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liang jiyuan @ next

2019-08-15 我的星朋友 (My Star Friend) weibo update

wang yibo - hangzhou asian games breakdance promotional film behind the scenes

The new breakdancing event of the Hangzhou Asian Games has officially won the gold medal. Recently, the break dance promotional video "Burning" for the Hangzhou Asian Games, jointly shot and produced by the Zhejiang Branch of the China News Service and the Zhejiang Street Dance Sports Association, has aroused heated discussions on the Internet. Various details in the film have been picked up by enthusiastic netizens, saying that the costumes The props and other items are “all top-notch”, and we will reveal the official secrets to you one after another.

The orchid picture of "Flowers Blooming on the Moshang" in the film was improvised by the famous writer and painter Mr. Mu Zhai. He used the single hook that was popular in the Song Dynasty and painted with the original "Glan" method. According to Mr. Mu Zhai, the old species "Jun He" placed on the flower table in the film was a famous Jianlan gift given by friends from Jiangnan 20 years ago. The director team chose this strain precisely because there is a story of "Lanyi" from the south of the Yangtze River. Junhe itself is majestic and majestic, which is in line with Hangzhou's identity and demeanor as the host. The orchid painted on the rice paper is "Jiyuan", an old national orchid species produced in Hangzhou. This variety has a history of hundreds of years and is one of the "four heavenly kings" of spring orchids.

Here U Are ♡

JiYuan & HuanWen

Xiaolangdi Dam is a dam in Jiyuan, Henan Province, China, and floods the Yellow River. The property is located about 20 km northwest of Luoyang.

سد Xiaolangdi هو سد يقع في مدينة جيوان بمقاطعة خنان بالصين ويغرق النهر الأصفر. يقع مكان الإقامة على بعد حوالي 20 كم شمال غرب لويانغ.

Xiaolangdi Barajı, Çin'in Henan Eyaleti, Jiyuan'da bir barajdır ve Sarı Nehri sular altında bırakır. Tesis, Luoyang'ın yaklaşık 20 km kuzeybatısında yer almaktadır.

Only You (2015) 囧西游

Director: Aoyama Jushi Screenwriter: Zhu Xuan Starring: Li Yilin / Dai Wenwen / Li Chuan / Li Dawei / An Jie / Yifan / Zhang Taiwei / Yao Zhiqi / Gu Feng / Guo Yunqi / Zhang Yuxuan / Zheng Kaiyu / Zheng Xiaofu / Yuan Yuan / Xu Jiyuan Genre: Comedy / Costume Country/Region of Production: Mainland China Language: Mandarin Chinese Date: 2015-02-17 (Mainland China) Number of episodes: 10 Single episode length: 8 minutes Type: Reimanging

Summary:

The story of "Embarrassing Journey to the West" focuses on the little goblin "Zhazha" mobilizing all the major demon kings to defeat Tang Monk. In each episode, Zhazha always works under a different demon king. After learning that Tang Seng and his party are about to pass by, he encourages his king to go up to catch Tang Seng and fight Wukong. This is by no means his conspiracy, but his true inner thoughts. He naively believed that as a goblin, he should eat Tang Monk and capture Sun Wukong. Being a goblin has no dreams. What is the difference between being a goblin and a salted fish? Youth is bleeding!

Source: https://tv-1.chinesemov.com/tv/2015/Only-You

Link: https://youtube.com/playlist?list=PLF7yYLgF6b0OoOEM32hw0URkRAVIcWzYD

Artes marciales y el funcionamiento intestinal

Por Ru Liang, Shu Zhang, Xiangji Peng, Wanna Yang, Yanwei Xu, Ping Wu, Junhui Chen, Yongjiang Cai y Jiyuan Zhou Juan J. Loor, Editor Resumen La evidencia reciente sugiere que los atletas tienen características microbianas distintas de las de las personas sedentarias. Sin embargo, no se han evaluado las características de la microbiota intestinal en atletas que compiten en diferentes…

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¡Revista Integración Edición 69! 👏

¡Revista Integración Edición 69! 👏Compartimos el enlace a la Edición 69 de la Revista Integración. Descubre las últimas noticias relacionadas a la comunidad tusan:➡Los sabores navideños de La Dulciteca, de Andrea Wong y Sabina De Szyszlo.➡Distinción al Ing. Erasmo Wong en la USIL.➡Festival de Coros “Voces y Sonido 2023”➡Pierina Wong, embajadora turística de Jiyuan.➡La última publicación de Julia…

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sábado 10º febrero 2024, Jiyuan, 12.51pm.

