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Лучшие результаты

  1. Daniel Levi. Group Dynamics for Teams. – М.: , 2007. – 384 с.
  2. James Jeans. Problems of Cosmology and Stellar Dynamics. – М.: , 2009. – 311 с.
  3. Carlo Cercignani, Reinhard Illner, Mario Pulvirenti. The Mathematical Theory of Dilute Gases. – М.: Springer, 1994. – 364 с.
  4. Sergey V. Simonenko. Non-equilibrium Statistical Thermohydro-dynamics of Turbulence. – М.: Наука, 2006. – 178 с.
  5. Xiaodong (Sheldon) Wang. Fundamentals of Fluid-Solid Interactions, Volume 8: Analytical and Computational Approaches (Monograph Series on Nonlinear Science and Complexity) (Monograph ... Series on Nonlinear Science and Complexity). – М.: , 2008. – 592 с.
  6. Oleg G. Bakunin. Turbulence and Diffusion: Scaling Versus Equations (Springer Series in Synergetics). – М.: , 2008. – 268 с.
  7. Computational Cardiovascular Mechanics: Modeling and Applications in Heart Failure. – М.: , 2010. – 436 с.
  8. William Sirignano. Fluid Dynamics and Transport of Droplets and Sprays. – М.: , 2010. – 540 с.
  9. Computational Fluid Dynamics for Sport Simulation (Lecture Notes in Computational Science and Engineering). – М.: , 2010. – 134 с.
  10. WU ZHONGHUA. Mathematical Modeling of Pulse Combustion: Principle, Practice and Modeling. – М.: , 2010. – 24 с.
  11. Mathematical Modeling of Food Processing (Contemporary Food Engineering). – М.: , 2010. – 948 с.
  12. Jerzy Mackowiak. Fluid Dynamics of Packed Columns: Principles of the Fluid Dynamic Design of Columns for Gas/Liquid and Liquid/Liquid Systems (VDI-Buch / Chemische Technik / Verfahrenstechnik). – М.: , 2010. – 355 с.
  13. Jiyuan Tu. Computational Fluid Dynamics. – М.: , 2010. – 480 с.
  14. A. Deane. Parallel Computational Fluid Dynamics 2005. – М.: , 2010. – 538 с.
  15. S. Friedlander. Handbook of Mathematical Fluid Dynamics,3. – М.: , 2010. – 680 с.
  16. P. Schiano. Parallel Computational Fluid Dynamics '96. – М.: , 2010. – 0 с.
  17. K. Matsuno. Parallel Computational Fluid Dynamics 2002. – М.: , 2010. – 620 с.
  18. FRIEDLANDER. HANDBOOK OF MATHEMATICAL FLUID DYNAMICS VOL 2. – М.: , 2010. – 0 с.
  19. Nicolae Lobontiu. System Dynamics for Engineering Students: Concepts and Applications. – М.: Academic Press, 2010. – 532 с.
