S FIS 1104365 Bibliography
DAFTAR PUSTAKA
Abeysinghe, S., Ju, T., Baker, M., Chiu, W. (2008). Shape Modeling and
Matching in Identifying 3D Protein Structures. Computer-Aided Design.
40 (6). 708-720.
Albers, D. J., dan Alxanderson, G. L. (2008). Benoit Mandelbrot: in his own
words. Mathematical people: profiles and interviews. Wellesley, MA: AK
Peters. hlm 214.
Afar, T. A. (2005). Jelmert. Fractal Dimensions of a Fractured Formation in the
Rondane Mountain Plateau, Norway. Proceedings of IAMG: GIS and
Spatial Analysis. 1 hlm. 329-334.
Alm O, Jakeland LL, Kou SQ. Physics of the Earth and Planetary Interiors 1985;
40:161–79.
Bai, X., Longin, L., Wenyu, L. (2007). Skeleton Purning by Contour Partitioning
with Discrete Curve Evolution. IEEE Transactions on Pattern Analysis and
Machine Intelegence. 29 (3). 449-462.
Barnsley, M., Andrew, V. (2011). The Chaos Game on a General Iterated
Function System. Ergodic Theory Dynam. Systems 31 (4). hlm. 1073–
1079.
Boudreau, B.P. (1996). The diffusive tortuosity of fine-grained unlithified
sediments, Geochim. Cosmochim. Acta. 60 (16). 3139–3142.
Caneva, A. dan Smirnov, V. (2004). Using the fractal dimension of earthquake
distributions and the slope of the recurrence curve to forecast earthquakes
in Colombia . Earth Science Research Journal. Earth Sci. Res. J. 8 (1). 3-9.
Cen, Y.Q. (1997). 3D IFS Fractals as Real-Time Graphics Model. Comput. &
Graphics. 21 (3). hlm. 367-370.
Cheatham JB. (1968). The effect of pressure, temperature, and loading rate on the
mechanical properties of rocks. Mechanical behaviour of materials under
dynamic loads. New York: Springer-Verlag. hlm. 388–401.
Daud, Y., Sudarman, S., Usijima, K. (2001). Structure Assessed From Gravity
and Hindrigeological Considerations. Geothermal Resource Council, Vol.
25.
Dershowitz, W., and Einstein, H. (1988). Characterizing rock joint geometry with
joint system models. Rock Mechanics and Rock Engineering, 21, 21-51.
Prana Fahmi L Tobing, 2016
STUDI REKAHAN ALAMI 2D BESERTA PEMODELANNYA DAN PERUBAHAN REKAHAN 3D AKIBAT
PENGARUH SUHU TINGGI PADA BATUAN RESERVOIR PANAS BUMI
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
Dietrich, P., Helmig, R., Sauter, M., Hotzl, H., Kongeter, J., Teutsch, G. (2004).
Flow and Transpor in Fractured Porous Media . Newyork: Springer.
Prana Fahmi L Tobing, 2016
STUDI REKAHAN ALAMI 2D BESERTA PEMODELANNYA DAN PERUBAHAN REKAHAN 3D AKIBAT
PENGARUH SUHU TINGGI PADA BATUAN RESERVOIR PANAS BUMI
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
64
Duclos R, Paquet J. (1991). High-temperature behaviour of basalt – role of
temperature and strain rate on compressive strength and KIC toughness of
partially glassy basalts at atmospheric pressure. Int J Rock Mech Min Sci
Geomech Abstr. 28. hlm. 71–6.
Epstein, N. (1989), On tortuosity and the tortuosity factor in flow and diffusion
through porous media , Chem. Eng. Sci., 44 (3). hlm. 777– 779.
Fauzi, U., dan Ariwibowo, T. (2006): Tortuosity and Coordination Number of
Highly Porous Artificial Rocks Created Using Random Number
Generator , Proceedings of ICMNS 2006.
Feranie, S., Fauzi, U., dan Bijaksana. (2007). Microgeometry Analysis of Two
Dimensional Random Sierspinski Carpets (RSCs). Proceeding 2nd Asian
Physics Symposium 2007, Grand Aquila Hotel Bandung, November 29-30.
Feranie, S., Fauzi, U., Bijaksana, S. (2011). 3D Fractal Dimension and Flow
Properties in the Pore Structure of Geological Rocks. Fractals. 19 (3). hlm.
291-297.
