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Книги з теми "Modèle de filtration"

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Автор: Grafiati
Опубліковано: 22 червня 2024

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1

Huishi, Li. Zariskian filtrations. Dordrecht: Kluwer Academic Publishers, 1996.

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2

Konovalov, A. N. Problems of multiphase fluid filtration. Singapore: World Scientific, 1994.

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3

Mazo, Aleksandr, and Konstantin Potashev. The superelements. Modeling of oil fields development. ru: INFRA-M Academic Publishing LLC., 2020. http://dx.doi.org/10.12737/1043236.

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This monograph presents the basics of super-element modeling method of two-phase fluid flows occurring during the development of oil reservoir. The simulation is performed in two stages to reduce the spatial and temporal scales of the studied processes. In the first stage of modeling of development of oil deposits built long-term (for decades) the model of the global dynamics of the flooding on the super-element computational grid with a step equal to the average distance between wells (200-500 m). Local filtration flow, caused by the action of geological and technical methods of stimulation, are modeled in the second stage using a special mathematical models using computational grids with high resolution detail for the space of from 0.1 to 10 m and time — from 102 to 105 C. The results of application of the presented models to the solution of practical tasks of development of oil reservoir. Special attention is paid to the issue of value transfer in filtration-capacitive properties of the reservoir, with a detailed grid of the geological model on the larger grid reservoir models. Designed for professionals in the field of mathematical and numerical modeling of fluid flows occurring during the development of oil fields and using traditional commercial software packages, as well as developing their own software. May be of interest to undergraduate and graduate students studying in areas such as "Mechanics and mathematical modeling", "Applied mathematics", "Oil and gas".
4

Oja, Marja. Pressure filtration of mineral slurries: Modelling and particle shape characterization. Lappeenranta, Finland: Lappeenranta University of Technology, 1996.

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5

Wojciechowska, Krystyna. Analiza, modelowanie i symulacja procesu filtracji wody dla celów projektowania i eksploatacji filtrów. Gliwice: Wydawn. Politechniki Śląskiej, 1999.

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6

N, Monakhov V., ред. Matematicheskie modeli filʹtrat͡s︡ionnykh prot͡s︡essov: Sbornik nauchnykh trudov. Novosibirsk: Akademii͡a︡ nauk SSSR, Sibirskoe otd-nie, In-t gidrodinamiki im. M.A. Lavrentʹeva, 1991.

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7

Nikiforov, A. I., та S. F. Korotkov. Voprosy matematicheskogo modelirovanii︠a︡ prot︠s︡essov filʹtrat︠s︡ii i rat︠s︡ionalʹnoĭ razrabotki nefti︠a︡nykh mestorozhdeniĭ. Kazanʹ: Akademii︠a︡ nauk SSSR, Kazanskiĭ filial, Kazanskiĭ fiziko-tekhnicheskiĭ in-t, 1989.

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8

Molokovich, I︠U︡ M. Neravnovesnai︠a︡ filʹtrat︠s︡ii︠a︡ i eë primenenie v neftepromyslovoĭ praktike. Moskva: Institut kompʹi︠u︡ternykh issledovaniĭ, 2006.

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9

Majda, Andrew. Filtering complex turbulent systems. Cambridge: Cambridge University Press, 2012.

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10

Beli͡aev, A. I͡U. Usrednenie v zadachakh teorii filʹtrat͡sii. Moskva: Nauka, 2004.

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11

Espedal, M. S. Filtration in porous media and industrial application: Lectures given at the 4th session of the Centro Internazionale Matematico Estivo (C.I.M.E.) held in Cetraro, Italy, August 24-29, 1998. Edited by Fasano A, Mikelić A, and Centro internazionale matematico estivo. Berlin: Springer, 2000.

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12

Huishi, Li. Zariskian Filtrations. Springer, 2010.

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13

Sirkar, Kamalesh K., Anil Kumar Pabby, Sumith Ranil Wickramasinghe, and Ana Maria Sastre Requena. Hollow Fiber Membrane Contactors: Module Fabrication, Design and Operation, and Potential Applications. Taylor & Francis Group, 2020.

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14

Sirkar, Kamalesh K., Ana Maria Sastre, S. Ranil Wickramasinghe, and Anil Kumar Pabby. Hollow Fiber Membrane Contactors: Module Fabrication, Design and Operation, and Potential Applications. Taylor & Francis Group, 2022.

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15

Sirkar, Kamalesh K., Anil Kumar Pabby, Sumith Ranil Wickramasinghe, and Ana Maria Sastre Requena. Hollow Fiber Membrane Contactors: Module Fabrication, Design and Operation, and Potential Applications. Taylor & Francis Group, 2020.