  20. Jiri Blazek. Computational Fluid Dynamics: Principles and Applications. – М.: , 2010. – 460 с.
  21. C.B. Jenssen. Parallel Computational Fluid Dynamics 2000. – М.: , 2010. – 604 с.
  22. S. Friedlander. Handbook of Mathematical Fluid Dynamics,4. – М.: , 2010. – 724 с.
  23. Jang-Hyuk Kwon. Parallel Computational Fluid Dynamics 2006. – М.: , 2010. – 318 с.
  24. O. C. Zienkiewicz. The Finite Element Method for Fluid Dynamics. – М.: , 2010. – 400 с.
  25. C.A. Lin. Parallel Computational Fluid Dynamics '98. – М.: , 2010. – 0 с.
  26. Jiri Blazek. Computational Fluid Dynamics: Principles and Applications. – М.: , 2010. – 496 с.
  27. P. Wilders. Parallel Computational Fluid Dynamics 2001, Practice and Theory. – М.: , 2010. – 416 с.
  28. Guan Heng Yeoh. Computational Fluid Dynamics in Fire Engineering. – М.: , 2010. – 544 с.
  29. S. Friedlander. Handbook of Mathematical Fluid Dynamics,1. – М.: , 2010. – 856 с.
  30. R. Keith Mobley. Fluid Power Dynamics. – М.: , 2010. – 288 с.
  31. JA Schetz. Handbook of Fluid Dynamics and Fluid Machinery. – М.: , 1996. – 2776 с.
  32. T. K. Bose. Computational Fluid Dynamics. – М.: , 1988. – 214 с.
  33. ME O?NEILL. O?neill Ideal And Incompressible ?fluid? Dynamics. – М.: , 1986. – 412 с.
  34. ME O?NEILL. O?neill: ?viscous? & Compressible Fluid Dynamics. – М.: , 1989. – 398 с.
  35. Michael Eckert. The Dawn of Fluid Dynamics. – М.: , 2006. – 296 с.
  36. ME O?NEILL. O?neill Ideal And Incompressible ?fluid? Dynamics. – М.: , 1986. – 412 с.
  37. Iannelli. Computational Fluid Dynamics: Characteristic Finite Element Method. – М.: , 2000. – 800 с.
  38. Schaum'S Outline Of Fluid Dynamics. – М.: , 1999. – 369 с.
  39. Computational Fluid Dynamics. – М.: , 1995. – 0 с.
  40. Allan J. Clarke. An Introduction to the Dynamics of El Nino & the Southern Oscillation. – М.: Academic Press, 2008. – 320 с.
  41. David O. Olukanni. Optimization of Waste Stabilization Pond Design for Developing Nations. – М.: LAP Lambert Academic Publishing, 2013. – 424 с.
  42. Hae-Won Choi. Adaptive Finite Element Methods for Microfluidics. – М.: LAP Lambert Academic Publishing, 2010. – 232 с.
  43. Ochieng Aoyi. Hydrodynamics and mixing in stirred tanks. – М.: LAP Lambert Academic Publishing, 2009. – 196 с.
  44. Dipesh Dimble. GEOMETRY MODELING FOR PATTERNED AND REPETITIVE CONFIGURATIONS. – М.: LAP Lambert Academic Publishing, 2009. – 76 с.
  45. Arun Majumder. Modeling of Solid-fluid Interactions in Inclined Open Channels. – М.: LAP Lambert Academic Publishing, 2010. – 248 с.
  46. TarunKanti Bandyopadhyay. CFD analysis for Non-Newtonian and Gas-non-Newtonian liquid flow. – М.: LAP Lambert Academic Publishing, 2013. – 484 с.
  47. Rajendrakumar Savanur and Vidyadhar Mudkavi. Aeroelastic Behavior of Wind Turbine Rotors. – М.: LAP Lambert Academic Publishing, 2014. – 340 с.
  48. Shengyang Chen. Particle Mixing And Settling In Reservoirs Under Natural Convection. – М.: LAP Lambert Academic Publishing, 2014. – 112 с.
  49. Osama Marzouk. Nonlinear Wake Phenomena. – М.: LAP Lambert Academic Publishing, 2010. – 112 с.
  50. Adela Ionescu. Recent trends in computational modeling of excitable media dynamics. – М.: LAP Lambert Academic Publishing, 2010. – 72 с.
  51. Ahmad Shakibaeinia. A Mesh-Free Lagrangian Methods for Free Surface and Interfacial Flows. – М.: LAP Lambert Academic Publishing, 2011. – 180 с.
  52. Esam Jassim. Hydrate Deposition in Multiphase Compressed Natural Gas Flow Lines. – М.: Scholars Press, 2013. – 244 с.
  53. Abedalrzaq Alshqirate and Mahmoud Hammad. Two Phase Flow of Carbon Dioxide in Micropipe Heat Exchangers. – М.: LAP Lambert Academic Publishing, 2013. – 216 с.
  54. Gamal Elsaeed,Ahmed Wagdy and Ahmed Aly. The Pile groups effect on Scour around Bridge Piers. – М.: LAP Lambert Academic Publishing, 2011. – 140 с.