Feranie, S., Fauzi, U., Bijaksana, S. (2011). Penyelidikan Sifat Fraktal dan
Besaran Transport pada Struktur Pori 3D Batuan dan Model Fraktal
(Menger Sponges dan IFS). Disertasi, ITB.
Fukuda, D., Kuwano, T., Itoi, R. (2013). Two-Phase Tracer Tests Using Alcohols
at the Matsukawa Vapor-Dominated Geothermal Reservoir: Evaluation of
Responses to Water Injection and Prediction of Production Interference.
Journal of the Geothermal Research Society of Japan, 35 (2). hlm. 69-81.
Guéguen, Y., Le Ravalec, M., Ricard, L. (2006). Upscaling: Effective Medium
Theory, Numerical Methods and the Fractal Dream. Springer. 72. 11751192.
He , X.X., He,Y.L., Li, H. (1999). Fast and Accurate Determination of the
Spatial Boundary of IFS Attractor , Computer and Graphics. 23. hlm. 547533
Heuze, FE. (1983). High-temperature mechanical, physical and thermal
properties of granitic rocks – a review. Int J Rock Mech Min Sci Geomech
Abstr. 20:3–10.
Hirata, T. (1989). Fractal Dimension of Fault Systems in Japan: Fractal Structure
in Rock Fracture Geometry at Various Scales. Fractals in Geophysics: Pure
and Applied Geophysics. hlm. 157-170.
Prana Fahmi L Tobing, 2016
STUDI REKAHAN ALAMI 2D BESERTA PEMODELANNYA DAN PERUBAHAN REKAHAN 3D AKIBAT
PENGARUH SUHU TINGGI PADA BATUAN RESERVOIR PANAS BUMI
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
65
Hommand-Etienne F, Houpert R. (1989). Thermally induced micro-cracking in
granites: characterisation and analysis. Int J Rock Mech Min Sci Geometr
Abstr. 26. hlm. 125–34.
Inada Y, Yorkota K. (1984). Some studies of low temperature rock strength . Int J
Rock Mech Min Sci Geomech Abstr. 21. hlm. 145–53.
Index Mundi. (2011). Indonesian natural resources. [Online]. Tersedia di:
http://www.indexmundi.com/indonesia/natural_resources.html. Diakses 1
Januari 2016.
Ju, Y., Sudak, L., Xie, H. (2007). Study on Stress Wave Propagation in Fractured
Rocks with Fractal Joint Surface. International Journal of Solids and
Structures. 44. hlm. 4256-4271.
Kagan, Y.Y. (1991). Fractal Dimension of Brittle Fracture. Journal of Nonlinear
Science. 1 (1). hlm. 1-6.
Kaviany, M. (1995). Principle of Heat Transfer in Porous Media.
York:Springer, 2nd ed.
New
Khokha, I (1996). Fractal Geometry in Biological Systems. ISBN 978-0-84937636-8.
Kröhn, K. (1991). Simulation von Transporvorgangen im klufigen Gestein mit der
Methode der Finite Elemente. Hanover: Eigenverlag.
Korvin, G. (1992). Fractal models in the earth science. Elsevier: Amsterdam.
ISBN: 0-444-88907-8.
Kou SQ. (1987). The effect of damage due to thermal cracking on the deformation
and failure of granite. Chinese: Acta Mechanica Sinica. 19 (6). hlm. 550–6.
Kusumayudha, S. B. (2005). Hidrogeologi karst dan geometri fraktal di daerah
Gunungsewu. Adicita Karya Nusa: Yogyakarta.
Latief, F.D.E., Fauzi, U., Feranie, S. (2014) Digital Isolation Technique for
Reconstruction and Visualization of Cracks in Micro-CT Images of
Geothermal Reservoir Rock. John Wiley & Sons, Ltd. 28 (2). hlm. 13-17.
Lange, M., Ivanova, M., Lebedeva, N. (1991). Geologi Umum. Jakarta: Gaya
Media Pratama.
Li, Y., Huang, R. (2015). Relationship Between Joint Roughness Coefficient and
Fractal Dimension of Rock Fracture Surface. International Rock Mechanics
& Mining Science. 75. hlm. 15-22.
Lin, M.Z. (1991). Thermal physics of rock and its applications in engineering .
Chongqing: Press of Chongqing University.
Prana Fahmi L Tobing, 2016
STUDI REKAHAN ALAMI 2D BESERTA PEMODELANNYA DAN PERUBAHAN REKAHAN 3D AKIBAT
PENGARUH SUHU TINGGI PADA BATUAN RESERVOIR PANAS BUMI
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
66
Mandelbrot, B. (1984). The fractal geometry of nature. New York: Henry Holt &
Company.