#73.868 — Un niño de papá, escandalosamente rico y sin nada que hacer, decide "adoptar" a un taxista de su edad para divertirse impresionándole y reírse con su torpeza en la alta sociedad. Tras sus conversaciones en el chat, en la que se explicaban mutuamente sus problemas matrimoniales, quisieron conocerse, descubrieron su verdadera identidad, y decidieron divorciarse de inmediato.

Chinese AI Chip Startup Raises $800M to Dominate Computer Vision Industry

<h1>Chinese AI Chip Company Raises $800 Million in New Funding Round</h1> <p>On January 17th, Aixinnuo Cognition announced that it completed a Series A++ funding round. The company focuses on making artificial intelligence (AI) computer chips for vision tasks. It raised a total of $800 million yuan (around $125 million US dollars) in the new round.</p> <p>Several major investors participated in the funding, including Qiming Venture Capital, Weihau Venture Capital, Meituan, Meituan Dragonfly, Heju Capital, Jiyuan Capital, Legend Star (owned by Lenovo), and YouTu Capital. This was Aixinnuo Cognition's fourth round of funding so far. The last round was only about 6 months ago.</p> <p>The company plans to use the new money to bring in more resources from different industries. It wants to attract top talent in AI, expand its business, and work with other companies. The goal is to make high-quality computer chips that can compete globally.</p> <h2>About Aixinnuo Cognition</h2> <p>Aixinnuo Cognition was founded in May 2019 under its previous name "Aixin Technology". It focuses on developing high-performance AI computer chips that use less power. These chips are designed to help with vision tasks in AI. They can be used in smart cities, homes, transportation, shopping, and wearable devices.</p> <p>In less than three years, the company has already created two generations of chips for edge devices called the AX630A and AX620A. Both chips are very powerful but also energy efficient. This allows the company to offer complete solutions to partners for different applications.</p> <h2>Core Technologies</h2> <p>Aixinnuo Cognition has developed advanced neural network processors (NPUs) that combine different types of AI. Using its NPUs, the company provides a powerful yet affordable computing platform for AI. It has also created image processing technologies for AI called AI ISPs.</p> <p>By connecting its ISPs and NPUs, the company can greatly improve how traditional ISPs handle images. This gives customers a strong foundation for graphics and photos. Overall, Aixinnuo Cognition has established itself as a leader in computer chips for vision tasks using AI.</p> <h2>Future Plans and Market Outlook</h2> <p>Demand for AI computer chips is growing very quickly all over the world. Experts predict the global market will be worth $72.6 billion by 2025. China also has huge potential as industries like 5G and AI expand rapidly.</p> <p>Many Chinese companies in areas like chip design, internet, and technology see this as a big chance. As one top company in this field, Aixinnuo Cognition will focus on research, product development, and hiring the best people. Its goal is to become a major player in the vision AI chip industry.</p> <p>The company's CEO said "We appreciate the continued support of our investors. In the future, we will keep innovating visual AI chip technology to be long-term partners for customers."</p>

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2023-11-11 Leng Jiyuan weibo update