  55. S. Jamshed. The role of HPC in Computational Fluid Dynamics. – М.: LAP Lambert Academic Publishing, 2012. – 188 с.
  56. Pandaba Patro. CFD Modeling of a Compact Pin Fin Heat Exchanger. – М.: LAP Lambert Academic Publishing, 2013. – 96 с.
  57. Saber Ahmed,M. G. Rasul and R. J. Brown. Computational Fluid Dynamics Modelling. – М.: LAP Lambert Academic Publishing, 2013. – 52 с.
  58. Ghani Albaali. Studies on Thermal Sterilization of Liquid Foods Using CFD. – М.: LAP Lambert Academic Publishing, 2011. – 260 с.
  59. Itzhak Merksamer. Energy Towers interaction with its surrounding. – М.: Scholars' Press, 2014. – 220 с.
  60. Konrad Kacprzak,Krzysztof Sobczak and Grzegorz Liskiewicz. Numerical analysis of the flow in a two-bucket Savonius wind turbine. – М.: LAP Lambert Academic Publishing, 2011. – 76 с.
  61. Ivette Rodriguez and Assensi Oliva. Unsteady laminar convection in cylindrical domains. – М.: LAP Lambert Academic Publishing, 2011. – 152 с.
  62. Rui Tang. Flexible MEMS Thermal Sensors for Intravascular Flow Monitoring. – М.: LAP Lambert Academic Publishing, 2014. – 76 с.
  63. Mohsen Jahanmiri and Mohammad Abbaspour. Drag reduction of a generic car model by active boundary layer control. – М.: LAP Lambert Academic Publishing, 2012. – 132 с.
  64. Sanjay Ramchandra Kumbhar,Sanjay S. Gawade and Bimlesh Kumar. Electrorheological Fluid Damper for Road Vehicle Suspension System. – М.: LAP Lambert Academic Publishing, 2012. – 116 с.
  65. A. M. Saravanan. Two - Phase Flow. – М.: LAP Lambert Academic Publishing, 2012. – 176 с.
  66. Jatinder Kumar,Ajay Bansal and Sumit Singh. Computational Fluid Dynamics for Residence Time Distribution Study. – М.: LAP Lambert Academic Publishing, 2013. – 68 с.
  67. Maksim Mezhericher. Theoretical Modelling of Spray Drying Processes. – М.: LAP Lambert Academic Publishing, 2011. – 152 с.
  68. Ali Pourahmadi Laleh,William Y. Svrcek and Wayne D. Monnery. CFD Simulation of Oilfield Separators. – М.: LAP Lambert Academic Publishing, 2011. – 252 с.
  69. Joaquin Pinto-Espinoza and Goran N. Jovanovic. Dynamic Behavior of Ferromagnetic Particles in a Liquid-Solid MAFB. – М.: LAP Lambert Academic Publishing, 2012. – 260 с.
  70. Shine Jude Hamilton Antony. CFD Analysis of an Axial Flow Fans. – М.: LAP Lambert Academic Publishing, 2013. – 104 с.
  71. Amitesh Kumar. Metal Droplet Impingement and Solidification on a Substrate. – М.: LAP Lambert Academic Publishing, 2014. – 200 с.
  72. Syed Asfandyar and Muhammad Rafique. DESIGN OPTIMIZATION. – М.: LAP Lambert Academic Publishing, 2010. – 84 с.
  73. Demir Kose and Prof. Ir. Erik Dick. Prediction of the Pressure Distribution on Buildings with CFD. – М.: LAP Lambert Academic Publishing, 2011. – 332 с.
  74. Roy Strandberg and Debendra K. Das. Heat Transfer Performance of Nanofluids. – М.: LAP Lambert Academic Publishing, 2010. – 152 с.
  75. Kshitij Neroorkar. Flash Boiling Model for Injectors with Gasoline-Ethanol Fuel Blends. – М.: LAP Lambert Academic Publishing, 2011. – 128 с.
  76. Xiaodong Chen. Fluid-Structure Interaction Modeling of Cell Deformation in Airways. – М.: LAP Lambert Academic Publishing, 2013. – 268 с.
