多孔介质中的流体:输运与相变(英文)

多孔介质中的流体:输运与相变(英文)
作 者: 亨克·惠因克
出版社: 哈尔滨工业大学出版社
丛编项: 国外优秀物理著作原版系列
版权说明: 本书为出版图书,暂不支持在线阅读,请支持正版图书
标 签: 暂缺
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作者简介

  亨克·惠因克,Hendrik Pieter (Henk) Huinink is a physical chemist who graduated at the Wageningen University, The Netherlands (1998), with a PhD in soft matter physics. From 1998-1999 he was research associate at the Shell Research and Technology Center Amsterdam (SRTCA),where he investigated the influence of confinement on the morphology of block copolymers. He joined the Applied Physics Department of the Eindhoven Universitv of Technologv (The Netherlands) in 1999, where he started to work on modeling of transport in porous media and thin films. In those years he became more and more involved in NMR imaging studies on transport phenonema. In 2005 he became assistant professor at the Eindhoven University of Technology in the group Transport in Permeable Media (TPM). He guides a group of about 5-7 PhD students doing experimental work on transport processes in porous materials and polymer films. He teaches several courses at BSc and MSc level: statistical physics, microfluidics and porous media. Recently, he ha...

内容简介

本书共九章,主要介绍了多孔介质中的流体。通过多孔介质的介绍引入了第一章的孔隙空间及孔隙度的几何学;第二章主要介绍了热力学,描写了热力学势与平衡以及热力学的基本性质;第三章通过对界面张力的描写介绍了固体的润湿和毛细现象;第四章介绍了一些现象,如融化、冷凝和结晶等;第五章和第六章分别介绍了管流和单相流动;第七章介绍了非承压含水层;第八章和第九章介绍了不饱和流和二相流等问题。本书可用作相关专业硕士研究生教材。

图书目录

Preface

Acknowledgements

About the Author

Symbols

1 Introduction

1.1 Porous materials

1.2 The geometry of the pore space and porosity

1.3 Pore sizes and the pore size distribution

1.4 Tortuosity

1.5 Guide to the reader

Further reading

2 Recap of thermodynamics

2.1 Fundamental equations

2.2 Thermodynamic potentials and equilibrium

2.3 Chemical potentials

Further reading

3 Wetting of solids and capillarity

3.1 Interfaces and interracial tension

3.2 Wetting and contact angle

3.3 Capillary pressure

3.4 Stresses in materials

Further reading

4 Phase transitiofis and confinement

4.1 Melting

4.2 Condensation

4.3 Crystallization

Further reading

5 Pipe flow

5.1 Stokes flow

5.2 Flow through a tube

Further reading

6 Single phase flow

6.1 Darcy's law

6.2 Permeability and geometry

6.3 Heterogeneity in the permeability

Further reading

7 Unconfined aquifers

7.1 Dupuit equation

7.2 Steady state applications and wells

Further reading

8 Unsaturated flow

8.1 Capillary suction

8.2 Beyond the sharp front approach

8.3 Capillary suction revisited

8.4 The role of vapor transport

Further reading

9 Two phase flow

9.1 Front motion

9.2 The front zone

9.3 Relative permeability and residual saturation

9.4 Viscous fingering

Further reading

Appendices

A Thermodynamic potentials

B Energy of a liquid film

C Interfacial areas of a spherical cap

D Bruggeman equation

编辑手记