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ADSORPTION ION EXCHANGE RESINS

ADSORPTION ION EXCHANGE RESINS. BIOCHEMISTRY DR AMINA TARIQ. ADSORPTION. Adsorption, the binding of molecules or particles to a surface. Absorption , the filling of pores in a solid.

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ADSORPTION ION EXCHANGE RESINS

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  1. ADSORPTIONION EXCHANGE RESINS BIOCHEMISTRY DR AMINA TARIQ

  2. ADSORPTION • Adsorption, the binding of molecules or particles to a surface. • Absorption, the filling of pores in a solid.

  3. The most common industrial adsorbents are activated carbon, silica gel, and alumina, because they present enormous surface areas per unit weight.

  4. Activated carbon is produced by roasting organic material to decompose it to granules of carbon • coconut shell, wood, and bone are common sources.

  5. Process of adsorption involves separation of a substance from one phase accompanied by its accumulation or concentration at the surface of another.

  6. The adsorbing phase is the adsorbent, and the material concentrated or adsorbed at the surface of that phase is the adsorbate.

  7. Adsorption is thus different from absorption, a process in which material transferred from one phase to another (e.g. liquid) interpenetrates the second phase to form a "solution".

  8. OR • Adsorption is a term which is completely different from Absorption .While absorption means uniform distribution of the substance throughout the bulk, adsorption essentially happens at the surface of the substance.

  9. When both Adsorption and Absorption processes take place simultaneously, the process is called sorption.

  10. Physical adsorption is caused mainly by van der Waals forces and electrostatic forces between adsorbate molecules and the atoms which compose the adsorbent surface.

  11. Adsorbents are characterized by surface properties such as surface area and polarity:

  12. 1. Surface area: A large specific surface area is preferable for providing large adsorption capacity, but the creation of a large internal surface area in a limited volume inevitably gives rise to large numbers of small sized pores between adsorption surfaces.

  13. The size of the micropores determines the accessibility of adsorbate molecules to the internal adsorption surface, so the pore size distribution of micropores is another important property for characterizing adsorptivity of adsorbents.

  14. 2. Surface polarity Surface polarity corresponds to affinity with polar substances such as water or alcohols. Polar adsorbents are thus called “hydrophillic”.aluminosilicatessuch as zeolites, porous alumina, silica gel or silica-alumina are examples of adsorbents of this type.

  15. On the other hand, nopolar adsorbents are generally "hydrophobic". Carbonaceous adsorbents, polymer adsorbents and silicalite are typical nonpolar adsorbents. These adsorbents have more affinity with oil or hydrocarbons than water.

  16. Depending on the nature of attractive forces existing between the adsorbate and adsorbent, adsorption can be classified as: i) Physical adsorption ii) Chemical adsorption

  17. Physical adsorption In physical adsorption, the forces of attraction between the molecules of the adsorbate and the adsorbent are of the weak van der Waals' type. Since the forces of attraction are weak, the process of physisorption can be easily reversed by heating or decreasing the pressure of the adsorbate (as in the case of gases).

  18. Chemical adsorption (Chemisorption) In chemisorption, the forces of attraction between the adsorbate and the adsorbent are very strong; the molecules of adsorbate form chemical bonds with the molecules of the adsorbent present in the surface.

  19. Factors Influencing Adsorption 1. Surface Area The extent of adsorption is proportional to specific area. Specific area can be defined as that portion of the total area that is available for adsorption.

  20. 2. Nature of the Adsorbate Adsorption of a solute is inversely proportional to its solubility in the solvent. The greater the solubility, the stronger the solute-solvent bond and the small the extent of adsorption.

  21. In general, the solubility of any organic compound in water decreases with increasing chain length, because the compound becomes more hydrocarbon-like as the number of carbon atoms becomes greater .

  22. Adsorption of aliphatic series of organic acids increases in the order formic-acetic-propionic-butyric, whereas the order is reversed for adsorption from toluene.

  23. Molecular sizes. If the rate is controlled by intraparticle transport, the reaction generally will proceed more rapidly the smaller the adsorbate molecule, within a given class of compound.

  24. 4. Charge (Ionic species): As long as the compounds are structurally simple, adsorption is at minimum for the charged species and at a maximum for the neutral species.

  25. Decreasing adsorption with increasing ionization has been observed for many organic acids. Adsorption of propionic acid on carbon decreases markedly with increasing pH to a minimum in the range pH 3.5 to 5.5 (succinic acid to a min. in the range pH 4.0 and 7.0, caproic acid between pH 4.8 and 7,5).

  26. Studies on amphoteric compound indicate an adsorption maximum at the isoelectric point, or that pH at which both the acidic end and the basic end of the compound are ionized and the compound bears a net charge of zero.

  27. 5. pH • Because hydrogen and hydroxide ions are adsorbed quite strongly, the adsorption of other ions is influence by the pH of the solution. • In general, adsorption of typical organic pollutant from water is increased with decreasing pH.

  28. 6. Temperature Adsorption reaction are normally exothermic, thus the extent of adsorption generally increases with decreasing temperature.

  29. 7. Adsorption of Mixed Solutes The degree of mutual inhibition of competing adsorbates should be related to the relative sizes of the molecules being adsorbed, to the relative adsorptive affinities, and to the relative concentrations of solutes.

  30. 8. Nature of the Adsorbent The physicochemical nature of the adsorbent can have profound effects on both rate and capacity for adsorption. Commercial carbons can be prepared from a variety of raw materials, including wood, lignite, coal, petroleum residues, and nut shells.

  31. APPLICATIONS Adsorption phenomena are operative in most natural physical, biological, and chemical systems: • Adsorption operations employing solids such as activated carbon and synthetic resins are used widely in industrial applications and for purification of waters and wastewaters.

  32. Charcoal is used as a decoloriser as it adsorbs the coloring matter from the coloured solution of sugar. • Silica gel adsorbs moisture from the desiccators.

  33. Silica and alumina gels are used as adsorbents for removing moisture and for controlling humidity of rooms. • Activated charcoal is used in gas masks as it adsorbs all the toxic gases and vapours and purifies the air for breathing.

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