  77. Isaac Kuma Yeboah,Alfred Owusu and Florin Nedelcut. Optimization of Ultrasonic flow meters for crude oil metering. – М.: LAP Lambert Academic Publishing, 2013. – 52 с.
  78. Muhammad Ahsan Irshad,Saad Sami and Muhammad Zaka-ur-Rehman. AEROACOUSTIC ANALYSIS OF WIND TURBINE PROPELLER. – М.: LAP Lambert Academic Publishing, 2010. – 128 с.
  79. Madhav Kulkarni. MULTIPHASE MECHANISMS & FLUID DYNAMICS IN GAS INJECTION EOR PROCESSES. – М.: LAP Lambert Academic Publishing, 2011. – 276 с.
  80. Anwar Beg,R. Bhargava and M.M. Rashidi. Numerical Simulation in Micropolar Fluid Dynamics. – М.: LAP Lambert Academic Publishing, 2011. – 296 с.
  81. Babruvahan P. Ronge,Shyam R. Kajale and Prashant M. Pawar. Theoretical and Experimental Analysis of MR Fluid Dampers. – М.: LAP Lambert Academic Publishing, 2011. – 192 с.
  82. Francesco Mastrangelo. Design and analysis of passive micromixers. – М.: LAP Lambert Academic Publishing, 2013. – 132 с.
  83. Bhuiyan Shameem Mahmood Ebna Hai. Numerical Approximation of Fluid Structure Interaction (FSI) Problem. – М.: LAP Lambert Academic Publishing, 2012. – 88 с.
  84. Nuraini Abd. Aziz and Lim Chin Han. Computational Methods Analysis. – М.: LAP Lambert Academic Publishing, 2013. – 116 с.
  85. Madhumita Kalita. Rotors mounted on Fluid Film Bearings. – М.: LAP Lambert Academic Publishing, 2011. – 148 с.
  86. PATRICIA PLA,C. PARISI and F. D?AURIA. BORON DILUTION IN PRESSURIZER WATER REACTORS. – М.: LAP Lambert Academic Publishing, 2010. – 276 с.
  87. Raed Bourisli. Computationally Intelligent CFD. – М.: LAP Lambert Academic Publishing, 2010. – 224 с.
  88. Chen Huang. Combustion Modelling. – М.: LAP Lambert Academic Publishing, 2011. – 148 с.
  89. Ziya Uddin. Computational Fluid Dynamics. – М.: LAP Lambert Academic Publishing, 2012. – 152 с.
  90. Hassan Abdulmouti. Measurement of Flow Structures Induced by a Bubbly Plume. – М.: Scholars' Press, 2013. – 168 с.
  91. Yangyang Hu and Fan Yang. Computational Investigation of Drag Reduction of Trucks. – М.: LAP Lambert Academic Publishing, 2013. – 84 с.
  92. Md. Mahbub Alam. FLOW AROUND TWIN CYLINDERS. – М.: LAP Lambert Academic Publishing, 2011. – 208 с.
  93. Behrang Asgharian. Numerical Modelling Of Thermoacoustic Heat Pumps And Engines. – М.: LAP Lambert Academic Publishing, 2014. – 104 с.
  94. Patrick Amissah Ken. Indoor Air Quality: Combining Humidity with Construction Moisture. – М.: LAP Lambert Academic Publishing, 2012. – 212 с.
  95. Luis Velazquez-Araque. Development of an airfoil for an unmanned aerial vehicle. – М.: LAP Lambert Academic Publishing, 2013. – 116 с.
  96. Umair Mughal,Muhammad Sadiq Sarfaraz and Syed Muhammad Sarim. Comparative CFD Study on Different Under Water Vehicles for Best L/D. – М.: LAP Lambert Academic Publishing, 2010. – 88 с.
  97. Koji Shimoyama. Robust Aerodynamic Design of Mars Exploratory Airplane Wing. – М.: LAP Lambert Academic Publishing, 2010. – 208 с.
