Enzymes for Enhanced Oil Recovery (EOR)
暂无分享,去创建一个
[1] E. Amott. Observations Relating to the Wettability of Porous Rock , 1959 .
[2] R. L. Reed,et al. A Three-Parameter Representation of Surfactant/Oil/Brine Interaction , 1983 .
[3] J. Buckley. Evaluation of Reservoir Wettability and its Effect on Oil Recovery , 1999 .
[4] Gun Trägårdh,et al. Electrically enhanced crossflow membrane filtration of oily waste water using the membrane as a cathode , 1999 .
[5] M. Yavuz Corapcioglu,et al. Micromodel Study of Surfactant Foam Remediation of Residual Trichloroethylene , 2000 .
[6] C. J. Glover,et al. Surfactant Phase Behavior and Retention in Porous Media , 1979 .
[7] Arne Skauge,et al. Effect of pressure and temperature on the phase behavior of microemulsions , 1990 .
[8] R. L. Reed,et al. Multiphase Microemulsion Systems , 1976 .
[9] J. A. V. BUTLER,et al. Theory of the Stability of Lyophobic Colloids , 1948, Nature.
[10] Xianmin Zhou,et al. Interrelationship of Wettability, Initial Water Saturation, Aging Time, and Oil Recovery by Spontaneous Imbibition and Waterflooding , 2000 .
[11] L. Cuiec. Rock/crude-oil interactions and wettability: An attempt to understand their interrelation , 1984 .
[12] S. Sayegh,et al. The Role of Effective Interfacial Tension in Alkaline/Surfactant/Polymer Flooding , 2005 .
[13] R. Zimmerman,et al. Segregated pathways mechanism for oil and water flow through an oil-based gelant , 2002 .
[14] Tarek Ahmed,et al. Reservoir Engineering Handbook , 2002 .
[15] P. P. Jadhunandan. Spontaneous imbibition of water by crude oil/brine/rock systems , 1991 .
[16] D. Goodman. The Distribution of Fatty Acids between n-Heptane and Aqueous Phosphate Buffer , 1958 .
[17] S. Petersen,et al. What distinguishes an esterase from a lipase: a novel structural approach. , 2000, Biochimie.
[18] A. Danesh,et al. Pore Level Visual Investigation of Oil Recovery by Solution Gas Drive and Gas Injection , 1987 .
[19] S. G. Sayegh,et al. Enhanced Oil Recovery by CO Flooding in Homogeneous and Heterogeneous 2D Micromodels , 2008 .
[20] N. Wardlaw,et al. A Method of Making Two-dimensional Glass Micromodels of Pore Systems , 1982 .
[21] Lesile Glasser. The chemistry of silica: By Ralph K. Iller. Pp. vii+ 866. Wiley, Chichester. 1979, £39.50 , 1980 .
[22] Mukul M. Sharma,et al. Measurement of critical disjoining pressure for dewetting of solid surfaces , 1996 .
[23] W. W. Owens,et al. A Laboratory Evaluation of the Wettability of Fifty Oil-Producing Reservoirs , 1972 .
[24] Maloney,et al. IMPACTS OF WETTABILITY ON CAPILLARY PRESSURE AND RELATIVE PERMEABILITY , 1999 .
[25] W. Anderson. Wettability Literature Survey- Part 1: Rock/Oil/Brine Interactions and the Effects of Core Handling on Wettability , 1986 .
[26] G. Pope,et al. Identification and Evaluation of High-Performance EOR Surfactants , 2009 .
[27] J. Novosad. Surfactant retention in Berea sandstone - effects of phase behavior and temperature , 1982 .
[28] G. Anderson. Simulation of Chemical Flood Enhanced Oil Recovery Processes Including the Effects of Reservoir Wettability , 2006 .
[29] Øyvind Halskau,et al. Adsorption behavior of acidic and basic proteins onto citrate-coated Au surfaces correlated to their native fold, stability, and pI. , 2007, The journal of physical chemistry. B.
[30] N. Morrow,et al. Prospects of improved oil recovery related to wettability and brine composition , 1998 .
[31] Gary A. Pope,et al. Optimization of chemical flooding in a mixed-wet dolomite reservoir , 2006 .
[32] Arne Skauge,et al. A SUMMARY OF EXPERIMENTALLY DERIVED RELATIVE PERMEABILITY AND RESIDUAL SATURATION ON NORTH SEA RESERVOIR CORES , 2002 .