Miao, T., Yu, B., Duan, Y., Fang, Q. A. (2015). Fractal Analysis of Permeability
for Fractured Rock. International Journal of Heat Mass Transfer. 88. hlm.
75-80.
Mistakidis, E.S. (1997). Fractal Geometry in Structural Analysis Problems: A
Variational Formulation for Fractured Bodies with Non-monotone Interface
Conditions, Chaos, Solitons & Fraktals. 8 (2). hlm. 269-285.
Muralha, J., Myer, L. R., Cook, N. G. W., Goodman R. E., dan Tsang C. F.
(1995), Fractured and Jointed Rock Mechanics. Rotterdam: A. A. Balkema.
hlm. 205-212.
Nolte, D.D., Pyrak-Nolte, L.J, Cook, N.G.W. (1989). The Fractal Geometry of
Flow Paths in Natural Fractures in Rock and the Approach to Percolation .
Pure and Applied Geophysics. 131 (1-2). hlm. 111-138.
Park, S. Ik., Seog Kim, Y., Ryul Ryoo, C., and Sanderson, D. J. (2010). Fractal
Analysis of the Evolution of a Fracture Network in a Granite Outcrop , SE
Korea . Geosciences Journal Junxe. 14 (2). pp. 201-215.
Perfect, E., (2006). Multifractal Sierpinski carpets: Theory and Application to
Upscaling Effective Saturated Hydraulic Conductivity. Geoderma. 134 (3–
4). hlm. 240-252.
Prothero, Donald R.; Schwab, Fred (2004). Sedimentary Geology: an Introduction
to Sedimentary Rocks and Stratigraphy (2nd ed.). New York: Freeman.
Shao, H., Kabilan, S., Stephens, S., Suresh, N., Beck, A.N., Varga, T., Martin, P.,
Kuprat, A., Jung, H.B., Um, W., Bonneville, A., Heldebrant, D.J., Carroll,
K.C., Moore, J., Fernandez, C.A. (2015) Environmentally friendly,
rheoreversible, hydraulic-fracturing fluids for enhanced geothermal
systems. Geothermics. 58. hlm 22-31
Schön, J.H. (1998). Physical Properties of Rocks: Fundamentals and Principles of
Petrophysics. Austria: Institute of Applied Geophysics, Leoben.
Uvarova, Y. and Yurikov, A..and Pervukhina, M. and Lebedev, M. and
Shulakova, V. and Clennell, M.B. and Dewhurst, D.N. (2014).
Microstructural characterisation of organic-rich shale before and after
pyrolysis. APPEA Journal. 54. hlm. 249-258.
Xie, H dan Wang, J. A. (2000). International Journal Solid Structures. 37. hlm.
4627.
Prana Fahmi L Tobing, 2016
STUDI REKAHAN ALAMI 2D BESERTA PEMODELANNYA DAN PERUBAHAN REKAHAN 3D AKIBAT
PENGARUH SUHU TINGGI PADA BATUAN RESERVOIR PANAS BUMI
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
67
Waleed, A-A., Siti, N.H.S.A., Bataineh, B., Traik, A-A., Omar, K. (2013).
Skeletonization Algorithm for Binary Images. Procedia Technology. 11.
hlm. 704-709.
Wai RSC, Lo KY, Rowe RK. (1982). Thermal stress analysis in rocks with
nonlinear properties. Int J Rock Mech Min Sci Geomech Abstr. 19. hlm.
211–20.
Wang JT. (1989). The effect of high temperature on the mechanical properties of
rock. Chinese Journal of Geomechanical Engineering. 11 (6).
Zhang ZX. (1994). Principles of rock breakage and their applications. Beijing:
Press of Metallurgical Industry of China.
Zhang, Z.X., Yu, J., Kou, S.Q., Lindqvist, P.-A. (2001). Effect of High
Temperatures on Dynamic Rock Fracture. International Journal of Rock
Mechanics & Mining Science. 38. hlm. 211-225.
Zhou, H.W., Xie, H. (2003). Direct Estiomation of The Fractal Dimension of A
Fracture Surface of Rock. World Scientific. 10 (5). hlm. 751-762.
Prana Fahmi L Tobing, 2016
STUDI REKAHAN ALAMI 2D BESERTA PEMODELANNYA DAN PERUBAHAN REKAHAN 3D AKIBAT
PENGARUH SUHU TINGGI PADA BATUAN RESERVOIR PANAS BUMI
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
Abeysinghe, S., Ju, T., Baker, M., Chiu, W. (2008). Shape Modeling and
Matching in Identifying 3D Protein Structures. Computer-Aided Design.