Computational Fluid Dynamics: A Practical Approach 3rd Edition by Jiyuan Tu, ISBN-13: 978-0081011270 [PDF eBook eTextbook] 498 pages Publisher: Butterworth-Heinemann; 3 edition (February 9, 2018) Language: English ISBN-10: 008101127X ISBN-13: 978-0081011270 Computational Fluid Dynamics: A Practical Approach, Third Edition, is an introduction to CFD fundamentals and commercial CFD software to solve engineering problems. The book is designed for a wide variety of engineering students new to CFD, and for practicing engineers learning CFD for the first time. Combining an appropriate level of mathematical background, worked examples, computer screen shots, and step-by-step processes, this book walks the reader through modeling and computing, as well as interpreting CFD results. This new edition has been updated throughout, with new content and improved figures, examples and problems. – Includes a new chapter on practical guidelines for mesh generation – Provides full coverage of high-pressure fluid dynamics and the meshless approach to provide a broader overview of the application areas where CFD can be used Table of contents: Cover……Page 1 Half Title……Page 2 Computational Fluid Dynamics: A Practical Approach……Page 3 Copyright……Page 4 Preface for Third Edition……Page 5 Preface for Second Edition……Page 6 Preface for First Edition……Page 7 Acknowledgements……Page 10 What is Computational Fluid Dynamics……Page 11 Advantages of Computational Fluid Dynamics……Page 14 As a Research Tool……Page 16 As an Educational Tool……Page 17 As a Design Tool……Page 18 Aerospace……Page 19 Automotive Engineering……Page 20 Biomedical Science and Engineering……Page 22 Chemical and Mineral Processing……Page 25 Civil and Environmental Engineering……Page 27 Metallurgy……Page 29 Nuclear Safety……Page 30 Power Generation and Renewable Energy……Page 32 Sports……Page 35 The Future of Computational Fluid Dynamics……Page 37 Summary……Page 39 Review Questions……Page 40 Introduction……Page 42 Shareware CFD……Page 43 Commercial CFD……Page 44 Creation of Geometry-Step 1……Page 45 Mesh Generation-Step 2……Page 48 Selection of Physics and Fluid Properties-Step 3……Page 49 Specification of Boundary Conditions-Step 4……Page 51 Initialization and Solution Control-Step 5……Page 55 Monitoring Convergence-Step 6……Page 57 Result Report and Visualization-Postprocess……Page 60 X-Y Plots……Page 62 Vector Plots……Page 63 Contour Plots……Page 65 Other Plots……Page 67 Data Report and Output……Page 68 Animation……Page 69 Summary……Page 70 Review Questions……Page 71 Mass Conservation……Page 73 Physical Interpretation……Page 77 Comments……Page 80 Force Balance……Page 81 Physical Interpretation……Page 85 Comments……Page 95 Energy Conservation……Page 96 Physical Interpretation……Page 99 Comments……Page 105 What is Turbulence……Page 106 k- Two-Equation Turbulence Model……Page 108 Generic Form of the Governing Equations for CFD……Page 116 Physical Boundary Conditions of the Governing Equations……Page 125 Summary……Page 128 Review Questions……Page 129 Introduction……Page 133 Structured Mesh……Page 135 Body-Fitted Mesh……Page 136 Unstructured Mesh……Page 141 Comments on Mesh Topology……Page 144 Local Mesh Refinement……Page 148 Overlapping Mesh Techniques……Page 152 Adaptive Mesh With Solution……Page 153 Moving Meshes……Page 154 Guidelines for Mesh Quality and Mesh Design……Page 156 Review Questions……Page 160 Introduction……Page 163 Finite Difference Method……Page 166 Finite Volume Method……Page 171 Finite Element Method……Page 176 Converting Governing Equations to Algebraic Equation System……Page 177 Finite Difference Method……Page 178 Finite Volume Method……Page 179 Comparison of the Finite Difference and Finite Volume Discretizations……Page 181 Numerical Solutions to Algebraic Equations……Page 192 Direct Methods……Page 193 Iterative Methods……Page 197 Pressure-Velocity Coupling-Simple Scheme……Page 201 Multigrid Method……Page 212 Summary……Page 214 Review Questions……Page 215 Introduction……Page 219 Consistency……Page 220 Stability……Page 224 What is Convergence……Page 230 Residuals and Convergence Tolerance……Page 232 Convergence Difficulty and Using Under-Relaxation……Page 235 Accelerating Convergence……Page 236 Accuracy……Page 237 Source of Solution Errors……Page 238 Discretisation Error……Page 239 Round-Off Error……Page 242 Physical Modelling Error……Page 243 Controlling the Solution Errors……Page 244 Verification and Validation……Page 246 Efficiency……Page 247 Case Studies……Page 249 Test Case A: Channel Flow……Page 250 Test Case B: Flow over a 90o Bend��…Page 253 