Форум » РАЗНОЕ - MISCELLANEOUS » Пополняемый список литературы по петрофизике (ENG) (продолжение) » Ответить
Пополняемый список литературы по петрофизике (ENG) (продолжение)
БорисЕ: Adler P.M. Porous Media. Geometry and Transport. Boston 1992. Adler P.M., Thovert J.-F. Fractal Porous Media. Transport in Porous Media 1993 v.13 pp.14-78. Almon, W.R., 1979: “A geologic appreciation of shaly sands,” paper WW, SPWLA 20thAnnual LoggingSymposium. Archie, G.E.: "Electrical Resistivity Log as an Aid in Determining Some Reservoir Characteristics," Trans. AIME (1942) 146, 54-62 Archie, G.E.: "Introduction to Petrophysics of Reservoir Rocks," Bull., AAPG (1950) 34, 943-961. Argaud, M., Giouse, H., Straley, C., Tomanic, J., andWinkler, K., 1989: “Salinity and saturation effects on shaly sandstone conductivity” (SPE paper 19577), SPE 64thAnnual Technical Conference and Exhibition. Van Baaren, J.P. 1979. Quick-look permeability estimates using sidewall samples and porosity logs, 6th annual European logging symposium transactions: Society of Professional Well Log Analysts, 19p. Baldwin B.A. Immobile Water Determination in Shaly Sandstone. Log Analyst 1994 v.35 N3 pp.31-37. Basan, P.B. Lowden, B.D, Whattler, P.R. and Attard, J.J. 1996. Pore-size data in petrophysics: a perspective on the measurement of pore geometry. From Lovell, M.A & Harvey, P.K. (eds) 1997, Developments in Petrophysics, Geological Society Special Publication No 122, 47-67. Bassiouni, Z., 1994: “Chapter 1 – electrical resistivity ofrocks,” in Theory, measurement, and interpretation of well logs, SPE textbook series vol. 4. Batrouni G. George, Alex Hansen, Brod Larson. Current distribution in the three-dimensional random network at the percolation threshold. Phusical Reviews E 1996 v.E53 N.3 pp.2292-2297. Bear J. Dynamics of Fluids in Porous Media N-Y 1972. Beard D.C., Weyl P.K. Influence of texture on porosity and permeability of unconsolidate sand. Bull. AAPG 1973 v.57 N 2 pp.349-369. Berg Charles R. Effective-Medium Resistivity Models for Calculating Water Saturation in Shaly Sand. Log Analyst 1996 v.37 N 3 pp.16-28. Berg, R.R. 1970. Method for determining permeability from reservoir rock properties: Transactions, Gulf Coast Association of Geological Societies 20, 303-317. Bloch S. Empirical Prediction of Porosity and Permeability in Sandstones. Bull. AAPG 1991 v.75 N 7 pp.1145-1160. Brooks, R.H., and Corey, A.T.: "Properties of Porous Media Affecting Fluid Flow." J. Irrig. and Drain. Div. ASCE (1966) 92: 61-88. Bryant Steven, Cristopher Cade, David Mellor Permeability Prediction from Geologic Models. Bull. AAPG 1993 V.77, No.8, pp.1338-1350. Bryant, S., and Pallatt, N., 1996: “Predicting formation factor and resistivity index in simple sandstones,” Journal of Petroleum Science and Engineering 15, 169-176. Burdine, N.T., Gournay, L.S., and Reichertz, P.P.: "Pore Size Distribution of Petroleum Reservoir Rocks", Trans. AIME, (1950), 189, 195-204. Burdine, N.T.: "Relative Permeability Calculations from Pore Size Distribution Data", Trans. AIME, (1953), 198, 71-78. Calhoun, J.C., Lewis, M. and Newman, R.C.: "Experiments on the Capillary Properties of Porous Solids," Trans., AIME (1949) 186, 189-196. Clennell, M.B., 1997: “Tortuosity: a guide through the maze,” in Lovell, M.A, and Harvey, P.K. (eds.), Developments in Petrophysics, Geological Society Special Publication No. 122, 299-344. Coates G.R. Dumanoir J.L. A new approach to important Log-derived Permeability. Trans SPWLA 1973 R1-R28. Coskun Sefer B., Wardlaw Norman C. Estimation of permeability from image analysis of reservoir sandstones. Journal of Petroleum Science and Engeneering 1993 10 pp.1-16. Dashen Roger, Day Peter, Kenyon William, Straley Christian, Williamsen Jorge. T1-Permeability correlations // Physics and Chemistry of Porous Media