[33] F. C. Benner,et al. The Effect Of Polar Impurities Upon Capillary And Surface Phenomena In Petroleum Production , 1941 .
[34] P. Privalov,et al. Stability of protein structure and hydrophobic interaction. , 1988, Advances in protein chemistry.
[35] Ali Danesh,et al. Visualization of Oil Recovery by Water-Alternating-Gas Injection Using High-Pressure Micromodels , 2004 .
[36] K. Mohanty,et al. Surfactant Screening for Wettability Alteration in Oil-Wet Fractured Carbonates , 2009 .
[37] W. Norde,et al. Driving Forces for Enzyme Adsorption at Solid-Liquid Interfaces: 2. The Fungal Lipase Lipolase , 1995 .
[38] N. Morrow,et al. Effect of Wettability on Waterflood Recovery for Crude-Oil/Brine/Rock Systems , 1995 .
[39] W. Seifert,et al. Identification of polycyclic aromatic and heterocyclic crude oil carboxylic acids , 1970 .
[40] Tianguang Fan,et al. CRUDE OIL/BRINE INTERFACIAL TENSIONS , 2007 .
[41] C. C. Mattax,et al. Effects of Crude Oil Components on Rock Wettability , 1959 .
[42] W. Gunter,et al. The Nature of the Surface Charge of Kaolinite , 1992 .
[43] Walter Richtering,et al. The Colloidal Domain – where physics, chemistry, biology and technology meet , 2001 .
[44] K. Birdi,et al. Wettability and Contact Angles , 1984 .
[45] R. Salathiel. Oil Recovery by Surface Film Drainage In Mixed-Wettability Rocks , 1973 .
[46] E. Fischer. Einfluss der Configuration auf die Wirkung der Enzyme , 1894 .
[47] A. Skauge,et al. Capillary Number Relations for Some North, Sea Reservoir Sandstones , 1990 .
[48] N. Morrow,et al. Salinity, Temperature, Oil Composition, and Oil Recovery by Waterflooding , 1997 .
[49] G. E. Agar,et al. The zero point of charge of calcite , 1967 .
[50] W. R. Foster. A Low-Tension Waterflooding Process , 1973 .
[51] N. Morrow,et al. Influence of Electrical Surface Charges on the Wetting Properties of Crude Oils , 1989 .
[52] C. Radke,et al. Protein adsorption at the oil/water interface: characterization of adsorption kinetics by dynamic interfacial tension measurements. , 1999, Biophysical chemistry.
[53] P. D. Profio,et al. Enzyme activity and stability control by amphiphilic self-organizing systems in aqueous solutions , 2000 .
[54] R. Leach,et al. A Laboratory and Field Study of Wettability Adjustment in Water Flooding , 1962 .
[55] Spildo,et al. Interfacial Properties and Partitioning of 4-Heptylbenzoic Acid between Decane and Water. , 1999, Journal of colloid and interface science.
[56] Norman R. Morrow,et al. Improved Oil Recovery from Carbonate Reservoirs by Chemical Stimulation , 2005 .
[57] M. Milosevic,et al. Introduction to Spectroscopy , 2012 .
[58] S. Chaykin,et al. The biosynthesis of trimethylamine-N-oxide. , 1960, The Journal of biological chemistry.
[59] W. Anderson. Wettability Literature Survey-Part 6: The Effects of Wettability on Waterflooding , 1987 .
[60] N. Morrow. Wettability and Its Effect on Oil Recovery , 1990 .
[61] A. Skauge,et al. SCA2003-05: VARIATION OF SPECIAL CORE ANALYSIS PROPERTIES FOR INTERMEDIATE WET SANDSTONE MATERIAL , 2003 .
[62] V. Altuzar,et al. Atmospheric pollution profiles in Mexico City in two different seasons , 2003 .
[63] L. L. Handy,et al. Relative Permeability Functions for High- and Low-Tension Systems at Elevated Temperatures , 1985 .
[64] J. Buckley,et al. Mechanisms of Wetting Alteration by Crude Oils , 1998 .
[65] M. Crocker,et al. Wettability and adsorption characteristics of crude-oil asphaltene and polar fractions , 1988 .
