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200 10$aChina and India$b[electronic resource] $eprospects for peace /$fJonathan Holslag
210   $aNew York $cColumbia University Press$dc2010
215   $a1 online resource (221 p.)
225 1 $aContemporary Asia in the world
300   $aDescription based upon print version of record.
311   $a0-231-15042-3 
320   $aIncludes bibliographical references and index.
327   $aSino-Indian rivalry in an era of globalization -- Emerging trading states -- The evolution of Sino-Indian relations -- Ricardo's reality -- Shifting perceptions -- The military security dilemma -- Regional security cooperation.
330   $aFor all their spectacular growth, China and India must still lift a hundred million citizens out of poverty and create jobs for the numerous laborers. Both powers hope trade and investment will sustain national unity. For the first time, Jonathan Holslag identifies these objectives as new sources of rivalry and argues that China and India cannot grow without fierce contest.Though he recognizes that both countries wish to maintain stable relations, Holslag argues that success in implementing economic reform will give way to conflict. This rivalry is already tangible in Asia as a whole, where shifting patterns of economic influence have altered the balance of power and have led to shortsighted policies that undermine regional stability. Holslag also demonstrates that despite two decades of peace, mutual perceptions have become hostile, and a military game of tit-for-tat promises to diminish prospects for peace. Holslag therefore refutes the notion that development and interdependence lead to peace, and he does so by embedding rich empirical evidence within broader debates on international relations theory. His book is down-to-earth and realistic while also taking into account the complexities of internal policymaking. The result is a fascinating portrait of the complicated interaction among economic, political, military, and perceptional levels of diplomacy.
410  0$aContemporary Asia in the world.
606   $aPOLITICAL SCIENCE / International Relations / General$2bisacsh
607   $aChina$xRelations$zIndia
607   $aIndia$xRelations$zChina
608   $aElectronic books.
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200 10$aCeramic membranes for separation and reaction$b[electronic resource] /$fKang Li
210   $aChichester, England ;$aHoboken, NJ $cJohn Wiley$dc2007
215   $a1 online resource (318 p.)
300   $aDescription based upon print version of record.
311   $a0-470-01440-7 
320   $aIncludes bibliographical references and index.
327   $aCeramic Membranes for Separation and Reaction; Contents; Preface; 1: Ceramic Membranes and Membrane Processes; 1.1 INTRODUCTION; 1.2 MEMBRANE PROCESSES; 1.2.1 Gas Separation; 1.2.2 Pervaporation; 1.2.3 Reverse Osmosis and Nanofiltration; 1.2.4 Ultrafiltration and Microfiltration; 1.2.5 Dialysis; 1.2.6 Electrodialysis; 1.2.7 Membrane Contactors; 1.2.8 Membrane Reactors; REFERENCES; 2: Preparation of Ceramic Membranes; 2.1 INTRODUCTION; 2.2 SLIP CASTING; 2.3 TAPE CASTING; 2.4 PRESSING; 2.5 EXTRUSION; 2.6 SOL-GEL PROCESS; 2.7 DIP COATING; 2.8 CHEMICAL VAPOUR DEPOSITION (CVD)
327   $a2.9 PREPARATION OF HOLLOW FIBRE CERAMIC MEMBRANES2.9.1 Preparation of Spinning Suspensions; 2.9.2 Spinning of Ceramic Hollow Fibre Precursors; 2.9.3 Sintering; 2.9.4 Example 1: Preparation of Porous Al2O3 Hollow Fibre Membranes; 2.9.5 Example 2: Preparation of TiO2/Al2O3 Composite Hollow Fibre Membranes; 2.9.6 Example 3: Preparation of Dense Perovskite Hollow Fibre Membranes; APPENDIX 2.1: SURFACE FORCES; A2.1.1 Electrostatic Forces; A2.1.2 DLVO Theory and van der Waals Forces; A2.1.3 Steric Hindrance; REFERENCES; 3: Characterization of Ceramic Membranes; 3.1 INTRODUCTION
327   $a3.2 MORPHOLOGY OF MEMBRANE SURFACES AND CROSS SECTIONS3.3 POROUS CERAMIC MEMBRANES; 3.3.1 Gas Adsorption/desorption Isotherms; 3.3.2 Permporometry; 3.3.3 Mercury Porosimetry; 3.3.4 Thermoporometry; 3.3.5 Liquid Displacement Techniques; 3.3.6 Permeation Method; 3.3.7 Measurements of Solute Rejection; 3.4 DENSE CERAMIC MEMBRANES; 3.4.1 Leakage Test; 3.4.2 Permeation Measurements; 3.4.3 XRD; 3.4.4 Mechanical Strength; NOTATION; Greek Letters; Subscripts; REFERENCES; 4: Transport and Separation of Gases in Porous Ceramic Membranes; 4.1 INTRODUCTION
327   $a4.2 PERFORMANCE INDICATORS OF GAS SEPARATION MEMBRANES4.3 CERAMIC MEMBRANES FOR GAS SEPARATION; 4.3.1 Zeolite Membranes; 4.3.2 Silica Membranes; 4.3.3 Carbon Membranes; 4.4 TRANSPORT MECHANISMS; 4.4.1 Knudsen and Slip Flow; 4.4.2 Viscous Flow; 4.4.3 Surface Flow; 4.4.4 Capillary Condensation [37, 48, 49]; 4.4.5 Configurational or Micropore Diffusion; 4.4.6 Simultaneous Occurrence of Different Mechanisms [53]; 4.5 MODIFICATION OF POROUS CERAMIC MEMBRANES FOR GAS SEPARATION; 4.6 RESISTANCE MODEL FOR GAS TRANSPORT IN COMPOSITE MEMBRANES; 4.6.1 Effect of Support Layers
327   $a4.6.2 Effect of Nonzeolitic Pores4.6.3 Effect of Coating; 4.7 SYSTEM DESIGN; 4.7.1 Operating Schemes; 4.7.2 Design Equations for Membrane Processes in Gas Separation; NOTATION; Greek Letters; Superscripts; Subscripts; REFERENCES; 5: Ceramic Hollow Fibre Membrane Contactors for Treatment of Gases/Vapours; 5.1 INTRODUCTION; 5.2 GENERAL REVIEW; 5.3 OPERATING MODES AND MASS TRANSFER COEFFICIENTS; 5.3.1 Nonwetted Mode; 5.3.2 Wetted Mode; 5.3.3 Mass Transfer Coefficients Determined from Experiments; 5.4 MASS TRANSFER IN HOLLOW FIBRE CONTACTORS; 5.4.1 Mass Transfer in Hollow Fibre Lumens
327   $a5.4.2 Mass Transfer Across Membranes
330   $aCeramic Membranes for Reaction and Separation is the first single-authored guide to the developing area of ceramic membranes. Starting by documenting established procedures of ceramic membrane preparation and characterization, this title then focuses on gas separation. The final chapter covers ceramic membrane reactors;- as distributors and separators, and general engineering considerations.Chapters include key examples to illustrate membrane synthesis, characterisation and applications in industry.Theoretical principles, advantages and disadvantages of using ceramic membr
606   $aGas separation membranes
606   $aCeramic materials
606   $aGases$xSeparation
606   $aMembranes (Technology)
615  0$aGas separation membranes.
615  0$aCeramic materials.
615  0$aGases$xSeparation.
615  0$aMembranes (Technology)
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