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Politecnico di Torino
Anno Accademico 2017/18
02MAZNW
Fluid Mechanics in Porous Media
Corso di Laurea Magistrale in Petroleum And Mining Engineering (Ingegneria Del Petrolio E Mineraria) - Torino
Docente Qualifica Settore Lez Es Lab Tut Anni incarico
Viberti Dario ORARIO RICEVIMENTO RC ING-IND/30 80 20 0 40 12
SSD CFU Attivita' formative Ambiti disciplinari
ING-IND/30 10 B - Caratterizzanti Ingegneria per l'ambiente e il territorio
Presentazione
The aim of the course consists in giving the fundamental concepts necessary to characterize, to understand and to describe analytically and numerically the behavior of fluids in porous media and, in particular the dynamic behavior of hydrocarbon reservoirs. The course is divided in some main chapters such as: reservoir fluids PVT properties; rock properties; rock fluid interaction properties; diffusivity equations for slightly compressible and compressible fluids.
The course has to be considered as introductory to most of the other course of the petroleum engineering program.
Risultati di apprendimento attesi
Understanding the parameters used to characterize the dynamic behavior of fluid and of reservoirs, in terms of physical meaning and order of magnitude.
Ability of approaching different technical problems by the selection the most suitable model.
Critical approach in review to real data.
Communication skills, ability of using and understanding the technical language and terminology adopted worldwide in the industries.
Ability in increasing their own knowledge by selecting the appropriate technical and scientific literature.
Prerequisiti / Conoscenze pregresse
Student should have an average background in physics, mathematics and Geology.
Programma
Origin of hydrocarbons: formation, migration and main types of trap.
Basics concepts of hydrocarbon chemistry.
Thermodynamic behavior of hydrocarbon mixtures: qualitative phase behaviour (PVT) of single and multi-component systems; hydrocarbon reservoir nomenclature and classification. quantitative phase behaviour of hydrocarbons: PVT parameters of gas, oil, and water. Fluid viscosity.
Drive mechanisms and recovery factors.
Static pressure profiles: hydrostatic equilibrium of hydrocarbon reservoirs; pressure gradients fluid contacts; interpretation of static pressure profiles for different reservoirs typology.
Rock petrophysical properties: Routine core analyses; Porosity: total, effective, primary and secondary; Fluid saturation; Electrical conductivity: Archie's law. Basic concepts of log interpretation, mathematical models and numerical solutions. Darcy's law: hydraulic conductivity, permeability; generalized equation; Darcy's law in different flow geometries: linear, radial flow, vertical free flow, 3D flow. Permeability tensor, homogeneity and isotropy.
Darcy's law for gases, slip flow and Klinkenberg effect. Forchheimer equation.
Rock-fluids interaction properties: Special core analyses; Extension of Darcy's law to multiphase flow: effective permeability; relative permeability, mobility. Gas Oil Ratio. Superficial and interfacial tension, contact angle, wettability, immiscible fluids flow. Capillary pressure and capillary rise. J function; Imbibition and drainage; residual saturations.
Diffusivity equation for monophase flow of slightly compressible fluids (oil and water): definition of the mathematical model; basic assumptions; analytical solutions in transient, steady and pseudo steady conditions, skin effect and productivity index; water enchroachment.
Diffusivity equation for monophase flow of highly compressible fluids (gas): diffusivity equations for laminar flow;
analytical solution for turbulent flow, integration of Forchheimer equation under steady state conditions. Extension to pseudo-steady state and transient conditions. Turbolence skin and non-Darcy coefficient.
Multiphase flow models: diffusivity equation in pressure and saturation; numerical models: fundamentals on Finite Difference Methods; treatment of non linearities, transmissibility.
Organizzazione dell'insegnamento
The course is divided in 55'60% of theoretical background and 40'45% of exercises in the computer laib. During the exercises the students have to approach practical problems by applying the theory discussed during the lessons.
Testi richiesti o raccomandati: letture, dispense, altro materiale didattico
Slides of the course available on line at the course web page for both theory and exercises.
Additional material:
E.J. Burcik. 1957. Properties of petroleum reservoirs fluids. John Wiley & sons, inc. London
C.H. Whitson. M. R. Brule. 2000. Phase behavior. SPE Monograph Series. Richardson, Texas.
C.R. Fitts. 2002. Groundwater science. Academic Press. London, UK
A.T. Corey. 1977. Mechanics of heterogenous fluids in porous media. Water Resources Pubblications. Fort Collins, Colorado, USA
D.W. Green, G.P. Willhite. 1998. Enhanced Oil Recovery. SPE Textbook Series vol.6
Criteri, regole e procedure per l'esame
Final examination is divided into two parts: written test (1 hour) and oral examination. The written test is made up of three/four open questions (or problems). Results of the written test will be either "Pass" (P) or "No Pass" (NP). Only students with a "Pass" mark on the written will be able to take the oral examination.
Orario delle lezioni
Statistiche superamento esami

Programma definitivo per l'A.A.2017/18
Indietro



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