Theory and Application of Discrete Element Method to Simulation of Multiphase Flows
暫譯: 離散元素法在多相流模擬中的理論與應用
Agarwal, Ramesh K., Shao, Yali
- 出版商: Springer
- 出版日期: 2026-04-07
- 售價: $8,240
- 貴賓價: 9.5 折 $7,828
- 語言: 英文
- 頁數: 245
- 裝訂: Hardcover - also called cloth, retail trade, or trade
- ISBN: 3032111560
- ISBN-13: 9783032111562
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相關分類:
流體力學 Fluid-mechanics
海外代購書籍(需單獨結帳)
商品描述
The book provides an in-depth exploration of the theory, implementation, and vast applications of the Discrete Element Method (DEM) and its coupling with Computational Fluid Dynamics (CFD) for simulating complex multiphase flows. Beginning with the core theoretical framework of DEM--covering particle kinematics, contact detection algorithms, and contact force models--the book systematically progresses to advanced topics. It provides detailed coverage of critical particle-fluid interaction mechanisms, robust CFD-DEM coupling schemes, and the integration of heat and mass transfer phenomena. The strategies for enabling large-scale simulations, including parallel computing, GPU acceleration, and coarse-graining techniques, are also included. The book stands apart through its unparalleled breadth of application-centric chapters. Readers will find dedicated sections on:
- Conventional and Advanced Reactors: Bubbling, spouted, and circulating fluidized beds, as well as magnetized and electrostatic systems.
- Dense Granular Systems: Particle packing, shear flow, silo/hopper discharge, and moving bed applications in chemical looping, pyrolysis, heat exchanger, and blast furnaces.
- Industrial Process Engineering: Pneumatic and screw conveyors, pump wear and flow dynamics, and mining operations in crushers, mills, screens, and chutes.
- Advanced Manufacturing: Pharmaceutical processes like milling, blending, granulation, tableting, and coating, as well as battery electrode calendering and recycling.
- Emerging Trends: The integration of machine learning and optimization strategies for complex multiphase flow systems.
Bridging fundamental theory with cutting-edge practical advancements, Theory and Application of Discrete Element Method to Simulation of Multiphase Flows is an essential guide for students, engineers, and researchers seeking to model systems where particle dynamics are paramount.
商品描述(中文翻譯)
本書深入探討離散元素法(Discrete Element Method, DEM)的理論、實作及其與計算流體力學(Computational Fluid Dynamics, CFD)結合以模擬複雜多相流的廣泛應用。書中首先介紹DEM的核心理論框架,包括粒子運動學、接觸檢測演算法及接觸力模型,然後系統性地進入進階主題。內容詳細涵蓋關鍵的粒子-流體互動機制、穩健的CFD-DEM耦合方案,以及熱質傳遞現象的整合。還包括了實現大規模模擬的策略,如平行計算、GPU加速和粗粒化技術。本書的特色在於其無與倫比的應用導向章節,讀者將發現專門的部分包括:
- 傳統與進階反應器:氣泡、噴流及循環流化床,以及磁化和靜電系統。
- 密集顆粒系統:顆粒堆積、剪切流、料倉/漏斗排放,以及在化學循環、熱解、熱交換器和高爐中的移動床應用。
- 工業過程工程:氣動和螺旋輸送機、泵的磨損和流動動力學,以及在破碎機、磨機、篩子和斜槽中的採礦作業。
- 先進製造:製藥過程如磨粉、混合、顆粒化、製片和塗層,以及電池電極的壓延和回收。
- 新興趨勢:機器學習和優化策略在複雜多相流系統中的整合。
《離散元素法在多相流模擬中的理論與應用》將基礎理論與尖端實務進展相結合,是學生、工程師和研究人員尋求建模粒子動力學至關重要的系統的必備指南。
作者簡介
Ramesh K. Agarwal, Ph.D., is the William Palm Professor of Engineering in the Department of Mechanical Engineering and Materials Science at Washington University in St. Louis. From 1994 to 2001, he was the Sam Bloomfield Distinguished Professor and Executive Director of the National Institute for Aviation Research at Wichita State University. From 1978 to 1994, he was the Program Director and McDonnell Douglas Fellow at McDonnell Douglas Research Laboratories in St. Louis. He received his Ph.D. in Aeronautical Sciences from Stanford University in 1975, an M.S. in Aeronautical Engineering from the University of Minnesota in 1969, and B.S. in Mechanical Engineering from the Indian Institute of Technology, Kharagpur, in 1968. Over a period of 50 years, Professor Agarwal has worked in various areas of computational science and engineering, including computational fluid dynamics (CFD), computational acoustics, magneto-hydrodynamics and electromagnetics, computational materials science and manufacturing, computational control theory and robotics, and multidisciplinary design and optimization. The range of applications in CFD includes subsonic, transonic and hypersonic flows, rarefied and micro-flows, active flow control, turbulence modeling, bio-fluid dynamics, turbomachinery and pumps, wind energy, energy efficiency of buildings, carbon capture and sequestration and chemical looping combustion. He is the author and co-author of over 600 publications and serves on the editorial board of more than 20 journals. He has given many plenaries, keynotes, and invited lectures at various national and international conferences in over 60 countries worldwide. Professor Agarwal continues to serve on many professional, government, and industrial advisory committees. He is a Fellow of 32 professional societies including the AIAA, ASME, IEEE, SAE, AAAS, APS, and IOP. Professor Agarwal has received many prestigious honors and national/international awards from various professional societies and organizations for his research contributions, including the AIAA Reeds Aeronautics Award, SAE Medal of Honor, ASME Honorary Membership, and an Honorary Fellowship from the Royal Aeronautical Society.
