Dissolution of kaolinite induced by citric, oxalic, and malic acids

Kaolinite is a dominant clay mineral in the soils in tropical and subtropical regions, and its dissolution has an influence on a variety of soil properties. In this work, kaolinite dissolution induced by three kinds of low-molecular-weight organic acid, i.e., citric, oxalic, and malic acids, was eva...

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Published in:	Journal of colloid and interface science Vol. 290; no. 2; pp. 481 - 488
Main Authors:	Wang, Xingxiang, Li, Qingman, Hu, Huafeng, Zhang, Taolin, Zhou, Yiyong
Format:	Journal Article
Language:	English
Published:	San Diego, CA Elsevier Inc 15-10-2005 Elsevier
Subjects:	Chemistry Citric acid Dissolution kinetics Exact sciences and technology General and physical chemistry Kaolinite Malic acid Oxalic acid Malic acid Kaolinite Oxalic acid Citric acid Dissolution kinetics Liquid solid interface Dicarboxylic acid Kinetics Dissolution
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Abstract	Kaolinite is a dominant clay mineral in the soils in tropical and subtropical regions, and its dissolution has an influence on a variety of soil properties. In this work, kaolinite dissolution induced by three kinds of low-molecular-weight organic acid, i.e., citric, oxalic, and malic acids, was evaluated under far-from-equilibrium conditions. The rates of kaolinite dissolution depended on the kind and concentration of organic acids, with the sequence R oxalate > R citrate > R malate . Chemical calculation showed the change in concentration of organic ligand relative to change in concentration of organic acid in suspensions of kaolinite and organic acid. The effect of organic acid on kaolinite dissolution was modeled by species of organic anionic ligand. For oxalic acid, L 2− oxalic and HL − oxalic jointly enhanced the dissolution of kaolinite, but for malic and citric acids, HL − malic and H 2L − citric made a higher contribution to the total dissolution rate of kaolinite than L 2− malic and L 3− citric, respectively. For oxalic acid, the proposed model was R Si = 1.89 × 10 −12 × [ ( 25 x ) / ( 1 + 25 x ) ] + 1.93 × 10 −12 × [ ( 1990 x 1 ) / ( 1 + 1990 x 1 ) ] ( R 2 = 0.9763 ), where x and x 1 denote the concentrations of HL oxalic and L oxalic, respectively, and x 1 = 10 −3.81 × x / [ H + ] . For malic acid, the model was R Si = 4.79 × 10 −12 × [ ( 328 x ) / ( 1 + 328 x ) ] + 1.67 × 10 −13 × [ ( 1149 x 1 ) / ( 1 + 1149 x 1 ) ] ( R 2 = 0.9452 ), where x and x 1 denote the concentrations of HL malic and L malic, respectively, and x 1 = 10 −5.11 × x / [ H + ] , and for citric acid, the model was R Si = 4.73 × 10 −12 × [ ( 845 x ) / ( 1 + 845 x ) ] + 4.68 × 10 −12 × [ ( 2855 x 1 ) / ( 1 + 2855 x 1 ) ] ( R 2 = 0.9682 ), where x and x 1 denote the concentrations of H 2L citric and L citric, respectively, and x 1 = 10 −11.16 × x / [ H + ] 2 .
AbstractList	Kaolinite is a dominant clay mineral in the soils in tropical and subtropical regions, and its dissolution has an influence on a variety of soil properties. In this work, kaolinite dissolution induced by three kinds of low-molecular-weight organic acid, i.e., citric, oxalic, and malic acids, was evaluated under far-from-equilibrium conditions. The rates of kaolinite dissolution depended on the kind and concentration of organic acids, with the sequence R oxalate > R citrate > R malate . Chemical calculation showed the change in concentration of organic ligand relative to change in concentration of organic acid in suspensions of kaolinite and organic acid. The effect of organic acid on kaolinite dissolution was modeled by species of organic anionic ligand. For oxalic acid, L 2− oxalic and HL − oxalic jointly enhanced the dissolution of kaolinite, but for malic and citric acids, HL − malic and H 2L − citric made a higher contribution to the total dissolution rate of kaolinite than L 2− malic and L 3− citric, respectively. For oxalic acid, the proposed model was R Si = 1.89 × 10 −12 × [ ( 25 x ) / ( 1 + 25 x ) ] + 1.93 × 10 −12 × [ ( 1990 x 1 ) / ( 1 + 1990 x 1 ) ] ( R 2 = 0.9763 ), where x and x 1 denote the concentrations of HL oxalic and L oxalic, respectively, and x 1 = 10 −3.81 × x / [ H + ] . For malic acid, the model was R Si = 4.79 × 10 −12 × [ ( 328 x ) / ( 1 + 328 x ) ] + 1.67 × 10 −13 × [ ( 1149 x 1 ) / ( 1 + 1149 x 1 ) ] ( R 2 = 0.9452 ), where x and x 1 denote the concentrations of HL malic and L malic, respectively, and x 1 = 10 −5.11 × x / [ H + ] , and for citric acid, the model was R Si = 4.73 × 10 −12 × [ ( 845 x ) / ( 1 + 845 x ) ] + 4.68 × 10 −12 × [ ( 2855 x 1 ) / ( 1 + 2855 x 1 ) ] ( R 2 = 0.9682 ), where x and x 1 denote the concentrations of H 2L citric and L citric, respectively, and x 1 = 10 −11.16 × x / [ H + ] 2 . Kaolinite is a dominant clay mineral in the soils in tropical and subtropical regions, and its dissolution has an influence on a variety of soil properties. In this work, kaolinite dissolution induced by three kinds of low-molecular-weight organic