Biosorption of mercury from aqueous solution and oilfield produced water by pristine and sulfur functionalized rice residues

Abstract: This article presents the biosorption potential of rice residues for Hg(II) removal from aqueous solution and oilfield produced water. Rice husk and rice straw were selected and functionalized with sulfur group from carbon disulfide in alkaline condition. The raw and modified biosorbents were characterized by using scanning electron microscopy, fourier transform infrared spectroscopy, energy dispersive X‐ray, and X‐ray photoelectric spectroscopy. Batch biosorption experiments were carried out to evaluate the e… Show more

“…27,28 According to the HSAB principle mercury metal thus interaction with so group such as sulphur group is more favorable thus the selectivity of xanthate group for Hg(II) is high due to the presence of sulphur functional group. 29,30 The high affinity of mercury towards sulphur is crucial in developing methods for the functionalization of various materials with sulphur for Hg(II) abatement. The technique of biosorption is favourable for mercury removal from water over other conventional techniques such as ion exchange, solvent extraction, membrane separation, precipitation, etc.…”

Comparative study of Hg(ii) biosorption performance of xanthated and charred sugarcane bagasse from aqueous solutions

“…27,28 According to the HSAB principle mercury metal thus interaction with so group such as sulphur group is more favorable thus the selectivity of xanthate group for Hg(II) is high due to the presence of sulphur functional group. 29,30 The high affinity of mercury towards sulphur is crucial in developing methods for the functionalization of various materials with sulphur for Hg(II) abatement. The technique of biosorption is favourable for mercury removal from water over other conventional techniques such as ion exchange, solvent extraction, membrane separation, precipitation, etc.…”

Comparative study of Hg(ii) biosorption performance of xanthated and charred sugarcane bagasse from aqueous solutions

“…Many studies have been conducted using low-cost materials such as agrowastes [5][6][7][8], sewage sludge carbon [9], industrial wastes [10,11], peats and soils [12] for removing mercury ions from aqueous solutions and wastewaters. Several chemical modifications [8,[13][14][15][16][17] and thermochemical processes [18][19][20] have been performed to increase the adsorption performance of the pristine adsorbents.…”

Enhanced adsorption capacity and selectivity toward inorganic and organic mercury ions from aqueous solution by dye‐affinity adsorbents

Lignocellulosic Waste Materials for Industrial Water Purification