


Politecnico di Torino  
Academic Year 2017/18  
01QYMNW Structural mechanics/Reservoir geomechanics 

Master of sciencelevel of the Bologna process in Petroleum And Mining Engineering  Torino 





Subject fundamentals
The course is subdivided into two main parts.
The first part (SM) is related to the continuum mechanics, the theory of elasticity and to the calculus of civil and oil structures made of different materials (i.e. concrete and metal). The subject is addressed according to the most modern formulations, suitable for numerical implementation. The second part (RG) deals with the mechanical behavior of rock structures related to the oil and gas engineering. In particular this part is focused on the basic aspects of the stress strain behavior of rock material and rock masses and their interaction with fluids. Topics are discussed with reference to the reservoir geomechanics. 
Expected learning outcomes
Ability to evaluate qualitatively and quantitatively the mechanical behaviour of man made (engineering works) and natural (rock masses) structures with reference to Oil and Gas Engineering and to adopt the proper approaches to the solution of specific engineering problems.

Prerequisites / Assumed knowledge
The basic concepts of Mathematics, Linear Algebra, Physics and Fluid Mechanics are required.

Contents
A. Calculus of onedimensional structures
I. Statically determinate structures II. Statically indeterminate structures B. Continuum mechanics I. Definition and analysis of strains and stresses II. Theory of elasticity III. Theory of elastic beams IV. Collapse of structures C. Sedimentary rocks and rock masses I. Failure mechanics II. Mechanical properties of rocks III. In situ state of stress IV. Stresses around boreholes V. Reservoir geomechanics 
Delivery modes
(SM) Calculation of statically indeterminate structures
Analysis of the collapse of structures (RG) Stresses in a continuum medium: principal stresses; Mohr circles; total and effective stresses; stress paths Interpretation of laboratory tests: strength and deformability of rocks Failure Mechanics: interpretation of the rock strength by different failure criteria 
Texts, readings, handouts and other learning resources
(SM) Carpinteri A., Structural Mechanics: a unified approach, Taylor & Francis, 1997
Notes and materials distributed in the classroom (RG) Fjaer, Holt, Horsrud, Raaen & Risnes, Petroleum related Rock Mechanics, 2nd edition, Elsevier, Oxford, 2008. Brady & Brown Rock Mechanics, 3rd edition, Kluwer Academic Publisher, Dordrecht, 2004 Texts, equations, figures, showed during lectures will be available on the web site of the course. 
Assessment and grading criteria
Written test (2 hours) consisting of two main parts: theoretical questions and exercises and for RG discussion of a technical/scientific paper