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16

Sirkar, Kamalesh K., Anil Kumar Pabby, Sumith Ranil Wickramasinghe, and Ana Maria Sastre Requena. Hollow Fiber Membrane Contactors: Module Fabrication, Design and Operation, and Potential Applications. Taylor & Francis Group, 2020.

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17

Sirkar, Kamalesh K., Anil Kumar Pabby, Sumith Ranil Wickramasinghe, and Ana Maria Sastre Requena. Hollow Fiber Membrane Contactors: Module Fabrication, Design and Operation, and Potential Applications. Taylor & Francis Group, 2020.

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18

Filʹtrat͡s︡ii͡a︡ neodnorodnykh zhidkosteĭ: Sbornik nauchnykh trudov. Novosibirsk: Akademii͡a︡ nauk SSSR, Sibirskoe otd-nie, In-t gidrodinamiki im. M.A. Lavrentʹeva, 1988.

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19

Charry, Luisa, Pranav Gupta, and Vimal Thakoor. Introducing a Semi-Structural Macroeconomic Model for Rwanda. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198785811.003.0018.

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We develop a simple semi-structural model for the Rwandan economy to better understand the monetary policy transmission mechanism. A key feature of the model is the introduction of a modified uncovered interest parity condition to capture key structural features of Rwanda’s economy and policy framework, such as the limited degree of capital mobility and managed floating regime. A filtration of the observed data through the model allows us to illustrate the contribution of various factors to inflation dynamics and its deviations from the inflation target. Our results, consistent with evidence for other countries in the region, suggest that food and oil prices as well as the exchange rate have accounted for the bulk of inflation dynamics in Rwanda.
20

Andrle, Michal, Andrew Berg, R. Armando Morales, Rafael Portillo, and Jan Vlcek. On the Sources of Inflation in Kenya. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198785811.003.0015.

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The authors develop a semi-structural, New Keynesian open-economy model with separate food and non-food inflation dynamics to study the sources of inflation in Kenya in recent years. They filter international and Kenyan data through the model to recover a model-based decomposition of most variables into trends (or potential values) and temporary movements (or gaps), including for the international and domestic relative price of food. The filtration exercise helps recover the sequence of domestic and foreign macroeconomic shocks that account for business cycle dynamics in Kenya over the last few years, with a special emphasis on the various factors (international food prices, monetary policy) driving inflation. The authors find that while imported food price shocks have been an important source of inflation, both in 2008 and more recently, accommodating monetary policy has also played a role, most notably through its effect on the nominal exchange rate.
21

Raghunathan, Karthik, and Andrew Shaw. Crystalloids in critical illness. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780199600830.003.0057.

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‘Crystalloid’ refers to solutions of crystalline substances that can pass through a semipermeable membrane and are distributed widely in body fluid compartments. The conventional Starling model predicts transvascular exchange based on the net balance of opposing hydrostatic and oncotic forces. Based on this model, colloids might be considered superior resuscitative fluids. However, observations of fluid behaviour during critical illness are not consistent with such predictions. Large randomized controlled studies have consistently found that colloids offer no survival advantage relative to crystalloids in critically-ill patients. A revised Starling model describes a central role for the endothelial glycocalyx in determining fluid disposition. This model supports crystalloid utilization in most critical care settings where the endothelial surface layer is disrupted and lower capillary pressures (hypovolaemia) make volume expansion with crystalloids effective, since transvascular filtration decreases, intravascular retention increases and clearance is significantly reduced. There are important negative consequences of both inadequate and excessive crystalloid resuscitation. Precise dosing may be titrated based on functional measures of preload responsiveness like pulse pressure variation or responses to manoeuvres such as passive leg raising. Crystalloids have variable electrolyte concentrations, volumes of distribution, and, consequently variable effects on plasma pH. Choosing balanced crystalloid solutions for resuscitation may be potentially advantageous versus ‘normal’ (isotonic, 0.9%) saline solutions. When used as the primary fluid for resuscitation, saline solutions may have adverse effects in critically-ill patients secondary to a reduction in the strong ion difference and hyperchloraemic, metabolic acidosis. Significant negative effects on immune and renal function may result as well.
22

Espedal, M. S., and A. Mikelic. Filtration in Porous Media and Industrial Application: Lectures given at the 4th Session of the Centro Internazionale Matematico Estivo (C.I.M.E.) held ... Mathematics / Fondazione C.I.M.E., Firenze). Springer, 2001.

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23

Fasano, A., M. S. Espedal, and A. Mikelic. Filtration in Porous Media and Industrial Application: Lectures Given at the 4th Session of the Centro Internazionale Matematico Estivo Held in Cetraro, Italy, August 24-29 1998. Springer, 2007.

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