  98. Subramani Sockalingam and Dr.Ala Tabiei. Simulation of Hypersonic Reentry Vehicles. – М.: LAP Lambert Academic Publishing, 2011. – 80 с.
  99. Mohsen Jahanmiri. Excited Jet and Its Applications. – М.: LAP Lambert Academic Publishing, 2012. – 68 с.
  100. Domenico Scardigno. A multigrid ghost-cell method for the solution of the Euler equations. – М.: LAP Lambert Academic Publishing, 2012. – 148 с.
  101. Ez Hassan. Dynamics of Supersonic Jet in Crossflow and Liquid Plug Rupture. – М.: LAP Lambert Academic Publishing, 2014. – 216 с.
  102. Mansour Al Qubeissi. Development of a Conjugate Heat Transfer Solver. – М.: LAP Lambert Academic Publishing, 2013. – 148 с.
  103. WU ZHONGHUA. Mathematical Modeling of Pulse Combustion. – М.: LAP Lambert Academic Publishing, 2010. – 116 с.
  104. Murat Aktas. CFD Analysis of Nonzero Mean Oscillatory Flows. – М.: LAP Lambert Academic Publishing, 2010. – 128 с.
  105. Omar Abdelaziz. FLOW REGIMES, THERMAL AND HUMIDITY PATTERNS IN ARCHAEOLOGICAL TOMBS. – М.: LAP Lambert Academic Publishing, 2010. – 172 с.
  106. Ferdinand Urban. Thermodynamic conditions in quenching chamber of LV circuit breaker. – М.: LAP Lambert Academic Publishing, 2011. – 104 с.
  107. Adegbola Adeyinka and Salau Tajudeen Abiola. Characterisation Of Fluid Flow Using Random Walk Dynamics. – М.: LAP Lambert Academic Publishing, 2012. – 88 с.
  108. Andreas Akerberg. CFD analyses of the gas flow inside a hot isostatic press. – М.: LAP Lambert Academic Publishing, 2014. – 52 с.
  109. Paulina Pianko-Oprych. Cell, Stack and System Modelling. – М.: LAP Lambert Academic Publishing, 2014. – 68 с.
  110. Abuzar Abid Siddiqui and M Anwar Kamal. Micropolar and Newtonian Fluid Flow Problems. – М.: LAP Lambert Academic Publishing, 2010. – 316 с.
  111. Sharmina Hussain. CFD study of Fluid dynamics and Mass Transfer in membrane module. – М.: LAP Lambert Academic Publishing, 2011. – 64 с.
  112. Andong He. INTERFACIAL DYNAMICS IN FLUID FLOWS. – М.: LAP Lambert Academic Publishing, 2011. – 112 с.
  113. B. P. Garg. Recent advances in fluid mechanics. – М.: LAP Lambert Academic Publishing, 2012. – 188 с.
  114. O. Anwar Beg,Swapan Ghosh and Tasveer Beg. Applied Magnetofluid Dynamics: Modelling and Computation. – М.: LAP Lambert Academic Publishing, 2011. – 452 с.
  115. Alfred Wanyama Manyonge. Introduction to Fluid Dynamics. – М.: LAP Lambert Academic Publishing, 2013. – 168 с.
  116. Nazish Shahid. Results on Transport Phenomena of Fluids and Quantum Fermi Liquids. – М.: LAP Lambert Academic Publishing, 2012. – 96 с.
  117. Rajeev Jha. Flow Problems of Viscous and Visco-Elastic Fluids through Porous Media. – М.: LAP Lambert Academic Publishing, 2012. – 152 с.
  118. Rajeev Mathur. Computational Fluid Dynamics. – М.: LAP Lambert Academic Publishing, 2012. – 144 с.
  119. Aamar Abbasi and Iftikhar Ahmad. Generalized Burger's Fluid in a Planner Channel. – М.: LAP Lambert Academic Publishing, 2013. – 92 с.
  120. Shigeru Masuda. Historical Development of Classical Fluid Dynamics. – М.: Scholars' Press, 2014. – 340 с.
  121. Seelam Sreekanth. Magnetohydrodynamics Some MHD Fluid Flow Problems. – М.: LAP Lambert Academic Publishing, 2013. – 140 с.