Summary……Page 258 Review Questions……Page 259 Introduction……Page 262 Overview of Setting Boundary Conditions……Page 263 Guidelines for Inlet Boundary Conditions……Page 265 Guidelines for Outlet Boundary Conditions……Page 267 Guidelines for Wall Boundary Conditions……Page 268 Guidelines on Symmetry and Periodic Boundary Conditions……Page 269 Advanced Techniques……Page 271 Practical Techniques……Page 272 Guideline on a Particular Weakness of the Standard k- Model……Page 274 Other Useful Guidelines……Page 279 Near Wall Treatments……Page 280 Near-Wall Meshing Guidelines on Wall Functions……Page 283 Setting Boundary Conditions……Page 284 Test Case: Assessment of Two-Equation Turbulence Modeling for Hydrofoil Flows……Page 286 Features of the Simulation……Page 287 Boundary Conditions……Page 288 Results……Page 289 Guidelines on Problem Definition……Page 291 Guidelines on Solution Strategy and Global Solution Algorithm……Page 292 Summary……Page 293 Review Questions……Page 295 Introduction……Page 298 Indoor Airflow Distribution……Page 299 To Enhance Understanding-As a Research Tool……Page 305 Gas-Particle Flow in a 90 degrees Bend……Page 306 Governing Equations of Particle Phase Using the Lagrangian Approach……Page 307 Governing Equations of Particle Phase Using the Eulerian Approach……Page 308 Heat Exchanger……Page 312 Conjugate and Radiation Heat Transfer……Page 319 A Buoyant Free-Standing Fire……Page 327 Flow Over Vehicle Platoon……Page 332 Air/Particle Flow in the Human Nasal Cavity……Page 338 Supersonic Flow Over a Flat Plate……Page 345 Subsonic and Supersonic Flows Over a Wing……Page 355 Summary……Page 368 Review Questions……Page 369 Incompressible Flows……Page 375 Compressible Flows……Page 379 High Resolution Schemes……Page 380 Adaptive Meshing……Page 384 Moving Grids……Page 386 Multigrid Methods……Page 387 Parallel Computing……Page 390 Graphics Processing Units and CUDA Environment……Page 391 Immersed Boundary Methods……Page 393 Direct Numerical Simulation (DNS)……Page 396 Large Eddy Simulation (LES)……Page 399 RANS-LES Coupling for Turbulent Flows……Page 402 Multiphase Flows……Page 404 Combustion……Page 406 Fluid-Structure Interaction……Page 408 Physiological Fluid Dynamics……Page 410 Other Numerical Approaches for Computation of Fluid Dynamics……Page 412 Lattice Boltzmann Method……Page 413 Monte Carlo Method……Page 415 Particle Methods……Page 417 Discrete Element Method……Page 419 Summary……Page 421 Review Questions……Page 422 Introduction……Page 424 Simulation……Page 425 CFD Results and Discussion……Page 427 Simulation……Page 437 CFD Results and Discussion……Page 441 Case Introduction……Page 465 Simulation……Page 466 CFD Results and Discussion……Page 470 Case Introduction……Page 476 CFD Simulation……Page 477 CFD Results and Discussion……Page 481 Case Introduction……Page 484 Simulation……Page 485 CFD Results and Discussion……Page 487 Post Processing the Results……Page 488 Problem Description……Page 490 CFD Simulations……Page 491 Results and Discussion……Page 493 Problem Description……Page 496 Simulation……Page 497 Results and Discussion……Page 500 Case Introduction……Page 503 Simulation……Page 504 CFD Results and Discussion……Page 507 Case Introduction……Page 510 Simulation……Page 511 CFD Results and Discussion……Page 514 Case Introduction……Page 517 Problem Description……Page 518 Simulation……Page 519 CFD Results and Discussion……Page 520 Case Introduction……Page 527 Problem Description……Page 528 CFD Simulation……Page 529 CFD Results and Discussion……Page 532 Flow and Heat Mass Transfer in Shell-and-Tube Heat Exchanger……Page 538 Numerical Simulation……Page 539 CFD Results and Discussion……Page 541 Appendix A Full Derivation of Conservation Equations……Page 546 Appendix B Upwind Schemes……Page 553 Appendix C Explicit and Implicit Methods……Page 555 Appendix D Learning Program……Page 557 Problem Description……Page 560 Instructions……Page 561 Single Car Configuration……Page 562 Instructions……Page 563 Background and Aim……Page 564 Problem Description……Page 565 Instructions……Page 566 Objectives……Page 567 Introduction……Page 568 Objectives……Page 569 Required Discussions……Page 570 Required Discussions……Page 571 Addendum……Page 572 Problem Description……Page 573 Required Discussions……Page 574 References……Page 575 Further Reading……Page 589 B……Page 590 C……Page 591 D……Page 592 F……Page 593 G……Page 594 H……Page 595 L……Page 596 P……Page 597 S……Page 598 T……Page 599 Z……Page 600 Back Cover……Page 601 What makes us different? • Instant Download • Always Competitive Pricing • 100% Privacy • FREE Sample Available • 24-7 LIVE Customer Support

