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A method of fundamental solutions in...

Augustin, Matthias Albert.

A method of fundamental solutions in poroelasticity to model the stress field in geothermal reservoirs

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	A method of fundamental solutions in poroelasticity to model the stress field in geothermal reservoirsby Matthias Albert Augustin.
作者:	Augustin, Matthias Albert.
出版者:	Cham :Springer International Publishing :2015.
面頁冊數:	xii, 235 p. :ill., digital ;24 cm.
Contained By:	Springer eBooks
標題:	Supercritical fluid extractionMathematical models.
電子資源:	http://dx.doi.org/10.1007/978-3-319-17079-4
ISBN:	9783319170794 (electronic bk.)

A method of fundamental solutions in poroelasticity to model the stress field in geothermal reservoirs
Augustin, Matthias Albert.

A method of fundamental solutions in poroelasticity to model the stress field in geothermal reservoirs[electronic resource] /by Matthias Albert Augustin. - Cham :Springer International Publishing :2015. - xii, 235 p. :ill., digital ;24 cm. - Lecture notes in geosystems mathematics and computing. - Lecture notes in geosystems mathematics and computing..

1.Introduction -- 2. Preliminaries -- 3. Physical and Mathematical Foundation -- 4. Boundary Layer Potentials in Poroelasticity -- 5. Methods of Fundamental Solutions in Poroelasticity -- 6. Numerical Results -- 7. Conclusion and Outlook -- A. Fundamental Stresses and Fluid Velocities -- Bibliography.

This monograph focuses on the numerical methods needed in the context of developing a reliable simulation tool to promote the use of renewable energy. One very promising source of energy is the heat stored in the Earth's crust, which is harnessed by so-called geothermal facilities. Scientists from fields like geology, geo-engineering, geophysics and especially geomathematics are called upon to help make geothermics a reliable and safe energy production method. One of the challenges they face involves modeling the mechanical stresses at work in a reservoir. The aim of this thesis is to develop a numerical solution scheme by means of which the fluid pressure and rock stresses in a geothermal reservoir can be determined prior to well drilling and during production. For this purpose, the method should (i) include poroelastic effects, (ii) provide a means of including thermoelastic effects, (iii) be inexpensive in terms of memory and computational power, and (iv) be flexible with regard to the locations of data points. After introducing the basic equations and their relations to more familiar ones (the heat equation, Stokes equations, Cauchy-Navier equation), the "method of fundamental solutions" and its potential value concerning our task are discussed. Based on the properties of the fundamental solutions, theoretical results are established and numerical examples of stress field simulations are presented to assess the method's performance. The first-ever 3D graphics calculated for these topics, which neither requiring meshing of the domain nor involving a time-stepping scheme, make this a pioneering volume.

ISBN: 9783319170794 (electronic bk.)

Standard No.: 10.1007/978-3-319-17079-4doiSubjects--Topical Terms:

728072
Supercritical fluid extraction
--Mathematical models.

LC Class. No.: TP156.E8

Dewey Class. No.: 660.2842

A method of fundamental solutions in poroelasticity to model the stress field in geothermal reservoirs
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520 $a This monograph focuses on the numerical methods needed in the context of developing a reliable simulation tool to promote the use of renewable energy. One very promising source of energy is the heat stored in the Earth's crust, which is harnessed by so-called geothermal facilities. Scientists from fields like geology, geo-engineering, geophysics and especially geomathematics are called upon to help make geothermics a reliable and safe energy production method. One of the challenges they face involves modeling the mechanical stresses at work in a reservoir. The aim of this thesis is to develop a numerical solution scheme by means of which the fluid pressure and rock stresses in a geothermal reservoir can be determined prior to well drilling and during production. For this purpose, the method should (i) include poroelastic effects, (ii) provide a means of including thermoelastic effects, (iii) be inexpensive in terms of memory and computational power, and (iv) be flexible with regard to the locations of data points. After introducing the basic equations and their relations to more familiar ones (the heat equation, Stokes equations, Cauchy-Navier equation), the "method of fundamental solutions" and its potential value concerning our task are discussed. Based on the properties of the fundamental solutions, theoretical results are established and numerical examples of stress field simulations are presented to assess the method's performance. The first-ever 3D graphics calculated for these topics, which neither requiring meshing of the domain nor involving a time-stepping scheme, make this a pioneering volume.
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