II (AIP Conference Proceedings 154). American Institute of Physics NY 1987 pp.37-57. Diederix, K.M., 1982: “Anomalous relationships betweenresistivity index and water saturations in the Rotliegend sandstone (The Netherlands),” paper X, SPWLA 23rdAnnual Logging Symposium. Dullien F.A.L. Porous Media. Fluid Transport and Pore Structure Academic San Diego 1979. El-Sayed A.M.A. Relationship of porosity and permeability to mercury injection derived parameters for sandstones of the tortel formation, Hungary. Geophysical Transactions 1993 v.38 ©ц 1 pp.35-46. El-Sayed, B.Kiss Reservoir diagnosis for the Szolnok Formation in the middle part of the Great Hungarian Plain. Geophysical Transactions 1997 v.41 ©ц 1-2 pp.37-63. Ewing Robert P. Percolation and Permeability in Partially Structured Networks. Water Resources Research 1993 V.29 N.9 pp.3179-3188. Fatt I. The network model of por¬аus media. Trans AIME 1956 v.207, pp.144-181. Finney, J.L., 1970: “Random Packings and the Structure ofSimple Liquids. I. The Geometry of Random ClosePacking,” Proceedings of the Royal Society of London A 319, November issue, 1539. Fleury, M., 2002: “Resistivity in carbonates: new insights” (SPE paper 77719), SPE 77thAnnual Technical Conference and Exhibition. Gangi Antony F. Permeability of Unconsolidated Sands and Porous Rocks. Journal of Geophysical Research. 1985 v.90 N.B4 pp.3099-3104. Ghilardi Paolo, Abdulai Kai Kai, Giovanti Menluni. Self-Similar Heterogeneity in Granular Porous Media at the Representative Elementary Volume Scale. Water Resources Research 1993 V.29 N.4 pp.1205-1214. Gladkikh, M. and Bryant, S., 2003: “Prediction of interfacial areas during imbibition in simple porous media,” Advancesin Water Resources, 26 (6), June issue. Herron M.M. Estimating of intrisic permeability of clastic sediments from geochemical data. Trans. SPWLA 1987 H1-H14. (?) Hirasaki, G.J., 1991: “Wettability: fundamentals and surface forces,” SPE paper 17367, SPE Formation Evaluation 6 (2), June issue, 217-226. Iverson William P., Satchwell Robert Permeability : An Elusive Goal of Production Geophysics. Soc. Exploration Geophysics. Dallas 1989 59 pp.576-578. Jackson, M.D., Valvatne, P.H., and Blunt, M.J., 2003: “Prediction of wettability variations and its impact on flow using pore- to reservoir-scale simulations,” Journal ofPetroleum Science and Engineering 39, 231-246. Jenikeev B.N. Die Modellierung physikalischer Eigenschaften des Gesteins im Rahmen von Schemata der granularen Komponenten und des Kapillarnetzes. Bohrlochgeophysik. Freiburger Forschungshefte C.447, Geowissens chaften Geophysik 1990 S.17-21. Johnson, D.L., Koplik, J., Schwartz, L.M., 1986: “New pore-size parameter characterizing transport in porous media,” Physical Review Letters 57 (20), 2564-2567. Knight, R., 1991: “Hysteresis in the electrical resistivity ofpartially saturated sandstones,” Geophysics 56 (12), 2139-2147. Katz A.J. , Tompson A.H. Quantitative prediction of permeability in porous rocks. Physical Reviews 1986 B34 N.11 pp.8179-8181. Kimminau S., Schwartz L. A Review of Pore and Grain Geometric Models. 25-th SPWLA 1987 pp.1-24. Кlimentos T., McCann C. Relationship among compressional wave attenuation, porosity, clay content and permeability sandstones. Geophysics 1990 v.55, No.8, pp.998-1014. Kllimentos T. The effects of porosity-permeability-clay content on the velocity of compressional waves. Geophysics 1991 v.56, No.12, pp.1930-1939. Klinkenberg, L.J.: "The Permeability of Porous Media to Liquids and Gases," paper presented at the API 11 the Mid-Year Meeting, Tulsa, OK (May 1941); in API Drilling and Production Practice (1941) 200-213. Kolodzie, S., Jr.: "Analysis of Pore Throat Size and Use of the Waxman-Smits Equation to Determine OOIP in Spindle Field, Colorado," paper SPE 9382 presented at the 1980 Annual Fall Technical Conference of Society of Petroleum Engineers, Sept. 21-24, 1980. Koplik J., Lin C., Vermette M. Comductivity and permeability from microgeometry. //J. of Applied Physics 1984 v.56, N.11, pp.3127-3131. Koplik J., Redner S., Wilkinson D. Transport and dispersion in random networks with percolation disorder. //Physical Reviews A 1988 v.37, pp.2619-2636. Korvin G. Fractals Models in the Earth Sciences. Elsivier Amsterdam, London, N-Y, Tokyo 1992. 