40 (6). 708-720.
Albers, D. J., dan Alxanderson, G. L. (2008). Benoit Mandelbrot: in his own
words. Mathematical people: profiles and interviews. Wellesley, MA: AK
Peters. hlm 214.
Afar, T. A. (2005). Jelmert. Fractal Dimensions of a Fractured Formation in the
Rondane Mountain Plateau, Norway. Proceedings of IAMG: GIS and
Spatial Analysis. 1 hlm. 329-334.
Alm O, Jakeland LL, Kou SQ. Physics of the Earth and Planetary Interiors 1985;
40:161–79.
Bai, X., Longin, L., Wenyu, L. (2007). Skeleton Purning by Contour Partitioning
with Discrete Curve Evolution. IEEE Transactions on Pattern Analysis and
Machine Intelegence. 29 (3). 449-462.
Barnsley, M., Andrew, V. (2011). The Chaos Game on a General Iterated
Function System. Ergodic Theory Dynam. Systems 31 (4). hlm. 1073–
1079.
Boudreau, B.P. (1996). The diffusive tortuosity of fine-grained unlithified
sediments, Geochim. Cosmochim. Acta. 60 (16). 3139–3142.
Caneva, A. dan Smirnov, V. (2004). Using the fractal dimension of earthquake
distributions and the slope of the recurrence curve to forecast earthquakes
in Colombia . Earth Science Research Journal. Earth Sci. Res. J. 8 (1). 3-9.
Cen, Y.Q. (1997). 3D IFS Fractals as Real-Time Graphics Model. Comput. &
Graphics. 21 (3). hlm. 367-370.
Cheatham JB. (1968). The effect of pressure, temperature, and loading rate on the
mechanical properties of rocks. Mechanical behaviour of materials under
dynamic loads. New York: Springer-Verlag. hlm. 388–401.
Daud, Y., Sudarman, S., Usijima, K. (2001). Structure Assessed From Gravity
and Hindrigeological Considerations. Geothermal Resource Council, Vol.
25.
Dershowitz, W., and Einstein, H. (1988). Characterizing rock joint geometry with
joint system models. Rock Mechanics and Rock Engineering, 21, 21-51.
Prana Fahmi L Tobing, 2016
STUDI REKAHAN ALAMI 2D BESERTA PEMODELANNYA DAN PERUBAHAN REKAHAN 3D AKIBAT
PENGARUH SUHU TINGGI PADA BATUAN RESERVOIR PANAS BUMI
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
Dietrich, P., Helmig, R., Sauter, M., Hotzl, H., Kongeter, J., Teutsch, G. (2004).
Flow and Transpor in Fractured Porous Media . Newyork: Springer.
Prana Fahmi L Tobing, 2016
STUDI REKAHAN ALAMI 2D BESERTA PEMODELANNYA DAN PERUBAHAN REKAHAN 3D AKIBAT
PENGARUH SUHU TINGGI PADA BATUAN RESERVOIR PANAS BUMI
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
64
Duclos R, Paquet J. (1991). High-temperature behaviour of basalt – role of
temperature and strain rate on compressive strength and KIC toughness of
partially glassy basalts at atmospheric pressure. Int J Rock Mech Min Sci
Geomech Abstr. 28. hlm. 71–6.
Epstein, N. (1989), On tortuosity and the tortuosity factor in flow and diffusion
through porous media , Chem. Eng. Sci., 44 (3). hlm. 777– 779.
Fauzi, U., dan Ariwibowo, T. (2006): Tortuosity and Coordination Number of
Highly Porous Artificial Rocks Created Using Random Number
Generator , Proceedings of ICMNS 2006.
Feranie, S., Fauzi, U., dan Bijaksana. (2007). Microgeometry Analysis of Two
Dimensional Random Sierspinski Carpets (RSCs). Proceeding 2nd Asian
Physics Symposium 2007, Grand Aquila Hotel Bandung, November 29-30.
Feranie, S., Fauzi, U., Bijaksana, S. (2011). 3D Fractal Dimension and Flow
Properties in the Pore Structure of Geological Rocks. Fractals. 19 (3). hlm.
291-297.
Feranie, S., Fauzi, U., Bijaksana, S. (2011). Penyelidikan Sifat Fraktal dan
Besaran Transport pada Struktur Pori 3D Batuan dan Model Fraktal
(Menger Sponges dan IFS). Disertasi, ITB.