Computational Fluid Dynamics: A Practical Approach 3rd Edition by Jiyuan Tu, ISBN-13: 978-0081011270 [PDF eBook eTextbook] 498 pages Publisher: Butterworth-Heinemann; 3 edition (February 9, 2018) Language: English ISBN-10: 008101127X ISBN-13: 978-0081011270 Computational Fluid Dynamics: A Practical Approach, Third Edition, is an introduction to CFD fundamentals and commercial CFD software to solve engineering problems. The book is designed for a wide variety of engineering students new to CFD, and for practicing engineers learning CFD for the first time. Combining an appropriate level of mathematical background, worked examples, computer screen shots, and step-by-step processes, this book walks the reader through modeling and computing, as well as interpreting CFD results. This new edition has been updated throughout, with new content and improved figures, examples and problems. – Includes a new chapter on practical guidelines for mesh generation – Provides full coverage of high-pressure fluid dynamics and the meshless approach to provide a broader overview of the application areas where CFD can be used Table of contents: Cover……Page 1 Half Title……Page 2 Computational Fluid Dynamics: A Practical Approach……Page 3 Copyright……Page 4 Preface for Third Edition……Page 5 Preface for Second Edition……Page 6 Preface for First Edition……Page 7 Acknowledgements……Page 10 What is Computational Fluid Dynamics……Page 11 Advantages of Computational Fluid Dynamics……Page 14 As a Research Tool……Page 16 As an Educational Tool……Page 17 As a Design Tool……Page 18 Aerospace……Page 19 Automotive Engineering……Page 20 Biomedical Science and Engineering……Page 22 Chemical and Mineral Processing……Page 25 Civil and Environmental Engineering……Page 27 Metallurgy……Page 29 Nuclear Safety……Page 30 Power Generation and Renewable Energy……Page 32 Sports……Page 35 The Future of Computational Fluid Dynamics……Page 37 Summary……Page 39 Review Questions……Page 40 Introduction……Page 42 Shareware CFD……Page 43 Commercial CFD……Page 44 Creation of Geometry-Step 1……Page 45 Mesh Generation-Step 2……Page 48 Selection of Physics and Fluid Properties-Step 3……Page 49 Specification of Boundary Conditions-Step 4……Page 51 Initialization and Solution Control-Step 5……Page 55 Monitoring Convergence-Step 6……Page 57 Result Report and Visualization-Postprocess……Page 60 X-Y Plots……Page 62 Vector Plots……Page 63 Contour Plots……Page 65 Other Plots……Page 67 Data Report and Output……Page 68 Animation……Page 69 Summary……Page 70 Review Questions……Page 71 Mass Conservation……Page 73 Physical Interpretation……Page 77 Comments……Page 80 Force Balance……Page 81 Physical Interpretation……Page 85 Comments……Page 95 Energy Conservation……Page 96 Physical Interpretation……Page 99 Comments……Page 105 What is Turbulence……Page 106 k- Two-Equation Turbulence Model……Page 108 Generic Form of the Governing Equations for CFD……Page 116 Physical Boundary Conditions of the Governing Equations……Page 125 Summary……Page 128 Review Questions……Page 129 Introduction……Page 133 Structured Mesh……Page 135 Body-Fitted Mesh……Page 136 Unstructured Mesh……Page 141 Comments on Mesh Topology……Page 144 Local Mesh Refinement……Page 148 Overlapping Mesh Techniques……Page 152 Adaptive Mesh With Solution……Page 153 Moving Meshes……Page 154 Guidelines for Mesh Quality and Mesh Design……Page 156 Review Questions……Page 160 Introduction……Page 163 Finite Difference Method……Page 166 Finite