Analytical Methods in Fine Particle Technology

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Chapters are organized into the following six topic areas:

    1. Particle size by sedimentation
    2. Surface area and pore structure by gas adsorption
    3. Pore structure by mercury intrusion porosimetry
    4. Density
    5. Chemical adsorption
    6. Zeta potential as well as contact angle

      Chapter: Chemical Adsorption

      Physical and chemical adsorption differentiated
      Theory
       Chemisorption and its energies
      Classical theories of chemical adsorption isotherms
      -- Langmuir theory
      -- Freundlich and Temkin isotherms
      Analysis and data reduction
       Static volumetric
      -- Isolating the chemisorption isotherm
      -- Chemisorption monolayer volume
      -- Number of accessible active sites
      -- Metal dispersion
      -- Active metal area
      -- Active particle size
      -- Isosteric heat of adsorption
      Dynamic technique: pulse chemisorption
      Temperature-programmed reactions
      Temperature-programmed reduction
      Temperature-programmed desorption
      Temperature-programmed oxidation
      Instrumentation
       Dynamic (flowing gas) instruments
      Instrumentation for the study of temperature-programmed reactions
      -- Relation of function to valves and flow paths
      -- Temperature controlled internal modules
      -- Temperature monitoring
      -- Thermal conductivity detector
      -- Response times and synchronization
      -- Subambient analysis
      -- Monitoring and controlling gas flow
      -- Mixed gases
      -- Vapor generation
      Static volumetric chemisorption analyzer
      -- Gas delivery system
      -- Materials of construction
      -- Sample holder assembly
      -- Sample temperature
      -- Sample degassing, pretreatment, and analysis
      Analytical techniques and data reduction methods
       Measurement of surface acidity by ammonia titration
      TPD applied to the distribution of acid site strength
      Determination of isosteric heat of adsorption
      Active Surface area and percent dispersion
      of metal oxides by the dynamic technique
      Sample preparation
      Analysis
      Data reduction
      -- Quantifying reaction gas volumes
      -- Specific volume chemisorbed
      -- Total volume of nitrogen produced
      -- Surface area of copper
      -- Metal dispersion
      Temperature-programmed techniques
      -- TPR of metals on AlO 2
       -- TPD of H 2 from reduced Pt on Al 2 O 3
       -- TPD of ammonia on ZSM-5 zeolite
      -- TPR of CuO
      -- TPR of Fe 2 O 3
       -- TPR method for characterizing the interaction
      between active metal and support
      -- TPR applied to the formation of alloys
      -- TPR applied to the study of promoters in bimetallic catalysts
      Symbols used in this chapter


                                                                                                                                                                                                                                                                                                                                                                                                                                 

      Last Updated on Friday, 22 October 2010 11:25