[66] G. Whitesides,et al. Self-assembled organic monolayers: model systems for studying adsorption of proteins at surfaces , 1991, Science.
[67] K. Dill. Dominant forces in protein folding. , 1990, Biochemistry.
[68] L. Dake. Fundamentals of Reservoir Engineering , 1983 .
[69] Jill S. Buckley,et al. Evolution of wetting alteration by adsorption from crude oil , 1997 .
[70] C. Radke,et al. Water films, asphaltenes, and wettability alteration , 1998 .
[71] F. K. Hansen,et al. Surface tension by pendant drop , 1991 .
[72] Kamy Sepehrnoori,et al. Isothermal, multiphase, multicomponent fluid flow in permeable media , 1984 .
[73] M. Nemati,et al. Modification of porous media permeability, using calcium carbonate produced enzymatically in situ , 2003 .
[74] H. Schoemaker,et al. INDUSTRIAL USE OF ENZYMES , 2011 .
[75] T. Skauge,et al. Effects of organic acids and bases, and oil composition on wettability , 1999 .
[76] Jeffrey J. Gray,et al. The interaction of proteins with solid surfaces. , 2004, Current opinion in structural biology.
[77] G. Pope,et al. Modeling Wettability Alteration By Surfactants in Naturally Fractured Reservoirs , 2009 .
[78] A. Hamouda,et al. Influence of Temperature on Wettability Alteration of Carbonate Reservoirs , 2006 .
[79] T. Austad,et al. Chemical flooding of oil reservoirs 7. Oil expulsion by spontaneous imbibition of brine with and without surfactant in mixed-wet, low permeability chalk material , 1996 .
[80] Richard Fowler Stevens,et al. The Next Generation of Regenerative Catalytic Breakers for Use in Alkaline and High-Temperature Fracturing Fluids , 2010 .
[81] Clarence A. Miller,et al. SURFACTANT BASED ENHANCED OIL RECOVERY AND FOAM MOBILITY CONTROL , 2004 .
[82] L. E. Scriven,et al. Physics of Oil Entrapment in Water-Wet Rock , 1987 .
[83] G. Bickerstaff. Enzymes in Industry and Medicine , 1987 .
[84] Rex D. Thomas,et al. Wettability Determination and Its Effect on Recovery Efficiency , 1969 .
[85] W. Anderson. Wettability literature survey - Part 4: Effects of wettability on capillary pressure , 1987 .
[86] M. Hasan,et al. Effect of enzyme molecules covering of oil-water interfacial area on the kinetic of oil hydrolysis , 2008 .
[87] T. Austad. A Review of Retention Mechanisms of Ethoxylated Sulfonates in Reservoir Cores , 1993 .
[88] M. J. Rosen. Surfactants and Interfacial Phenomena , 1978 .
[89] N. Morrow,et al. Generalized scaling of spontaneous imbibition data for strongly water-wet systems , 1997 .
[90] William G. Anderson,et al. Wettability Literature Survey- Part 2: Wettability Measurement , 1986 .
[91] A. Tayal,et al. Viscosity Reduction Of Hydraulic Fracturing Fluids Through Enzymatic Hydrolysis , 1997 .
[92] T. Austad,et al. Spontaneous Imbibition of Water Into Low Permeable Chalk at Different Wettabilities Using Surfactants , 1997 .
[93] D. Koshland. Application of a Theory of Enzyme Specificity to Protein Synthesis. , 1958, Proceedings of the National Academy of Sciences of the United States of America.
[94] Stanley Chernicoff,et al. Geology: An Introduction to Physical Geology , 1995 .
[95] H. Nasr-El-Din,et al. An Effective Fluid Formulation to Remove Drilling Fluid Mud Cake in Horizontal and Multi-Lateral Wells , 2007 .
[96] J. Kamath,et al. Understanding Waterflood Residual Oil Saturation of Four Carbonate Rock Types , 2001 .
[97] N. Kohler,et al. Injectivity improvement of xanthan gums by enzymes: Process design and performance evaluation , 1987 .
[98] L. Wesson,et al. Surfactants: Surfactant Adsorption in Porous Media , 2000 .
[99] D. F. Evans,et al. Fundamentals of Interfacial Engineering , 1996 .
[100] N. Morrow,et al. Effect of Crude-Oil-Induced Wettability Changes on Oil Recovery , 1986 .