  122. Md. Hoque. Fluid dynamics. – М.: LAP Lambert Academic Publishing, 2014. – 60 с.
  123. Seyed Mohammad Taghavi. Fluid displacement and mixing phenomena in confined geometry. – М.: LAP Lambert Academic Publishing, 2013. – 308 с.

Дополнительные результаты

  1. Carlo Cercignani, Reinhard Illner, Mario Pulvirenti. The Mathematical Theory of Dilute Gases. – М.: Springer, 1994. – 364 с.
  2. Oleg G. Bakunin. Turbulence and Diffusion: Scaling Versus Equations (Springer Series in Synergetics). – М.: , 2008. – 268 с.
  3. Computational Cardiovascular Mechanics: Modeling and Applications in Heart Failure. – М.: , 2010. – 436 с.
  4. William Sirignano. Fluid Dynamics and Transport of Droplets and Sprays. – М.: , 2010. – 540 с.
  5. Computational Fluid Dynamics for Sport Simulation (Lecture Notes in Computational Science and Engineering). – М.: , 2010. – 134 с.
  6. WU ZHONGHUA. Mathematical Modeling of Pulse Combustion: Principle, Practice and Modeling. – М.: , 2010. – 24 с.
  7. Mathematical Modeling of Food Processing (Contemporary Food Engineering). – М.: , 2010. – 948 с.
  8. Jerzy Mackowiak. Fluid Dynamics of Packed Columns: Principles of the Fluid Dynamic Design of Columns for Gas/Liquid and Liquid/Liquid Systems (VDI-Buch / Chemische Technik / Verfahrenstechnik). – М.: , 2010. – 355 с.