396pp. Kovscek, A.R., Wong, H., and Radke, C.J., 1993: “A pore-level scenario for the development of mixed wettability inoil reservoirs,” AIChE Journal 39 (6), 1072-1085. de Kuijper, R.K.Sandor, P.Hofman, J.M.V.A.Koelman and oth. Electrical Conductivities in Oil-Bearing Shaly Sand Accurately Described with the SATORY Saturation Model. Log Analyst 1996 v.37 N 5 pp.22-32. G.C.Kukal, K.E.Simons Log Analysis Techniques for Quantifying the Permeability of Submillidarcy Sandstone Reservoirs. SPE Formation Evaluation December 1986 pp.609-622. Leverett, M.C.: "Capillary Behavior in Porous Solids," Trans, AIME 142 (1941), 341-358. Lima Oliver A. L.Hydraulic conductivity of shaly sands. SEG 1994 Los Angeles October 23-28 1994, pp.1159-1162. Lima, O.A.L., and Sharma, M.M., 1990: “A grain conductivity approach to shaly sandstones,” Geophysics 55(10), 1347-1356. Liang, Z., Iaonnidis, M.A., and Chatzis, I., 2000: “Permeability and electrical conductivity or porous media form 3D stochastic replicas of the microstructure,” Chemical Engineering Science 55, 5247-5262. Man, H.N, and Jing, X.D., 2001: “Network modelling ofstrong and intermediate wettability on electrical resistivity and capillary pressure,” Advances in Water Resources 24, 345-363. Martos Nicos S., Torquato S., Bentz D.P. Universal scaling of fluid permeability for sphere packings¬р Physical Reviews E 1994 v.50 N.1 pp.403-408. Matheron G. ElementЎЇs pour une theorie des milieux poreux. Paris, Masson et Cie, 1967. Mayez C. Sibbit A. Global, A new Approalh to Computer Processed Lod Interpretation. SPE Paper No 9341 55-th Annual Fall Conference and Exhibition of the SPE 1980. Nakornthap, K. and Evans, R.D.: "Temperature-Dependent Relative Permeability and Its Effect on Oil Displacement by Thermal Methods," SPERE (May 1986) 230-242. Nelson, P.H. 1994. Permeability-Porosity Relationships in Sedimentary rocks. The Log Analyst, May-June, 38-41. Nicos S. Martus, S.Torquato, D.P.Bents. Universal scaling of fluid permeability for sphere packing. Physical Reviews 1994 v.5 N.1 pp.403-408. Øren, P.E., Bakke, S., 2003: “Reconstruction of Berea sandstone and pore-scale modeling of wettability effects,”Journal of Petroleum Science and Engineering 39, 177-199. Owalabi O.O., LongJohn T.F., Ajienka J.A. An empirical expression for permeability in unconsoldated sands of eastern niger delta.// Journal of Petroleum Geology 1994 V.17 N.1 pp.111-116. Pape Hansgeorg, Riepe Lutz, Schopper J.R. Theory of self-similar network structures in sedimentary and igneous rocks and their investigation with microscopical and physical methods. Journal of Microscopy 1987, v.148,Pt.2 pp.121-147. Pittman Edward D. Relationship of Porosity and Permeability to Various Parameters Derived from Mercury Injection-Capillary Pressure Curves for Sandstone. Bull AAPG 1992 v.76 N. pp.191-198. Purcell, W.R.: "Capillary Pressures-Their Measurement Using Mercury and the Calculation of Permeability Therefrom," Trans. AIME, 186 (1949), 39-48. Raffensperger J.P., Ferrell Ray E. An Empirical Model of Intrisic Permeability in Reactive Clay-Bearing Sands. Water Resources Research 1991 V.27 N.11 pp.2835-2844. Ramakrishnan, T.S., Schwartz, L.M., Fordham, E.J., Kenyon, W.E., Wilkinson, D.J., 1999: “Forward models for nuclearmagnetic resonance in carbonate rocks,” The Log Analyst40 (4), 260-270. Rasmus, J.C., 