[101] O. Torsæter,et al. An experimental study of the relationship between wettability and oil production characteristics , 1999 .
[102] Egon Matijević,et al. Chemistry of silica , 1980 .
[103] T. Austad,et al. Chemical flooding of oil reservoirs 8. Spontaneous oil expulsion from oil- and water-wet low permeable chalk material by imbibition of aqueous surfactant solutions , 1998 .
[104] K. Mohanty. Multiphase Flow in Porous Media: III. Oil Mobilization, Transverse Dispersion, and Wettability , 1983 .
[105] O. Torsæter,et al. A Pore Level Study of MIOR Displacement Mechanisms in Glass Micromodels Using Rhodococcus sp 094 , 2008 .
[106] T. Barth. Quantitative determination of volatile carboxylic acids in formation waters by isotachophoresis , 1987 .
[107] B. Beall,et al. Formation Damage Removal Through the Application of Enzyme Breaker Technology , 1996 .
[108] N. Morrow,et al. Characterization of Crude Oil Wetting Behavior by Adhesion Tests , 1990 .
[109] D. Green. Enhanced Oil Recovery , 2019, International Journal of Petroleum and Petrochemical Engineering.
[110] G. Hirasaki. Wettability: Fundamentals and Surface Forces , 1991 .
[111] Ioannis Chatzis,et al. Magnitude and Detailed Structure of Residual Oil Saturation , 1983 .
[112] Anthony R. Kovscek,et al. A Pore-Level Scenario for the Development of Mixed Wettability in Oil Reservoirs , 1992 .
[113] D. Standnes,et al. An Evaluation of Spontaneous Imbibition of Water into Oil-Wet Carbonate Reservoir Cores Using a Nonionic and a Cationic Surfactant , 2002 .
[114] P. C. Hiemenz,et al. Principles of colloid and surface chemistry , 1977 .
[115] J. Buckley. Mechanisms and consequences of wettability alteration by crude oils , 1996 .
[116] Robert A. Copeland,et al. Enzymes: A Practical Introduction to Structure, Mechanism, and Data Analysis , 1996 .
[117] M. Esfahani,et al. Experimental investigation of oil recovery during water imbibition , 2006 .
[118] K. Sorbie,et al. Low salinity oil recovery - an experimental investigation , 2008 .
[119] Gary A. Pope,et al. Phase Relationships in Chemical Flooding , 1978 .
[120] Jill S. Buckley,et al. Contact angle hysteresis and the stability of wetting changes induced by adsorption from crude oil , 2002 .
[121] Wei Xu,et al. EXPERIMENTAL INVESTIGATION OF OIL COMPOSITIONAL AND SURFACTANT EFFECTS ON WETTABILITY AT RESERVOIR CONDITIONS , 2005 .
[122] P. Déjardin. Proteins at solid-liquid interfaces , 2006 .
[123] G. C. Frye,et al. Adsorption of organic compounds on carbonate minerals: 2. Extraction of carboxylic acids from recent and ancient carbonates , 1993 .
[124] Jill S. Buckley,et al. Asphaltenes and Crude Oil Wetting - The Effect of Oil Composition , 1997 .
[125] A. W. Neumann,et al. Techniques of Measuring Contact Angles , 1979 .
[126] J. Hanssen,et al. New Enzyme Process for Downhole Cleanup of Reservoir Drilling Fluid Filtercake , 1999 .
[127] Clarence A. Miller,et al. Wettability alteration and spontaneous imbibition in oil-wet carbonate formations , 2006 .
[128] G. Hamon,et al. Two-Phase Flow Rock Typing: Another Approach , 2004 .
[129] Yu-Shu Wu,et al. An Experimental Study of the Influence of Interfacial Tension on Water–Oil Two-Phase Relative Permeability , 2006, All Days.
[130] T. Lundgaard,et al. Plugging of Fractures in Chalk Reservoirs by Enzyme-Induced Calcium Carbonate Precipitation , 2008 .
[131] C. D. Manning,et al. On interfacial tension measurement with a spinning drop in gyrostatic equilibrium , 1977 .
[132] B. Vonnegut. Rotating Bubble Method for the Determination of Surface and Interfacial Tensions , 1942 .
[133] Satya P. Moulik,et al. Uses and applications of microemulsions , 2001 .