acid, i.e., citric, oxalic, and malic acids, was evaluated under far-from-equilibrium conditions. The rates of kaolinite dissolution depended on the kind and concentration of organic acids, with the sequence R(oxalate)>R(citrate)>R(malate). Chemical calculation showed the change in concentration of organic ligand relative to change in concentration of organic acid in suspensions of kaolinite and organic acid. The effect of organic acid on kaolinite dissolution was modeled by species of organic anionic ligand. For oxalic acid, L(2-)(oxalic) and HL(-)(oxalic) jointly enhanced the dissolution of kaolinite, but for malic and citric acids, HL(-)(malic) and H2L-(citric) made a higher contribution to the total dissolution rate of kaolinite than L(2-)(malic) and L(3-)(citric), respectively. For oxalic acid, the proposed model was R(Si)=1.89x10(-12)x[(25x)/(1+25x)]+1.93x10(-12)x[(1990x1)/(1+1990x1)] (R2=0.9763), where x and x1 denote the concentrations of HL(oxalic) and L(oxalic), respectively, and x1=10(-3.81)xx/[H+]. For malic acid, the model was R(Si)=4.79x10(-12)x[(328x)/(1+328x)]+1.67x10(-13)x[(1149x1)/(1+1149x1)] (R2=0.9452), where x and x1 denote the concentrations of HL(malic) and L(malic), respectively, and x1=10(-5.11)xx/[H+], and for citric acid, the model was R(Si)=4.73x10(-12)x[(845x)/(1+845x)]+4.68x10(-12)x[(2855x1)/(1+2855x1)] (R2=0.9682), where x and x1 denote the concentrations of H2L(citric) and L(citric), respectively, and [Formula: see text] . Kaolinite is a dominant clay mineral in the soils in tropical and subtropical regions, and its dissolution has an influence on a variety of soil properties. In this work, kaolinite dissolution induced by three kinds of low-molecular-weight organic acid, i.e., citric, oxalic, and malic acids, was evaluated under far-from-equilibrium conditions. The rates of kaolinite dissolution depended on the kind and concentration of organic acids, with the sequence R(oxalate)>R(citrate)>R(malate). Chemical calculation showed the change in concentration of organic ligand relative to change in concentration of organic acid in suspensions of kaolinite and organic acid. The effect of organic acid on kaolinite dissolution was modeled by species of organic anionic ligand. For oxalic acid, L(2-)(oxalic) and HL(-)(oxalic) jointly enhanced the dissolution of kaolinite, but for malic and citric acids, HL(-)(malic) and H2L-(citric) made a higher contribution to the total dissolution rate of kaolinite than L(2-)(malic) and L(3-)(citric), respectively. For oxalic acid, the proposed model was R(Si)=1.89x10(-12)x[(25x)/(1+25x)]+1.93x10(-12)x[(1990x1)/(1+1990x1)] (R2=0.9763), where x and x1 denote the concentrations of HL(oxalic) and L(oxalic), respectively, and x1=10(-3.81)xx/[H+]. For malic acid, the model was R(Si)=4.79x10(-12)x[(328x)/(1+328x)]+1.67x10(-13)x[(1149x1)/(1+1149x1)] (R2=0.9452), where x and x1 denote the concentrations of HL(malic) and L(malic), respectively, and x1=10(-5.11)xx/[H+], and for citric acid, the model was R(Si)=4.73x10(-12)x[(845x)/(1+845x)]+4.68x10(-12)x[(2855x1)/(1+2855x1)] (R2=0.9682), where x and x1 denote the concentrations of H2L(citric) and L(citric), respectively, and [Formula: see text] .
Author	Zhang, Taolin Hu, Huafeng Zhou, Yiyong Li, Qingman Wang, Xingxiang
Author_xml	– sequence: 1 givenname: Xingxiang surname: Wang fullname: Wang, Xingxiang email: xxwang@issas.ac.cn organization: Institute of Soil Science, Chinese Academy of Sciences, P.O. X 821, 71 East Beijing Road, Nanjing 210008, People's Republic of China – sequence: 2 givenname: Qingman surname: Li fullname: Li, Qingman organization: Institute of Hydrobiology, Chinese Academy of Sciences, Wuhan 430072, People's Republic of China – sequence: 3 givenname: Huafeng surname: Hu fullname: Hu, Huafeng organization: Zhengzhou College of Animal Husbandry Engineering, Zhenzhou 450011, People's Republic of China – sequence: 4 givenname: Taolin surname: Zhang fullname: Zhang, Taolin organization: Institute of Soil Science, Chinese Academy of Sciences, P.O. X 821, 71 East Beijing Road, Nanjing 210008, People's Republic of China – sequence: 5 givenname: Yiyong surname: Zhou fullname: Zhou, Yiyong organization: Institute of Hydrobiology, Chinese Academy of Sciences, Wuhan 430072, People's Republic of China
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Keywords	Malic acid Kaolinite Oxalic acid Citric acid Dissolution kinetics Liquid solid interface Dicarboxylic acid Kinetics Dissolution
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Snippet	Kaolinite is a dominant clay mineral in the soils in tropical and subtropical regions, and its dissolution has an influence on a variety of soil properties. In...
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SubjectTerms	Chemistry Citric acid Dissolution kinetics Exact sciences and technology General and physical chemistry Kaolinite Malic acid Oxalic acid
Title	Dissolution of kaolinite induced by citric, oxalic, and malic acids
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