S. Bhatia scite author profile

The equilibrium sorption capacity of a macro-fungi, Pycnoporus sanguineus biomass was studied using a single-metal system comprising copper ions. The rate and extent for the removal of copper were subjected to environmental parameters such as pH, biomass loading, temperature, and contact time. Results showed that the uptake of copper increased as the pH increased. However, as the biomass loading increased, the amount of metal uptake decreased. Instead, temperature does not have a significant effect on the metal uptake, especially between 30 to 40 degrees C. A maximum adsorption of copper ions was also observed within 15 minutes of reaction time for the entire sample tested. Furthermore, pre-treatment with sodium bicarbonate and boiling water significantly improved the sorption capacity of copper by Pycnoporus sanguineus.

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Removal of organic sulphur from coal gas

Bhatia¹

1971

Can J Chem Eng

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Organic sulphur compounds present in coal gas containing 15‐20% CO were effectively converted into H2S over a “Nimox” (nickel‐molybdenum) conversion catalyst. H2S was effectively removed by “Luxmasse”, a prepared iron oxide. The overall removal of organic sulphur depended upon the concentration of thiophene present. With only 10 ppm thiophene in the gas, the conversion of organic sulphur was 97% at 350°C after a single treatment. With six‐stage treatment at 350 psig, the final gas contained only 0.2 ppm total organic sulphur in the presence of 4‐5% water vapor.

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S. Bhatia

Biosorption of copper (II) onto immobilized cells of Pycnoporus sanguineus from aqueous solution: Equilibrium and kinetic studies

Removal of sulfur dioxide by fly ash/CaO/CaSO4 sorbents

Optimizing the specific surface area of fly ash-based sorbents for flue gas desulfurization

Ability of Pycnoporus Sanguineus to Remove Copper Ions from Aqueous Solution

Removal of organic sulphur from coal gas

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