Volume Method……Page 171 Finite Element Method……Page 176 Converting Governing Equations to Algebraic Equation System……Page 177 Finite Difference Method……Page 178 Finite Volume Method……Page 179 Comparison of the Finite Difference and Finite Volume Discretizations……Page 181 Numerical Solutions to Algebraic Equations……Page 192 Direct Methods……Page 193 Iterative Methods……Page 197 Pressure-Velocity Coupling-Simple Scheme……Page 201 Multigrid Method……Page 212 Summary……Page 214 Review Questions……Page 215 Introduction……Page 219 Consistency……Page 220 Stability……Page 224 What is Convergence……Page 230 Residuals and Convergence Tolerance……Page 232 Convergence Difficulty and Using Under-Relaxation……Page 235 Accelerating Convergence……Page 236 Accuracy……Page 237 Source of Solution Errors……Page 238 Discretisation Error……Page 239 Round-Off Error……Page 242 Physical Modelling Error……Page 243 Controlling the Solution Errors……Page 244 Verification and Validation……Page 246 Efficiency……Page 247 Case Studies……Page 249 Test Case A: Channel Flow……Page 250 Test Case B: Flow over a 90o Bend……Page 253 Summary……Page 258 Review Questions……Page 259 Introduction……Page 262 Overview of Setting Boundary Conditions……Page 263 Guidelines for Inlet Boundary Conditions……Page 265 Guidelines for Outlet Boundary Conditions……Page 267 Guidelines for Wall Boundary Conditions……Page 268 Guidelines on Symmetry and Periodic Boundary Conditions……Page 269 Advanced Techniques……Page 271 Practical Techniques……Page 272 Guideline on a Particular Weakness of the Standard k- Model……Page 274 Other Useful Guidelines……Page 279 Near Wall Treatments……Page 280 Near-Wall Meshing Guidelines on Wall Functions……Page 283 Setting Boundary Conditions……Page 284 Test Case: Assessment of Two-Equation Turbulence Modeling for Hydrofoil Flows……Page 286 Features of the Simulation……Page 287 Boundary Conditions……Page 288 Results……Page 289 Guidelines on Problem Definition……Page 291 Guidelines on Solution Strategy and Global Solution Algorithm……Page 292 Summary……Page 293 Review Questions……Page 295 Introduction……Page 298 Indoor Airflow Distribution……Page 299 To Enhance Understanding-As a Research Tool……Page 305 Gas-Particle Flow in a 90 degrees Bend……Page 306 Governing Equations of Particle Phase Using the Lagrangian Approach……Page 307 Governing Equations of Particle Phase Using the Eulerian Approach……Page 308 Heat Exchanger……Page 312 Conjugate and Radiation Heat Transfer……Page 319 A Buoyant Free-Standing Fire……Page 327 Flow Over Vehicle Platoon……Page 332 Air/Particle Flow in the Human Nasal Cavity……Page 338 Supersonic Flow Over a Flat Plate……Page 345 Subsonic and Supersonic Flows Over a Wing……Page 355 Summary……Page 368 Review Questions……Page 369 Incompressible Flows……Page 375 Compressible Flows……Page 379 High Resolution Schemes……Page 380 Adaptive Meshing……Page 384 Moving Grids……Page 386 Multigrid Methods……Page 387 Parallel Computing……Page 390 Graphics Processing Units and CUDA Environment……Page 391 Immersed Boundary Methods……Page 393 Direct Numerical Simulation (DNS)……Page 396 Large Eddy Simulation (LES)……Page 399 RANS-LES Coupling for Turbulent Flows……Page 402 Multiphase Flows……Page 404 Combustion……Page 406 Fluid-Structure Interaction……Page 408 Physiological Fluid Dynamics……Page 410 Other Numerical Approaches for Computation of Fluid Dynamics……Page 412 Lattice Boltzmann Method……Page 413 Monte Carlo Method……Page 415 Particle Methods……Page 