液相連續多相反應器的數值模擬

《液相連續多相反應器的數值模擬》系統介紹了液相反應器和反應結晶器內多相混合、流動、傳質和反應過程的數學模型、數值方法及實驗技術等基礎研究和工程套用的內容，涵蓋了反應器和顆粒尺度(固體顆粒、氣泡和液滴)上的氣—液、液—固、液—液、氣—液—固、液—液—固和氣—液—液等多相特性。《液相連續多相反應器的數值模擬》除了介紹作者及合作者在這些領域的研究新成果外，也廣泛蒐集國內外的前沿研究成果，向讀者做全景式的介紹。

《液相連續多相反應器的數值模擬》將為多相流反應器和結晶29(例如攪拌槽、環流反應器和微反應9S)的設計、最佳化和放大提供基礎理論和數值方法，作為在化學反應工程、傳質與傳熱、流體力學、結晶學等領域內的科學家和工程師的一本參考書，特別適合於需要掌握先進的計算流體力學和計箅反應工程學工具、用數學模型和數值模擬方法來研究攪拌槽、環流反應器和微反應器的讀者，也可供廣大化工和冶金工程師以及高等學校相關專業師生參考。

Preface ix

CHAPTER 1 Introduction

CHAPTER 2 Fluid fow and mass transfer on particle scale

2.1 Introduction

2.2 Theoretical basis

2.2.1 Fluid mechanics

2.2.2 Mass transfer

2.2.3 Interfacial force balance

2.2.4 Interfacial mass transport

2.3 Numerical methods

2.3.1 Orthogonal boundary-ftted coordinate system

2.3.2 Level set method

2.3.3 Mirror fuid method

2.4 Buoyancy-driven motion and mass transfer of a single particle

2.4.1 Drop, bubble and solid particle motion

2.4.2 Mass transfer to/from a drop

2.5 Mass transfer-induced Marangoni effect

2.5.1 Solute-induced Marangoni effect

2.5.2 Effect of surfactant on drop motion and mass transfer

2.5.3 Surfactant-induced Marangoni effect

2.6 Behavior of particle swarms

2.6.1 Introduction

2.6.2 Forces on single particles

2.6.3 Cell model

2.7 Single particles in shear fow and extensional fow

2.7.1 Mass/heat transfer from a spherical particle in extensional fow

2.7.2 Flow and transport from a sphere in simple shear fow

2.8 Summary and perspective

2.8.1 Summary

2.8.2 Perspective

Nomenclature

References

CHAPTER 3 Multiphase stirred reactors

3.1 Introduction

3.2 Mathematical models and numerical methods

3.2.1 Governing equations

3.2.2 Interphase momentum exchange

3.2.3 RANS method

3.2.4 LES model

3.2.5 Impeller treatment

3.2.6 Numerical details

3.3 Two-phase fow in stirred tanks

3.3.1 Solid?Cliquid systems

3.3.2 Gas?Cliquid systems

3.3.3 Liquid?Cliquid systems

3.4 Three-phase fow in stirred tanks

3.4.1 Liquid?Cliquid?Csolid systems

3.4.2 Gas?Cliquid?Cliquid systems

3.4.3 Liquid?Cliquid?Cliquid systems

3.4.4 Gas?Cliquid?Csolid systems

3.5 Summary and perspective

3.5.1 Summary

3.5.2 Perspective

Nomenclature

References

CHAPTER 4 Airlift loop reactors

4.1 Introduction

4.2 Flow regime identifcation

4.3 Mathematical models and numerical methods

4.3.1 Eulerian?CEulerian two-fuid model

4.3.2 Closure of interfacial forces

4.3.3 Closure of turbulence models

4.3.4 Numerical methods

4.4 Hydrodynamics and transport in airlift loop reactors

4.4.1 Hydrodynamic behavior

4.4.2 Interphase transport phenomena

4.5 Macromixing and micromixing

4.5.1 Macromixing in airlift loop reactors

4.5.2 Micromixing in airlift loop reactors

4.6 Guidelines for design and scale-up of airlift loop reactors

4.7 Summary and perspective

Nomenclature

References

CHAPTER 5 Preliminary investigation of two-phase microreactors

5.1 Introduction

5.2 Mathematical models and numerical methods

5.3 Simulation using lattice Boltzmann method

5.3.1 Numerical simulation of two-phase fow in microchannels

5.3.2 Numerical study of heat transfer in microchannels

5.3.3 Numerical simulation of mass transfer in microchannels

5.4 Experimental

5.4.1 Flow pattern

5.4.2 Pressure drop

5.4.3 Mass transfer performance

5.4.4 Micromixing

5.5 Summary and perspective

Nomenclature

References

CHAPTER 6 Crystallizers: CFD?CPBE modeling

6.1 Introduction

6.2 Mathematical models and numerical methods

6.2.1 General population balance equation

6.2.2 Standard method of moments

6.2.3 Quadrature method of moments

6.2.4 Multi-class method or discretized method

6.3 Crystallizer modeling procedures

6.3.1 Species transport equations

6.3.2 Nucleation and growth kinetics

6.3.3 Aggregation and breakage kernels

6.3.4 Computational details

6.3.5 Simulated results of precipitation processes

6.4 Macromixing and micromixing

6.5 Summary and perspective

Nomenclature

References

Index