1986: “A summary of the effects of variouspore geometries and their wettabilities on measured and in-situ values of cementation and saturation exponents,” paperPP, SPWLA 27thAnnual Logging Symposium. Revil, A and Glover, P.W.J. 1997. Theory of ionic surface electrical conduction in porous media, Phys. Rev.B, 55 (3), 1757-1773. Riepe L., Schopper J. Theory of self-simular network structures in sedimentary and igneous rocks and their investigaion with microscopical and physical methods. Journal of Microscopy 1987 V.148, N.2, pp.121-147. Rose, W. and Bruce, W.A.: "Evaluation of Capillary Character in Petroleum Reservoir Rock," Trans. AIME, vol. 186 (1949), pp 127-142. Schwartz, L.M., Banavar, J.R., 1989: “Transport properties ofdisordered continuum systems,” Physical Review B 39 (16), 11965-11970. Sharma, M.M., Garrouch, A., and Dunlap, H.F., 1991: “Effects of wettability, pore geometry, and stress on electrical conduction in fluid-saturated rocks,” The LogAnalyst, September-October issue, 511-526. Sheidegger A.E. The physics of flow through porous media Toronto 1956 Stalheim, S.O., Eidesmo, T., and Rueslåtten, H., 1999: “Influence of wettability on water saturation modelling,”Journal of Petroleum Science and Engineering 24, 243-253. Swanson, B.F. 1981. A simple correlation between permeability and mercury capillary pressure, J. Pet. Tech., 33, 2498-2504. Sweeney, S.A., and Jennings, H.Y.: “Effect of wettability onthe electrical resistivity of carbonate rock from a petroleumreservoir,” J. Phys. Chem. 64, May 1960. Thomas, L.K., Katz, D.L., and Tek, M.R.: "Threshold Pressure Phenomena in Porous Media," SPEJ (June 1968) 174-183. Thomeer, J.H.M.: "Air Permeability as a Function of Three Pore-Network Parameters," JPT (April 1983), 809-814. Thomeer, J.H.M.: "Introduction of a Pore Geometrical Factor Defined by the Capillary Pressure Curve," Trans., AIME (1960) 213, 354-358. Timur, A.: "An Investigation of Permeability, Porosity, and Residual Water Saturation Relationships for Sandstone Reser- voirs," The Log Analyst , 1968 Vol. 9, No. 4, 8-17. Wells, J.D. and Amaefule, J.O.: "Capillary Pressure and Permeability Relationships in Tight Gas Sands," paper SPE 13879 presented at the 1985 Low Permeability Gas Reservoir held in Denver, CO, May 19-22. Wyllie M.R. and Spangler M. B.: "The Application of Electrical Resistivity Measurements to the Problem of Fluid Flow in Porous Media," Research Project 4-G-1 Geology Division Report No. 15 (March 1951) Gulf Research and Development Company. Wyllie, M.R.J. and Gardner, G.H.F.: "The Generalized Kozeny–Carman Equation: Part II," World Oil, (1958), 146(5): 210–228. ======== Application of Saraband sand- shale in North America/ - “SPWLA Twelfth Annual Logging Symposium”, May 2-5, 1971, 23p.. Aut.: J.Ratcliff, W. Throop, F.Willams, J.Hall. Clavier С, CoatesG., Dumanoir J. Theoretical and experimental bases for the dual-water model for interpretation of shaly sands. Soc. Pet. Engrs. J.,1984. Vol. 24.P. 153-167. KleinG.E. Bond water in shaly sands - its relation to Qv and other formation properties. Log Analyst.1979. Vol. XX. P. 3-19. Lawrence M.S., Stephen K. Analysis of electrical conduction in the grain consolidation model.- Geophysics, Vol. 52, N 10 (October 1987), P. 1402-1411. GoodeP.A. Shaly sand conductivity at low and high salinities. Trans. SPWLA Ann. Logging Symph.1988. SilvaL.P., Bassiouni Z. A shaly sand conductivity and dual water concepts. Trans. SPWLA Ann. Logging Symph.1985. RR-14. Rosemary Knight and Ana Abad. Rock/Water Interaction in Dielectric Properties Experiments with Hydrophobic Sandstones [J]. Geophysics, Vol. 60,Mar-Apr 1995,431-436. Ali A Garrouch and Mukul M Sharma. Dielectric Dispersion of Partially Saturated Porous Media in the Frequency Range 10 Hz to 10 MHz [J]. The Log Analyst, May-June 1998,48-53. Ali A Garrouch and Mukul M Sharma. The Influence of Clay Content, Salinity, Stress, and Wettability on the Dielectric Properties of Brine-saturated Rock: 10 Hz to 10 MHz [J] .Geophysics Vol. 59 ,June 1994,909-917. НАЧАЛО ТОПИКА ПО ССЫЛКЕ http://petrophysics.borda.ru/?1-4-0-00000099-000
