High removal efficiency of ammonium from aqueous solution by colloidal silver nanoparticles: batch adsorption

被引:1
|
作者
Vu, Thi Mai [1 ]
Nguyen, Thi Minh Phuong [2 ,3 ]
Van, Huu Tap [4 ]
Hoang, Van Hung [5 ]
Nga, Luong Thi Quynh [6 ]
Hoang, Le Phuong [7 ]
Ravindran, Balasubramani [8 ]
机构
[1] Hanoi Univ Nat Resources & Environm, Fac Environm, Hanoi, Bac Tu Liem, Vietnam
[2] Duy Tan Univ, Fac Environm & Nat Sci, Da Nang, Vietnam
[3] Duy Tan Univ, Inst Res & Dev, Da Nang, Vietnam
[4] TNU Univ Sci TNUS, Fac Nat Resources & Environm, Thai Nguyen, Vietnam
[5] Thai Nguyen Univ TNU, Ctr Adv Technol Dev, Thai Nguyen, Vietnam
[6] Thai Nguyen Univ Med & Pharm TNUMP, Fac Subspecialties, Dept Infect Dis, Thai Nguyen, Vietnam
[7] Thai Nguyen Univ Technol TNUT, Fac Civil & Environm Engn, Thai Nguyen, Vietnam
[8] Kyonggi Univ, Dept Environm Energy & Engn, Suwon, Gyeonggi Do, South Korea
来源
URBAN WATER JOURNAL | 2024年 / 21卷 / 03期
关键词
Ammonium; adsorption; silver nanoparticles; Langmuir model; pollution; PROTEIN ADSORPTION; IONS; NANOMATERIALS; AGGREGATION; ADSORBENTS; ISOTHERMS; KINETICS; BIOCHAR; ZEOLITE; CAPTURE;
D O I
10.1080/1573062X.2023.2290614
中图分类号
TV21 [水资源调查与水利规划];
学科分类号
081501 ;
摘要
This study aimed to use colloidal silver nanoparticles (AgNPs) for ammonium adsorption. Several factors were considered, including pH value, contact time, amount of adsorbent, and beginning ammonium content. The ideal parameters for ammonium adsorption onto the AgNPs were an a pH of 9, a contact period of 60 minutes, a concentration of 1.824 mg AgNPs/25 mL of ammonium solution, and a starting concentration of 80 mL, as determined. The optimum ammonium adsorption capacity onto the AgNPs was 276.84 mg/g, and the Langmuir model described the isotherm adsorption with R2, KL, and calculated qmax values of 0.9339, 0.518 L/mg, and 263.37 mg/g, respectively. The experimental data were most closely matched by the Elovich model, as seen by its R2, alpha, and beta values of 0.885, 0.055, and 0.180, respectively. Temperature release values for the exothermic adsorption were 23,084 kJ/mol at 20 degrees C, -23872 kJ/mol at 30 degrees C, and 24,660 kJ/mol at 40 degrees C.
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页码:323 / 336
页数:14
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