Preparation & Characterization of heterogeneous catalyst
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Introduction • Industrial catalysts are generally shaped
bodies of various forms, e. g., rings, spheres, tablets, pellets.
• The production of heterogeneous catalysts consists of numerous physical and chemical steps.
• The conditions in each step have a decisive influence on the catalyst properties.
• the main physical properties of a catalyst that are influenced by the production Conditions are: Active surface area; pore structure; mechanical strength.
I. Preparation of heterogeneous catalyst
A. Active phase - metal that provides active sites where thechemical reaction takes place
B. Support or Carrier - high surface area oxide whichdisperses and stabilizes the active phase
(adds efficiency, physical strength, sometimes selectivity)
C. Promoter(s) - additive which improves catalyst properties, e.g. activity, selectivity, catalyst life
Components of a Typical Heterogeneous Catalyst
Bulk catalysts
• Bulk catalysts also known as precipitated catalysts are mainly produced when the active components are cheap.
• The preferred method of production is precipitation.• One or more components in the form of aqueous
solutions are mixed and then co precipitated as hydroxides or carbonates. An amorphous or crystalline precipitate or a gel is obtained, which is washed thoroughly until salt free. This is then followed by further steps: drying, shaping, calcination, and activation
Preparation of bulk catalyst
Impregnated catalyst ( support catalyst)• One of the best known methods for producing catalysts is the
impregnation of porous support materials with solutions of active components.
• Impregnation as a means of supported catalyst preparation is achieved by filling the pores of a support with a solution of the metal salt.
• Especially catalysts with expensive active components such as noble metals are employed as supported catalysts.
• A widely used support is Al2O3, Activated carbon and silica gel.• Industrial examples: Ethylene oxide catalysts in which a solution of a silver salt is
applied to Al2O3 Catalysts in the primary reformer of ammonia synthesis, with
10–20 % Ni on Al2O3
impregnation• The support is immersed in a
solution of the active component under precisely defined conditions (concentration, mixing, temperature, time). Depending on the production conditions, selective adsorption of the active component occurs on the surface or in the interior of the support. The result is non uniform distribution.
Supported metal catalyst
The advantages of impregnated catalysts compared with precipitated catalysts
• Pore structure and surface of the catalyst can be controlled.
• More economic, since the content of expensive active components is often low.
• The distribution and crystallite size of the active components can generally be varied over a wide range.
• Multiple impregnation is possible.
II. Characterization of Heterogeneous Catalysts
• Physical properties: pore size, surface area, and morphology of the carrier; and the geometry and strength of the support
• Chemical properties: composition, structure, and nature of the carrier and the active catalytic components
• Changes during the catalysis process: deactivation
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Physical Properties of CatalystsSurface Area and Pore Size of the Carrier
• Surface area
• Pore size: (Pore size distribution ,Pore structure, Pore volume)
• It is usually advantageous to have high surface area (large number of small pores) to maximize the dispersion of catalytic components.
• If the pore size is too small, diffusion resistance will becomes a problem.
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Scanning electron Microscope (SEM)
• Scanning electron microscope (SEM) is equipped with an energy dispersive analyzer or wavelength dispersive analyzer.The bombardment of a sample with electrons generates X rays characteristic of the elements present.
peanut shells
X-Ray Diffraction (XRD)
...,2,1;sin2 ndn Bragg ´s Law
catalyst
X-rays in X-rays out
Can be used in situ
Gives information about Elemental Composition, Catalyst Structure and Particle Size, Width of peaks reveals particle size
111
200
XRDPd/ SiO2
2.4 wt% Pd
1.1 wt% Pd
35 40 45 50 55
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FTIR(Fourier Transform Infra Red)• FT-IR stands for Fourier
Transform Infra Red, the preferred method of infrared Spectroscopy.
• So, what information can FT-IR provide?• It can identify unknown
materials• It can determine the quality
or consistency of a sample• It can determine the
amount of components in a mixture
Infrared spectroscopy
catalyst
IR in IR out
IR through
An in situ method2300 2200 2100 2000 1900
wave number (cm-1)
abso
rban
ce
CO gas
2143 cm-1
CO/ I r/SiO2
SiO2
FTIR of CO
2300 2200 2100 2000 1900wave number (cm-1)
abso
rban
ce
CO gas
2143 cm-1
CO/ I r/SiO2
SiO2
FTIR of CO