Ответов - 10
bne: Первая по физике пласта (автор в курсе текстов по композитам и перколяции и уместно об этом пишет) Кстати, когда-то реферировал одну из его статей Немного по существу Довольно своеобразно он вводит упругие свойства в аналогию с электропроводностью и теплопроводностью Странно немного про теплопроводность - там Лихтенеккер-Ротер своеобразно всплывает, без связи с Looenga и прочим Вообще книга интересная и надо смотреть внимательно Вторая книга скорее по интерпретации Многое сильно напоминает издания Schlumberger, много палеток Теперь у меня уже немалый спектр книг по петрофизике и я лучше понимаю что и как писать можно, а что не очень стоит
bne: Одну из них я приобрел лично http://petrophysics.borda.ru/?1-4-0-00000090-008 Serra наиболее детально из петрофизиков работает с информацией по геологии и литологии Неспроста его ранние работы были по пластовому наклономеру
bne: • Pollard, D. D. and A. Aydin, 1988, Progress in Pollard, D. D. and A. Aydin, 1988, Progress in understanding jointing over the past century understanding jointing over the past century • Engelder, T., 1985, Loading paths to joint Engelder, T., 1985, Loading paths to joint propagation during a tectonic cycle: an example propagation during a tectonic cycle: an example from the Appalachian Plateau, USA from the Appalachian Plateau, USA • Olson, J. E., 2004, Predicting fracture swarms Olson, J. E., 2004, Predicting fracture swarms—the the influence of subcritical crack growth and thinfl e uence of subcritical crack growth and the crack-tip process zone on joint spacing in rock tip process zone on joint spacing in rock • Gillespie, P. A., J. J. Walsh, J. Watterson, C. G. Gillespie, P. A., J. J. Walsh, J. Watterson, C. G. Bonson, and T. ManzBo occhi, 2001, Scaling nson, and T. Manzocchi, 2001, Scaling relationships of joint and vein arrays from The relationships of joint and vein arrays from The Burren, Co. Clare, Ireland • Walsh, J. J., W. R. Bailey, C. Childs, A. Nicol, and Walsh, J. J., W. R. Bailey, C. Childs, A. Nicol, and C. G. Bonson, 2003, Formation of segmented C. G. Bonson, 2003, Formation of segmented normal faults: a 3 normal faults: a 3-D perspective D perspective • Marrett, R. A., S. E. Laubach, and J. E. Olson, 2007, Marrett, R. A., S. E. Laubach, and J. E. Olson, 2007, Anisotropy and beyond: geological perspectives Anisotropy and beyond: geological perspectives on geophysical prospecting for natural fractures on geophysical prospecting for natural fractures • Laubach, S. E., 2003, Practical approaches to Laubach, S. E., 2003, Practical approaches to identifying sealed and open fractures identifying sealed and open fractures • Maerten, L. and Maerten, F., 2006, Chronologic Maerten, L. and Maerten, F., 2006, Chronologic modeling of faulted and fractured reservoirs modeling of faulted and fractured reservoirs using geomechanically based restoration: using geomechanically based restoration: technique and industry applications technique and industry applications • Casey, M. and Butler, R.W. H., 2004, Modelling Casey, M. and Butler, R.W. H., 2004, Modelling approaches to understanding fold development: approaches to understanding fold development: implications for hydrocarbon reservoirs implications for hydrocarbon reservoirs • Rawnsley, K., M. De Keijzer, K. L. Wei, S. Rawnsley, K., M. De Keijzer, K. L. Wei, S. Bettembourg, W. Asyee, J Bettembourg, W. Asyee, J-L. Massaferro, P. L. Massaferro, P. Swaby, D. Drysdale, and D. Boettcher, 2007, Swaby, D. Drysdale, and D. Boettcher, 