The aim of this study is to evaluate the influence factors for the ammonium adsorption capacity on water hyacinth biochar such as solution pH, adsorbent dosage, reaction time and initial NH₄⁺ concentration. Water hyacinth biochar was produced by pyrolysis method (700 ^oC) by a kiln - VMF 165 with the nitrogen gas was pumped into the furnace at a rate of 3 L/min to remove air from the inside of the furnace. The oven temperature was then increased from room temperature to 700 °C at a heating rate of 10 °C/min. The treatments were randomly assigned and 3 replicates for each treatments. Research results were showed that pH_pzc of water hyacinth biochar was 10.1. Optimal adsorption pH value was 7; the optimal adsorbent dosage was 1g/50mL; the optimal reaction time was 120 minutes and the initial concentration of NH₄⁺ was 80 mg L^-1.

[1]. Abdehagh N, Tezel FH and Thibault J “Adsorbent screening for biobutanol separation by adsorption: Kinetics, isotherms and competitive effect of other compounds,” Adsorption, vol. 19, pp. 1263–1272, 2013.

[2]. Ma J, Si C, Li Y, et al. “CO₂ adsorption on zeolite X/activated carbon composites,” Adsorption, vol. 18, pp. 503–510, 2012.

[3]. Zhu W, Kapteijn F, Groen JC, et al. “Adsorption on Kureha activated carbon: Isotherms and kinetics,” Adsorption, vol. 11, pp. 637–641, 2005.

[4]. R. B. Fidel, D. A. Laird, and K. A. Spokas, “Sorption of amoni and nitrate to biochar is electrostatic and pH-dependent,” 2018. [Online]. Available: www.nature.com/Scientificreports. [Accessed date: February 14, 2019].

[5]. Jie Hou, Lei Huang, Zhimin Yang, Yaqi Zhao, Chaoren Deng, Yucheng Chen, Xin Li, “Adsorption of ammonium on biochar prepared from giant reed,” Environmental Science and Pollution Research, vol. 23, pp. 19107–19115, 2016.

[6] A. Khalil, N. Sergeevich, and V. Borisova, “Removal of ammonium from fish farms by biochar obtained from rice straw: Isotherm and kinetic studies for ammonium adsorption,” Adsorption Science & Technology, vol. 36, pp. 1294-1309, 2018.

[7]. Gunnarsson, C.C. and C.M. Petersen. "Water hyacinths as a resource in agriculture and energy production: a literature review." Waste Manag 2007. 27(1), pp. 117-29.

[8]. L. X. Nguyen, P. T. M. Do, C. H. Nguyen, R. Kose, T. Okayama, T. N. Pham, P. D. Nguyen, and T. Miyanishi, “Properties of Biochars Prepared from Local Biomass in the Mekong Delta, Vietnam,” Bioresources, vol. 13, pp. 7325-7344, 2018.

[9]. L. D. Hafshejani, A. Hooshmand, A. A. Naseri, A. S. Mohammadi, F. Abbasi, and A. Bhatnagar, “Removal of nitrate aqueous solution by modified sugarcane bagasse biochar,” Ecological Engineering, vol. 95, pp. 101-111, 2016.

[10]. L. Peiyu, Y. Haiou, H. Jinling, Z. Yuting, and C. Hongyang, “The Review on Adsorption and Removing Amonia Nitrogen with Biochar on its Mechanism,” MATEC Web of Conferences, vol. 67, p. 07006, 2016.

[11]. T. M. Vu, and V. T. Trinh, “Research on Ammonium Removal from Aqueous Solution Using Modified Corncob-biochar by H₃PO₄ and NaOH,” Journal of Science, Hanoi National University, Earth and Environment Sciences, vol. 32, no. 1S, pp. 274-281, 2016.

[12]. T. L. A. Bui, “Research make adsorbent materials from coir for ammonium treatment in hospital wastewater,” Master of Science Thesis in Environmental Science, College of Natural Sciences, 2016.

[13]. T. T. D. Bui, “Research on using corncob as an adsorbent to remove ammonium in water,” Graduation thesis in petrochemicals, Ba Ria - Vung Tau University, 2016.

[14]. T. T. Nguyen, H. T. Van, and D. T. Nguyen, “Study on removal of ammonium from aqueous solution by Corncob modified biochar based on HNO₃,” TNU Journal of Science and Technology, vol. 188, no. 12, pp. 67-71, 2018.