417 Discrete Element Method……Page 419 Summary……Page 421 Review Questions……Page 422 Introduction……Page 424 Simulation……Page 425 CFD Results and Discussion……Page 427 Simulation……Page 437 CFD Results and Discussion……Page 441 Case Introduction……Page 465 Simulation……Page 466 CFD Results and Discussion……Page 470 Case Introduction……Page 476 CFD Simulation……Page 477 CFD Results and Discussion……Page 481 Case Introduction……Page 484 Simulation……Page 485 CFD Results and Discussion……Page 487 Post Processing the Results……Page 488 Problem Description……Page 490 CFD Simulations……Page 491 Results and Discussion……Page 493 Problem Description……Page 496 Simulation……Page 497 Results and Discussion……Page 500 Case Introduction……Page 503 Simulation……Page 504 CFD Results and Discussion……Page 507 Case Introduction……Page 510 Simulation……Page 511 CFD Results and Discussion……Page 514 Case Introduction……Page 517 Problem Description……Page 518 Simulation……Page 519 CFD Results and Discussion……Page 520 Case Introduction……Page 527 Problem Description……Page 528 CFD Simulation……Page 529 CFD Results and Discussion……Page 532 Flow and Heat Mass Transfer in Shell-and-Tube Heat Exchanger……Page 538 Numerical Simulation……Page 539 CFD Results and Discussion……Page 541 Appendix A Full Derivation of Conservation Equations……Page 546 Appendix B Upwind Schemes……Page 553 Appendix C Explicit and Implicit Methods……Page 555 Appendix D Learning Program……Page 557 Problem Description……Page 560 Instructions……Page 561 Single Car Configuration……Page 562 Instructions……Page 563 Background and Aim……Page 564 Problem Description……Page 565 Instructions……Page 566 Objectives……Page 567 Introduction……Page 568 Objectives……Page 569 Required Discussions……Page 570 Required Discussions……Page 571 Addendum……Page 572 Problem Description……Page 573 Required Discussions……Page 574 References……Page 575 Further Reading……Page 589 B……Page 590 C……Page 591 D……Page 592 F……Page 593 G……Page 594 H……Page 595 L……Page 596 P……Page 597 S……Page 598 T……Page 599 Z……Page 600 Back Cover……Page 601 What makes us different? • Instant Download • Always Competitive Pricing • 100% Privacy • FREE Sample Available • 24-7 LIVE Customer Support

Great Tang Journey to the West (2007) 大唐西游记

Director: Sheng Zhenhua / Meng Jiyuan / Fei Xiang / Shu Gang 

Starring: Lu Jianyi 

Genre: Documentary 

Country/Region of Production: Mainland China

Language: Mandarin Chinese 

Date: 2007-03-06

Number of Seasons: 1

Episodes: 6 

Single episode length: 35 minutes

Type: Crossover

Summary:

In the early autumn of 627 A.D., the 27-year-old monk Xuanzang left his hometown among a group of fleeing victims and broke into the perilous Gobi alone. In order to avoid the inspection of the city guards, he got lost in the desert and after nine deaths he finally out of the Gobi. In Turpan, the king of the Western Regions received Xuanzang kindly and hoped that he would stay as his master, but Xuanzang still chose to leave. On the way to continue westward, there are more and more followers behind him, but due to the extreme harshness and danger of nature, only two disciples survived with him in the end. With infinite piety, Xuanzang traveled to 108 countries and finally came to India, the holy temple in the hearts of Buddhists. In this way, as early as 1300 years ago, Xuanzang measured the later Silk Road on foot...

Source: https://movie.douban.com/subject/2171083/

Link: N/A