Balasubramanian V. Vaithilingam scite author profile

The separation of H2S from natural gas, biogas, and coal gas is an essential process that requires large energy input and high capital costs. We propose a new sorption-based process, which can be coupled with the Claus desulfurization process to reduce sulfur emissions. This new process is based on a new sorbent material consisting of a specific composition of Cu, Mg, and Al oxides and exhibiting superior sulfur capacity (∼7.5 mmol/g) at process conditions compatible for integration with the Claus process. CuO is the active sorbent component, which during H2S uptake is converted to CuS and can be fully regenerated during cyclic operation. Al2O3 and small amounts of MgO are shown to be essential components that contribute to sorbent activity and stability.

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Balasubramanian V. Vaithilingam

Synthesis of hierarchical porous Zeolite-Y for enhanced CO2 capture

Influence of salt on nanozeolite-Y particles size synthesized under organic template-free condition

Mesoporous silica “plated” copper hydroxides/oxides heterostructures as superior regenerable sorbents for low temperature H2S removal

On the selective oxidation of H2S by heavy loaded Nanoparticles Embedded in Mesoporous Matrix (NEMMs)

High-Capacity Regenerable H₂S Sorbent for Reducing Sulfur Emissions

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Balasubramanian V. Vaithilingam

Synthesis of hierarchical porous Zeolite-Y for enhanced CO2 capture

Influence of salt on nanozeolite-Y particles size synthesized under organic template-free condition

Mesoporous silica “plated” copper hydroxides/oxides heterostructures as superior regenerable sorbents for low temperature H2S removal

On the selective oxidation of H2S by heavy loaded Nanoparticles Embedded in Mesoporous Matrix (NEMMs)

High-Capacity Regenerable H2S Sorbent for Reducing Sulfur Emissions

Contact Info

Product

Resources

About

High-Capacity Regenerable H₂S Sorbent for Reducing Sulfur Emissions