.0026738.

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Lazar, I. I., M. M. Stefanescu e S. C. Dobrota. "MEOR, the Suitable Bacterial Inoculum According to the Kind of Technology Used: Results From Romania's Last 20 Years' Experience". In SPE/DOE Enhanced Oil Recovery Symposium. Society of Petroleum Engineers, 1992. http://dx.doi.org/10.2118/24207-ms.

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Bezverkhaya, Elena, Igor Trofimov e Vladimir Karepov. "Prospects for Using the Microbiological Method of Enhanced Oil Recovery". In SPE Russian Petroleum Technology Conference. Society of Petroleum Engineers, 2018. http://dx.doi.org/10.2118/191717-18rptc-ms.

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Rapporti di organizzazioni sul tema "Microbiological enhanced oil recovery (MEOR)":

1

Premuzic, E. T., M. S. Lin e B. Manowitz. Comparison of biochemical microbial effects in enhanced oil recovery (MEOR). Office of Scientific and Technical Information (OSTI), novembre 1992. http://dx.doi.org/10.2172/10122782.

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Negri, M. Cristina. Microorganisms Associated with Hydrocarbon Contaminated Sites and Reservoirs for Microbially Enhanced Oil Recovery (MEOR). Office of Scientific and Technical Information (OSTI), ottobre 2013. http://dx.doi.org/10.2172/1118140.

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Chase, K., R. Bryant, K. Bertus e A. Stepp. Selection of an effective biocide and toxicity evaluation for a specific MEOR (microbial enhanced oil recovery) microbial formulation. Office of Scientific and Technical Information (OSTI), settembre 1989. http://dx.doi.org/10.2172/5458986.

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