[134] J. O. Amaefule,et al. The Effect of Interfacial Tensions on Relative Oil/Water Permeabilities of Consolidated Porous Media , 1982 .
[135] Hans-Jürgen Butt,et al. Physics and Chemistry of Interfaces , 2003 .
[136] Christiane Wertz,et al. Fibrinogen Adsorption on Hydrophilic and Hydrophobic Surfaces: Geometrical and Energetic Aspects of Interfacial Relaxations , 2002 .
[137] S. Patil,et al. Coreflooding Studies to Evaluate the Impact of Salinity and Wettability on Oil Recovery Efficiency , 2008 .
[138] R. Watson,et al. Effects of Rock-Pore Characteristics on Oil Recovery at Breakthrough and Ultimate Oil Recovery in Water-Wet Sandstones , 1993 .
[139] Dag Chun Standnes,et al. Spontaneous imbibition of water into oil-wet carbonates , 2003 .
[140] S. Blackburn,et al. Enzyme structure and function , 1976 .
[141] M. Malmsten,et al. Formation of Adsorbed Protein Layers. , 1998, Journal of colloid and interface science.
[142] E. Meyer. Emil Fischer: then and now , 1995 .
[143] D. L. Ross. Studies in biology , 1972 .
[144] Richard C. Nelson,et al. The Effect of Live Crude on Phase Behavior and Oil-Recovery Efficiency of Surfactant Flooding Systems , 1983 .
[145] A. Skauge,et al. Theoretical and experimental evidence of different wettability classes , 2007 .
[146] A. Marangoni. Enzyme kinetics of lipolysis revisited: the role of lipase interfacial binding. , 1994, Biochemical and biophysical research communications.
[147] K. Imamura,et al. On the adsorption of proteins on solid surfaces, a common but very complicated phenomenon. , 2001, Journal of bioscience and bioengineering.
[148] R. E. Harris,et al. New applications for enzymes in oil and gas production , 1999 .
[149] V. Bravo,et al. Hard-Surface Cleaning Using Lipases: Enzyme–Surfactant Interactions and Washing Tests , 2007 .
[150] P. A. Winsor,et al. Solvent properties of amphiphilic compounds , 1954 .
[151] D. Rao,et al. Multiphase flow and wettability effects of surfactants in porous media , 2004 .
[152] I. Trautschold,et al. Principles of isotachophoresis , 1982 .
[153] Milton J. Rosen,et al. Cationic surfactants: Physical chemistry. Edited byDonn N. Rubingh and Paul M. Holland, Dekker, New York, 1991. 527 + viii pp. $125.00 , 1991 .
[154] R. L. Reed,et al. Physsicochemical Aspects of Microemulsion Flooding , 1974 .
[155] A. Hamouda,et al. Effect of Temperature, Wettability and Relative Permeability on Oil Recovery from Oil-wet Chalk , 2008 .
[156] T. Panda,et al. Production and applications of esterases , 2005, Applied Microbiology and Biotechnology.
[157] P. R. Filoco,et al. Effect of Brine Salinity and Crude Oil Properties on Relative Permeabilities and Residual Saturations , 1998 .
[158] J. Buckley. Asphaltene Precipitation and Crude Oil Wetting , 1995 .
[159] Xian-ping Ma,et al. EOR Pilot Tests With Modified Enzyme in China , 2007 .
[160] A. Graue,et al. Systematic wettability alteration by aging sandstone and carbonate rock in crude oil , 1999 .
[161] Horace Edward Garrett,et al. Surface Active Chemicals , 1972 .
[162] Erle C. Donaldson,et al. Microscopic observations of oil displacement in water-wet and oil-wet systems , 1971 .
[163] N. Morrow,et al. Low-Flood-Rate Residual Saturations in Carbonate Rocks , 2005 .
[164] Francis A. Giuliano. Drilling and Completion , 1981 .
[165] R. R. Stephenson,et al. Environmental effect of produced water from North Sea oil operations , 1987 .
[166] R. S. Schechter,et al. Microemulsions and related systems : formulation, solvency, and physical properties , 1988 .
[167] V. Hlady,et al. Protein adsorption on solid surfaces. , 1996, Current opinion in biotechnology.
[168] R. Al-Maamari,et al. Asphaltene Precipitation and Alteration of Wetting: Can Wettability Change during Oil Production? , 2000 .