  9. Jiyuan Tu. Computational Fluid Dynamics. – М.: , 2010. – 480 с.
  10. A. Deane. Parallel Computational Fluid Dynamics 2005. – М.: , 2010. – 538 с.
  11. S. Friedlander. Handbook of Mathematical Fluid Dynamics,3. – М.: , 2010. – 680 с.
  12. P. Schiano. Parallel Computational Fluid Dynamics '96. – М.: , 2010. – 0 с.
  13. K. Matsuno. Parallel Computational Fluid Dynamics 2002. – М.: , 2010. – 620 с.
  14. FRIEDLANDER. HANDBOOK OF MATHEMATICAL FLUID DYNAMICS VOL 2. – М.: , 2010. – 0 с.
  15. Jiri Blazek. Computational Fluid Dynamics: Principles and Applications. – М.: , 2010. – 460 с.
  16. C.B. Jenssen. Parallel Computational Fluid Dynamics 2000. – М.: , 2010. – 604 с.
  17. S. Friedlander. Handbook of Mathematical Fluid Dynamics,4. – М.: , 2010. – 724 с.
  18. Jang-Hyuk Kwon. Parallel Computational Fluid Dynamics 2006. – М.: , 2010. – 318 с.
  19. O. C. Zienkiewicz. The Finite Element Method for Fluid Dynamics. – М.: , 2010. – 400 с.
  20. C.A. Lin. Parallel Computational Fluid Dynamics '98. – М.: , 2010. – 0 с.
  21. Jiri Blazek. Computational Fluid Dynamics: Principles and Applications. – М.: , 2010. – 496 с.
  22. P. Wilders. Parallel Computational Fluid Dynamics 2001, Practice and Theory. – М.: , 2010. – 416 с.
  23. Guan Heng Yeoh. Computational Fluid Dynamics in Fire Engineering. – М.: , 2010. – 544 с.
  24. S. Friedlander. Handbook of Mathematical Fluid Dynamics,1. – М.: , 2010. – 856 с.
  25. JA Schetz. Handbook of Fluid Dynamics and Fluid Machinery. – М.: , 1996. – 2776 с.
  26. T. K. Bose. Computational Fluid Dynamics. – М.: , 1988. – 214 с.
  27. ME O?NEILL. O?neill Ideal And Incompressible ?fluid? Dynamics. – М.: , 1986. – 412 с.
  28. ME O?NEILL. O?neill: ?viscous? & Compressible Fluid Dynamics. – М.: , 1989. – 398 с.
  29. Michael Eckert. The Dawn of Fluid Dynamics. – М.: , 2006. – 296 с.
  30. ME O?NEILL. O?neill Ideal And Incompressible ?fluid? Dynamics. – М.: , 1986. – 412 с.
  31. Iannelli. Computational Fluid Dynamics: Characteristic Finite Element Method. – М.: , 2000. – 800 с.
  32. Schaum'S Outline Of Fluid Dynamics. – М.: , 1999. – 369 с.
  33. Computational Fluid Dynamics. – М.: , 1995. – 0 с.
  34. David O. Olukanni. Optimization of Waste Stabilization Pond Design for Developing Nations. – М.: LAP Lambert Academic Publishing, 2013. – 424 с.
  35. Hae-Won Choi. Adaptive Finite Element Methods for Microfluidics. – М.: LAP Lambert Academic Publishing, 2010. – 232 с.
  36. Ochieng Aoyi. Hydrodynamics and mixing in stirred tanks. – М.: LAP Lambert Academic Publishing, 2009. – 196 с.
  37. Dipesh Dimble. GEOMETRY MODELING FOR PATTERNED AND REPETITIVE CONFIGURATIONS. – М.: LAP Lambert Academic Publishing, 2009. – 76 с.
  38. Arun Majumder. Modeling of Solid-fluid Interactions in Inclined Open Channels. – М.: LAP Lambert Academic Publishing, 2010. – 248 с.
  39. TarunKanti Bandyopadhyay. CFD analysis for Non-Newtonian and Gas-non-Newtonian liquid flow. – М.: LAP Lambert Academic Publishing, 2013. – 484 с.
  40. Rajendrakumar Savanur and Vidyadhar Mudkavi. Aeroelastic Behavior of Wind Turbine Rotors. – М.: LAP Lambert Academic Publishing, 2014. – 340 с.
  41. Shengyang Chen. Particle Mixing And Settling In Reservoirs Under Natural Convection. – М.: LAP Lambert Academic Publishing, 2014. – 112 с.
  42. Osama Marzouk. Nonlinear Wake Phenomena. – М.: LAP Lambert Academic Publishing, 2010. – 112 с.
  43. Adela Ionescu. Recent trends in computational modeling of excitable media dynamics. – М.: LAP Lambert Academic Publishing, 2010. – 72 с.
  44. Ahmad Shakibaeinia. A Mesh-Free Lagrangian Methods for Free Surface and Interfacial Flows. – М.: LAP Lambert Academic Publishing, 2011. – 180 с.
  45. Esam Jassim. Hydrate Deposition in Multiphase Compressed Natural Gas Flow Lines. – М.: Scholars Press, 2013. – 244 с.
  46. Abedalrzaq Alshqirate and Mahmoud Hammad. Two Phase Flow of Carbon Dioxide in Micropipe Heat Exchangers. – М.: LAP Lambert Academic Publishing, 2013. – 216 с.
  47. Gamal Elsaeed,Ahmed Wagdy and Ahmed Aly. The Pile groups effect on Scour around Bridge Piers. – М.: LAP Lambert Academic Publishing, 2011. – 140 с.
  48. S. Jamshed. The role of HPC in Computational Fluid Dynamics. – М.: LAP Lambert Academic Publishing, 2012. – 188 с.
  49. Pandaba Patro. CFD Modeling of a Compact Pin Fin Heat Exchanger. – М.: LAP Lambert Academic Publishing, 2013. – 96 с.
  50. Saber Ahmed,M. G. Rasul and R. J. Brown. Computational Fluid Dynamics Modelling. – М.: LAP Lambert Academic Publishing, 2013. – 52 с.
  51. Ghani Albaali. Studies on Thermal Sterilization of Liquid Foods Using CFD. – М.: LAP Lambert Academic Publishing, 2011. – 260 с.