Fukuda, D., Kuwano, T., Itoi, R. (2013). Two-Phase Tracer Tests Using Alcohols
at the Matsukawa Vapor-Dominated Geothermal Reservoir: Evaluation of
Responses to Water Injection and Prediction of Production Interference.
Journal of the Geothermal Research Society of Japan, 35 (2). hlm. 69-81.
Guéguen, Y., Le Ravalec, M., Ricard, L. (2006). Upscaling: Effective Medium
Theory, Numerical Methods and the Fractal Dream. Springer. 72. 11751192.
He , X.X., He,Y.L., Li, H. (1999). Fast and Accurate Determination of the
Spatial Boundary of IFS Attractor , Computer and Graphics. 23. hlm. 547533
Heuze, FE. (1983). High-temperature mechanical, physical and thermal
properties of granitic rocks – a review. Int J Rock Mech Min Sci Geomech
Abstr. 20:3–10.
Hirata, T. (1989). Fractal Dimension of Fault Systems in Japan: Fractal Structure
in Rock Fracture Geometry at Various Scales. Fractals in Geophysics: Pure
and Applied Geophysics. hlm. 157-170.
Prana Fahmi L Tobing, 2016
STUDI REKAHAN ALAMI 2D BESERTA PEMODELANNYA DAN PERUBAHAN REKAHAN 3D AKIBAT
PENGARUH SUHU TINGGI PADA BATUAN RESERVOIR PANAS BUMI
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
65
Hommand-Etienne F, Houpert R. (1989). Thermally induced micro-cracking in
granites: characterisation and analysis. Int J Rock Mech Min Sci Geometr
Abstr. 26. hlm. 125–34.
Inada Y, Yorkota K. (1984). Some studies of low temperature rock strength . Int J
Rock Mech Min Sci Geomech Abstr. 21. hlm. 145–53.
Index Mundi. (2011). Indonesian natural resources. [Online]. Tersedia di:
http://www.indexmundi.com/indonesia/natural_resources.html. Diakses 1
Januari 2016.
Ju, Y., Sudak, L., Xie, H. (2007). Study on Stress Wave Propagation in Fractured
Rocks with Fractal Joint Surface. International Journal of Solids and
Structures. 44. hlm. 4256-4271.
Kagan, Y.Y. (1991). Fractal Dimension of Brittle Fracture. Journal of Nonlinear
Science. 1 (1). hlm. 1-6.
Kaviany, M. (1995). Principle of Heat Transfer in Porous Media.
York:Springer, 2nd ed.
New
Khokha, I (1996). Fractal Geometry in Biological Systems. ISBN 978-0-84937636-8.
Kröhn, K. (1991). Simulation von Transporvorgangen im klufigen Gestein mit der
Methode der Finite Elemente. Hanover: Eigenverlag.
Korvin, G. (1992). Fractal models in the earth science. Elsevier: Amsterdam.
ISBN: 0-444-88907-8.
Kou SQ. (1987). The effect of damage due to thermal cracking on the deformation
and failure of granite. Chinese: Acta Mechanica Sinica. 19 (6). hlm. 550–6.
Kusumayudha, S. B. (2005). Hidrogeologi karst dan geometri fraktal di daerah
Gunungsewu. Adicita Karya Nusa: Yogyakarta.
Latief, F.D.E., Fauzi, U., Feranie, S. (2014) Digital Isolation Technique for
Reconstruction and Visualization of Cracks in Micro-CT Images of
Geothermal Reservoir Rock. John Wiley & Sons, Ltd. 28 (2). hlm. 13-17.
Lange, M., Ivanova, M., Lebedeva, N. (1991). Geologi Umum. Jakarta: Gaya
Media Pratama.
Li, Y., Huang, R. (2015). Relationship Between Joint Roughness Coefficient and
Fractal Dimension of Rock Fracture Surface. International Rock Mechanics
& Mining Science. 75. hlm. 15-22.
Lin, M.Z. (1991). Thermal physics of rock and its applications in engineering .
Chongqing: Press of Chongqing University.
Prana Fahmi L Tobing, 2016
STUDI REKAHAN ALAMI 2D BESERTA PEMODELANNYA DAN PERUBAHAN REKAHAN 3D AKIBAT
PENGARUH SUHU TINGGI PADA BATUAN RESERVOIR PANAS BUMI
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
66
Mandelbrot, B. (1984). The fractal geometry of nature. New York: Henry Holt &
Company.