2007, Characterizing Characterizin fracture and matrix g fracture and matrix heterogeneities in folded Devonian carbonate heterogeneities in folded Devonian carbonate thrust sheets, Waterton tight gas fields, Western thrust sheets, Waterton tight gas fields, Western Canada • Fisher, Q. J. and S. J. Jolley, 2007, Treatment of Fisher, Q. J. and S. J. Jolley, 2007, Treatment of faults in production simulation models • Manzocchi T., A. E. Heath, B. Palananthakumar, Manzocchi T., A. E. Heath, B. Palananthakumar, C. Childs, and J. J. Walsh, 2008, Faults in C. Childs, and J. J. Walsh, 2008, Faults in conventional flow simulation models: a conventional flow simulation models: a consideration of representational assumptions consideration of representational assumptions and geological uncertainties and geological uncertainties Introduction, Julia F.W. Gale, Bureau of Economic Geology, Jacks Introduction, Julia F.W. Gale, Bureau of Economic Geology, Jackson School of on School of Geosciences, The University of Texas at Austin Geosciences, The University of Texas at Austin
bne: Подвернулась книга Е.А.Козлова "Модели среды в разведочной сейсмологии" Тверь 2006 480 стр с илл Вроде дорогая и по западным критериям, но красиво изданная большеформатная цветная Удивляет большое количество заимствованных рисунков без ссылок
bne: С учетом того, что Е.А. в теме с 60-х годов и неплохо компилирует тест интересен Тем не менее, пробелы и натяжки прослеживаются Модель для проницаемости К-К (со ссылкой на ММ), моделей сопротимвления и ПС нет вовсе С седиментологией и инверсией все IMHO пусто
unregistered: Уважаемый Борис Николаевич, в вышеупомянутом списке литературы меня очень заинтересовала одна статья: Thomeer. "Introduction of a Pore Geometrical Factor Defined by the Capillary Pressure Curve". Хочу узнать, есть ли она у Вас в электронном виде, и не могли бы Вы поделиться этой статьей?
BNE_Mumbai: Пишите в личку на BNE cвое мыло Думаю из Москвы иншаллах реально выслать (на следующей неделе)
bne: Выслал анониму
bne: Джеббар Тиаб, Эрл Ч. Доналдсон Петрофизика. Теория и практика изучения коллекторских свойств горных пород и движения пластовых флюидов Petrophysics: Theory and Practice of Measuring Reservoir Rock and Fluid Transport Properties Твердый переплет (2009) Цена 9513 руб
bne: Джеббар Тиаб, Эрл Ч. Доналдсон: Петрофизика. Теория и практика изучения коллекторских свойств горных пород и движения пластовых флюидов. 868 стр. Артикул: 643323 Авторский коллектив: Джеббар Тиаб, Эрл Ч. Доналдсон Издательство: Премиум Инжиниринг ISBN: Русский: 978-5-903363-12-4, Английский: 978-0-7506-7711-0 Масса одного экземпляра: 1540 грамм Оформление переплёта/обложки: Твердый переплет Габаритные размеры: Типографский формат: 175x250 Страниц: 868 Год издания: 2009 год Стандартная цена: 8832.00 Ваша цена: 8037 руб. КУПИТЬ Краткое описание от издательства: В книге изложены теоретические основы и методы изучения свойств горных пород и движения однофазных, многофазных и смешивающихся флюидов в пористых геологических средах. Приложение содержит практические примеры лабораторного определения 19 параметров породы-коллектора, пластовых флюидов и характера их взаимодействия. В каждом из 19 примеров подробно описано, какие необходимы приборы и материалы, какие операции и как нужно выполнить, какие величины измерить и какие вычисления произвести, чтобы получить искомый параметр. Расчеты по приводимым формулам поясняются численными примерами. Книга задумана и подготовлена как учебник и методическое руководство для промысловых геологов, геофизиков и разработчиков, но она может использоваться при проведении научно-исследовательских и опытно-конструкторских работ, а также представляет несомненный интерес для широкого круга специалистов по смежным дисциплинам. Информация по доставке:
полная версия страницы