  52. Itzhak Merksamer. Energy Towers interaction with its surrounding. – М.: Scholars' Press, 2014. – 220 с.
  53. Konrad Kacprzak,Krzysztof Sobczak and Grzegorz Liskiewicz. Numerical analysis of the flow in a two-bucket Savonius wind turbine. – М.: LAP Lambert Academic Publishing, 2011. – 76 с.
  54. Ivette Rodriguez and Assensi Oliva. Unsteady laminar convection in cylindrical domains. – М.: LAP Lambert Academic Publishing, 2011. – 152 с.
  55. Rui Tang. Flexible MEMS Thermal Sensors for Intravascular Flow Monitoring. – М.: LAP Lambert Academic Publishing, 2014. – 76 с.
  56. Mohsen Jahanmiri and Mohammad Abbaspour. Drag reduction of a generic car model by active boundary layer control. – М.: LAP Lambert Academic Publishing, 2012. – 132 с.
  57. A. M. Saravanan. Two - Phase Flow. – М.: LAP Lambert Academic Publishing, 2012. – 176 с.
  58. Jatinder Kumar,Ajay Bansal and Sumit Singh. Computational Fluid Dynamics for Residence Time Distribution Study. – М.: LAP Lambert Academic Publishing, 2013. – 68 с.
  59. Maksim Mezhericher. Theoretical Modelling of Spray Drying Processes. – М.: LAP Lambert Academic Publishing, 2011. – 152 с.
  60. Ali Pourahmadi Laleh,William Y. Svrcek and Wayne D. Monnery. CFD Simulation of Oilfield Separators. – М.: LAP Lambert Academic Publishing, 2011. – 252 с.
  61. Joaquin Pinto-Espinoza and Goran N. Jovanovic. Dynamic Behavior of Ferromagnetic Particles in a Liquid-Solid MAFB. – М.: LAP Lambert Academic Publishing, 2012. – 260 с.
  62. Shine Jude Hamilton Antony. CFD Analysis of an Axial Flow Fans. – М.: LAP Lambert Academic Publishing, 2013. – 104 с.
  63. Amitesh Kumar. Metal Droplet Impingement and Solidification on a Substrate. – М.: LAP Lambert Academic Publishing, 2014. – 200 с.
  64. Syed Asfandyar and Muhammad Rafique. DESIGN OPTIMIZATION. – М.: LAP Lambert Academic Publishing, 2010. – 84 с.
  65. Demir Kose and Prof. Ir. Erik Dick. Prediction of the Pressure Distribution on Buildings with CFD. – М.: LAP Lambert Academic Publishing, 2011. – 332 с.
  66. Roy Strandberg and Debendra K. Das. Heat Transfer Performance of Nanofluids. – М.: LAP Lambert Academic Publishing, 2010. – 152 с.
  67. Kshitij Neroorkar. Flash Boiling Model for Injectors with Gasoline-Ethanol Fuel Blends. – М.: LAP Lambert Academic Publishing, 2011. – 128 с.
  68. Isaac Kuma Yeboah,Alfred Owusu and Florin Nedelcut. Optimization of Ultrasonic flow meters for crude oil metering. – М.: LAP Lambert Academic Publishing, 2013. – 52 с.
  69. Muhammad Ahsan Irshad,Saad Sami and Muhammad Zaka-ur-Rehman. AEROACOUSTIC ANALYSIS OF WIND TURBINE PROPELLER. – М.: LAP Lambert Academic Publishing, 2010. – 128 с.
  70. Madhav Kulkarni. MULTIPHASE MECHANISMS & FLUID DYNAMICS IN GAS INJECTION EOR PROCESSES. – М.: LAP Lambert Academic Publishing, 2011. – 276 с.
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  1. Опыт реализации МСФО на базе Microsoft Dynamics AX. Н. Овчаренко, "Финансовая газета", № 9, февраль 2008.

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Математические модели океанических течений
Переводоведение (теория перевода) 		Курсовая работа
42 стр.

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Ленар, 17.06
Вчера я наконец-то защитился! Оценка Отлично. Большое спасибо за работу. С вами было приятно работать.