Miao, T., Yu, B., Duan, Y., Fang, Q. A. (2015). Fractal Analysis of Permeability
for Fractured Rock. International Journal of Heat Mass Transfer. 88. hlm.
75-80.
Mistakidis, E.S. (1997). Fractal Geometry in Structural Analysis Problems: A
Variational Formulation for Fractured Bodies with Non-monotone Interface
Conditions, Chaos, Solitons & Fraktals. 8 (2). hlm. 269-285.
Muralha, J., Myer, L. R., Cook, N. G. W., Goodman R. E., dan Tsang C. F.
(1995), Fractured and Jointed Rock Mechanics. Rotterdam: A. A. Balkema.
hlm. 205-212.
Nolte, D.D., Pyrak-Nolte, L.J, Cook, N.G.W. (1989). The Fractal Geometry of
Flow Paths in Natural Fractures in Rock and the Approach to Percolation .
Pure and Applied Geophysics. 131 (1-2). hlm. 111-138.
Park, S. Ik., Seog Kim, Y., Ryul Ryoo, C., and Sanderson, D. J. (2010). Fractal
Analysis of the Evolution of a Fracture Network in a Granite Outcrop , SE
Korea . Geosciences Journal Junxe. 14 (2). pp. 201-215.
Perfect, E., (2006). Multifractal Sierpinski carpets: Theory and Application to
Upscaling Effective Saturated Hydraulic Conductivity. Geoderma. 134 (3–
4). hlm. 240-252.
Prothero, Donald R.; Schwab, Fred (2004). Sedimentary Geology: an Introduction
to Sedimentary Rocks and Stratigraphy (2nd ed.). New York: Freeman.
Shao, H., Kabilan, S., Stephens, S., Suresh, N., Beck, A.N., Varga, T., Martin, P.,
Kuprat, A., Jung, H.B., Um, W., Bonneville, A., Heldebrant, D.J., Carroll,
K.C., Moore, J., Fernandez, C.A. (2015) Environmentally friendly,
rheoreversible, hydraulic-fracturing fluids for enhanced geothermal
systems. Geothermics. 58. hlm 22-31
Schön, J.H. (1998). Physical Properties of Rocks: Fundamentals and Principles of
Petrophysics. Austria: Institute of Applied Geophysics, Leoben.
Uvarova, Y. and Yurikov, A..and Pervukhina, M. and Lebedev, M. and
Shulakova, V. and Clennell, M.B. and Dewhurst, D.N. (2014).
Microstructural characterisation of organic-rich shale before and after
pyrolysis. APPEA Journal. 54. hlm. 249-258.
Xie, H dan Wang, J. A. (2000). International Journal Solid Structures. 37. hlm.
4627.
Prana Fahmi L Tobing, 2016
STUDI REKAHAN ALAMI 2D BESERTA PEMODELANNYA DAN PERUBAHAN REKAHAN 3D AKIBAT
PENGARUH SUHU TINGGI PADA BATUAN RESERVOIR PANAS BUMI
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
67
Waleed, A-A., Siti, N.H.S.A., Bataineh, B., Traik, A-A., Omar, K. (2013).
Skeletonization Algorithm for Binary Images. Procedia Technology. 11.
hlm. 704-709.
Wai RSC, Lo KY, Rowe RK. (1982). Thermal stress analysis in rocks with
nonlinear properties. Int J Rock Mech Min Sci Geomech Abstr. 19. hlm.
211–20.
Wang JT. (1989). The effect of high temperature on the mechanical properties of
rock. Chinese Journal of Geomechanical Engineering. 11 (6).
Zhang ZX. (1994). Principles of rock breakage and their applications. Beijing:
Press of Metallurgical Industry of China.
Zhang, Z.X., Yu, J., Kou, S.Q., Lindqvist, P.-A. (2001). Effect of High
Temperatures on Dynamic Rock Fracture. International Journal of Rock
Mechanics & Mining Science. 38. hlm. 211-225.
Zhou, H.W., Xie, H. (2003). Direct Estiomation of The Fractal Dimension of A
Fracture Surface of Rock. World Scientific. 10 (5). hlm. 751-762.
Prana Fahmi L Tobing, 2016
STUDI REKAHAN ALAMI 2D BESERTA PEMODELANNYA DAN PERUBAHAN REKAHAN 3D AKIBAT
PENGARUH SUHU TINGGI PADA BATUAN RESERVOIR PANAS BUMI
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu