In the present study,the hydrolysates generated via autohydrolysis of spruce wood chips were di-rectly used as feedstock for producing coagulants.The in-situ polymerization of acrylamide(AM)and lignocellulose(LC)of hy...In the present study,the hydrolysates generated via autohydrolysis of spruce wood chips were di-rectly used as feedstock for producing coagulants.The in-situ polymerization of acrylamide(AM)and lignocellulose(LC)of hydrolysates was successfully conducted.The reaction was optimized to generate lignocellulose-acrylamide(LC-AM)with the highest molecular weight(41,060 g/mol)and charge density(-0.25 meq/g)under the optimum conditions,which were 3 h,60◦C,4%(w)initiator based on the dried mass of hydrolysate,and an AM/LC molar ratio of 5.63.A nuclear magnetic resonance(NMR)spectroscopy confirmed the grafting of acrylamide on LC.Other prop-erties of LC-AM were characterized by the elemental analyzer,zeta potential analyzer,gel per-meation chromatography(GPC),and particle charge detector(PCD).The LC-AM was applied as a coagulant for removing ethyl violet dye from a simulated dye solution.The results indicated that 47.2%dye was removed from the solution at a low dosage of 0.2 g/g.The dual flocculation of LC-AM with other polymers for dye removal is suggested to further improve its effectiveness.展开更多
Surface active agents(surfactants)are chemicals that can accumulate at the surface of a liquid,or interface between two phases with the role of changing the surface tension of the interface.Depending on their structur...Surface active agents(surfactants)are chemicals that can accumulate at the surface of a liquid,or interface between two phases with the role of changing the surface tension of the interface.Depending on their structures,they have many applications in industries,such as the petroleum,mining,pulping and textiles,wherein they are utilized as detergents,wetting agents,emulsifiers,foaming agents and dispersants.Most of commonly used surfactants are oil-based chemicals.However,using environmentally friendly feedstocks to produce surfactant is desirable to lessen the environmental impact of surfactant production and use in industry.Lignin is an attractive candidate for this purpose as it is inexpensive and readily available.Lignin and lignin derivatives,such as lignosulfonates,can be chemically modified to produce surfactants with different chemical and physical properties,which makes them suitable for a wide variety of applications.The lignin types and the processes performed for lignin production affect the properties of generated lignin significantly,which in turn influence the reactivity and the efficiency of the reaction for surfactant generation.In this review,the characteristics and applications of oil-based surfactants,and the efforts to produce lignin-based surfactants are reviewed.As oil-based surfactants with altered properties are available in the market,several different pathways can be followed for producing lignin-based surfactants.The advantages and disadvantages of using lignin-based surfactants are also discussed.展开更多
To valorize kraft lignin,hydroxymethylation and sulfonation were applied on this under-utilized,but vastly available,material.The hydroxymethylation pretreatment was conducted as means to improve the reactivity of lig...To valorize kraft lignin,hydroxymethylation and sulfonation were applied on this under-utilized,but vastly available,material.The hydroxymethylation pretreatment was conducted as means to improve the reactivity of lignin.The sulfonation of hydroxymethylated kraft lignin was investigated by sulfuric acid and sodium sulfite treatments under various conditions.The modified lignin samples were characterized for their charge density,solubility,elemental components,and molecular weights.The results showed that the hydroxymethylation facilitated the sulfonation by sodium sulfite,yielding a product(SSH-lignin)with the charge density of-1.2 meq/g and water solubility of 10 g/L under the conditions of Ns_(2)SO_(3)/lignin molar ratio of 0.49 mol/mol,95℃and 3 h.On the other hand,hydroxymethylation hindered the sulfonation of lignin by sulfuric acid,yielding a product(SAH-lignin)with the charge density of–0.46 meq/g and solubility of 0.9 g/L under the conditions of H_(2)SO_(4)/lignin molar ratio of 14.8 mol/mol,80℃and 1 h.The SSH-lignin had a high adsorption on kaolinite(17 mg/g)at a lignin concentration of 40 g/L.The sulfonated lignins were also found to be effective coagulant for the cationic dye ethyl violet.展开更多
Fly ash is considered as an under-utilized product of pulp and paper industry and is mainly land-filled.However,it can be repurposed as an adsorbent for organics of wastewater effluents.Despite efficient adsorption ca...Fly ash is considered as an under-utilized product of pulp and paper industry and is mainly land-filled.However,it can be repurposed as an adsorbent for organics of wastewater effluents.Despite efficient adsorption capability,its metal components may dissolve in wastewater and harm the environment.This investigation focused on the leaching behavior of metals from biomass-based fly ash in water at pH 6 and 12.5.A similar investigation was performed in the spent liquor of a pulping process to evaluate the extraction of metals from fly ash in such an environment that fly ash could be used as an adsorbent.The results revealed that the predominant metals leached from fly ash in water and the spent liquor were Ca,K,Mg,Mn,Na,and Si.The trace metals including Al,Ba,Sr,and Zn were also detected to a significant extent.Interestingly,the extraction of metals from fly ash in spent liquor was more limited than in water,which is beneficial for the application of fly ash in spent liquors.展开更多