Yali Shao, Ph.D., is currently an associate professor in the School of Energy and Mechanical Engineering at Nanjing Normal University in Nanjing. She received her Ph.D. in 2020 from the Key Laboratory of Energy Thermal Conversion and Control of the Ministry of Education, School of Energy and Environment at Southeast University, Nanjing, under the guidance of Prof. Baosheng Jin. Dr. Shao has worked in the areas of numerical simulation of multiphase flow, chemical looping carbon capture technology and ammonia-hydrogen zero-carbon fuel utilization technology. She is the author and co-author of over 30 publications. Dr. Shao has collaborated extensively with Professor Ramesh K. Agarwal in the area of DEM and CFD simulations in the past seven years, which is continuing. She has also co-authored many publications with Professor Agarwal in international journals.
作者簡介(中文翻譯)
Ramesh K. Agarwal, Ph.D.,是華盛頓大學聖路易斯分校機械工程與材料科學系的威廉·帕姆工程教授。從1994年到2001年,他擔任威奇塔州立大學國家航空研究所的薩姆·布魯姆菲爾德傑出教授及執行主任。從1978年到1994年,他是聖路易斯麥克唐納·道格拉斯研究實驗室的計畫主任及麥克唐納·道格拉斯研究員。他於1975年在史丹佛大學獲得航空科學博士學位,1969年在明尼蘇達大學獲得航空工程碩士學位,並於1968年在印度理工學院卡哈拉古爾獲得機械工程學士學位。在50年的職業生涯中,Agarwal教授在計算科學與工程的各個領域工作,包括計算流體力學(CFD)、計算聲學、磁流體力學與電磁學、計算材料科學與製造、計算控制理論與機器人技術,以及多學科設計與優化。CFD的應用範圍包括亞音速、跨音速和超音速流動、稀薄流和微流、主動流動控制、湍流建模、生物流體力學、渦輪機和泵、風能、建築能效、碳捕集與封存以及化學循環燃燒。他是600多篇出版物的作者和合著者,並在20多本期刊的編輯委員會中任職。他在全球60多個國家的各種國內和國際會議上發表了許多主題演講、特邀演講和關鍵演講。Agarwal教授持續在許多專業、政府和工業諮詢委員會中服務。他是包括AIAA、ASME、IEEE、SAE、AAAS、APS和IOP在內的32個專業學會的會士。Agarwal教授因其研究貢獻獲得了許多著名的榮譽和國內/國際獎項,包括AIAA Reeds航空獎、SAE榮譽獎章、ASME榮譽會員資格,以及英國皇家航空學會的榮譽院士。
Yali Shao, Ph.D.,目前是南京師範大學能源與機械工程學院的副教授。她於2020年在南京東南大學能源與環境學院教育部能源熱轉換與控制重點實驗室獲得博士學位,指導教授為金保生教授。Shao博士的研究領域包括多相流的數值模擬、化學循環碳捕集技術和氨-氫零碳燃料利用技術。她是30多篇出版物的作者和合著者。在過去七年中,Shao博士與Ramesh K. Agarwal教授在離散元法(DEM)和計算流體力學(CFD)模擬方面進行了廣泛的合作,並持續進行中。她還與Agarwal教授在國際期刊上共同發表了多篇論文。