文摘In the present study,the hydrolysates generated via autohydrolysis of spruce wood chips were di-rectly used as feedstock for producing coagulants.The in-situ polymerization of acrylamide(AM)and lignocellulose(LC)of hydrolysates was successfully conducted.The reaction was optimized to generate lignocellulose-acrylamide(LC-AM)with the highest molecular weight(41,060 g/mol)and charge density(-0.25 meq/g)under the optimum conditions,which were 3 h,60◦C,4%(w)initiator based on the dried mass of hydrolysate,and an AM/LC molar ratio of 5.63.A nuclear magnetic resonance(NMR)spectroscopy confirmed the grafting of acrylamide on LC.Other prop-erties of LC-AM were characterized by the elemental analyzer,zeta potential analyzer,gel per-meation chromatography(GPC),and particle charge detector(PCD).The LC-AM was applied as a coagulant for removing ethyl violet dye from a simulated dye solution.The results indicated that 47.2%dye was removed from the solution at a low dosage of 0.2 g/g.The dual flocculation of LC-AM with other polymers for dye removal is suggested to further improve its effectiveness.
文摘Surface active agents(surfactants)are chemicals that can accumulate at the surface of a liquid,or interface between two phases with the role of changing the surface tension of the interface.Depending on their structures,they have many applications in industries,such as the petroleum,mining,pulping and textiles,wherein they are utilized as detergents,wetting agents,emulsifiers,foaming agents and dispersants.Most of commonly used surfactants are oil-based chemicals.However,using environmentally friendly feedstocks to produce surfactant is desirable to lessen the environmental impact of surfactant production and use in industry.Lignin is an attractive candidate for this purpose as it is inexpensive and readily available.Lignin and lignin derivatives,such as lignosulfonates,can be chemically modified to produce surfactants with different chemical and physical properties,which makes them suitable for a wide variety of applications.The lignin types and the processes performed for lignin production affect the properties of generated lignin significantly,which in turn influence the reactivity and the efficiency of the reaction for surfactant generation.In this review,the characteristics and applications of oil-based surfactants,and the efforts to produce lignin-based surfactants are reviewed.As oil-based surfactants with altered properties are available in the market,several different pathways can be followed for producing lignin-based surfactants.The advantages and disadvantages of using lignin-based surfactants are also discussed.
文摘To valorize kraft lignin,hydroxymethylation and sulfonation were applied on this under-utilized,but vastly available,material.The hydroxymethylation pretreatment was conducted as means to improve the reactivity of lignin.The sulfonation of hydroxymethylated kraft lignin was investigated by sulfuric acid and sodium sulfite treatments under various conditions.The modified lignin samples were characterized for their charge density,solubility,elemental components,and molecular weights.The results showed that the hydroxymethylation facilitated the sulfonation by sodium sulfite,yielding a product(SSH-lignin)with the charge density of-1.2 meq/g and water solubility of 10 g/L under the conditions of Ns_(2)SO_(3)/lignin molar ratio of 0.49 mol/mol,95℃and 3 h.On the other hand,hydroxymethylation hindered the sulfonation of lignin by sulfuric acid,yielding a product(SAH-lignin)with the charge density of–0.46 meq/g and solubility of 0.9 g/L under the conditions of H_(2)SO_(4)/lignin molar ratio of 14.8 mol/mol,80℃and 1 h.The SSH-lignin had a high adsorption on kaolinite(17 mg/g)at a lignin concentration of 40 g/L.The sulfonated lignins were also found to be effective coagulant for the cationic dye ethyl violet.
文摘Fly ash is considered as an under-utilized product of pulp and paper industry and is mainly land-filled.However,it can be repurposed as an adsorbent for organics of wastewater effluents.Despite efficient adsorption capability,its metal components may dissolve in wastewater and harm the environment.This investigation focused on the leaching behavior of metals from biomass-based fly ash in water at pH 6 and 12.5.A similar investigation was performed in the spent liquor of a pulping process to evaluate the extraction of metals from fly ash in such an environment that fly ash could be used as an adsorbent.The results revealed that the predominant metals leached from fly ash in water and the spent liquor were Ca,K,Mg,Mn,Na,and Si.The trace metals including Al,Ba,Sr,and Zn were also detected to a significant extent.Interestingly,the extraction of metals from fly ash in spent liquor was more limited than in water,which is beneficial for the application of fly ash in spent liquors.
