Analisis Penyisihan Kandungan Amonia dengan Stripper di Pabrik Ammonia
DOI:
https://doi.org/10.37859/jst.v11i1.7999
Abstract
Ammonia industrial waste treatment is part of the final process in the industry. Wastewater containing high ammonia content needs to be treated using a stripping process. This study to analysis the stripping process for ammonia waste treatment in the industry to obtain appropriate operating conditions and meet the wastewater standards issued by the Minister of the Environment. Data obtained during 10 days of operation were compared with the standards and analyzed for column efficiency. The results of the analysis showed that the waste output with a concentration of 13.9 - 49 ppm, a pH range of 8.7 - 9 and most of the waste discharge had met the standards, namely a maximum of 50 ppm and pH 6-9. The best gas-liquid ratio at the stripper inlet is 0.25 V / V and pressure has no significant effect on stripper efficiency.
Downloads
References
Kinidi L, Tan IAW, Abdul Wahab NB, Tamrin KF Bin, Hipolito CN, Salleh SF. Recent Development in Ammonia Stripping Process for Industrial Wastewater Treatment. Vol. 2018, International Journal of Chemical Engineering. Hindawi Limited; 2018.
Wu CQ, Zhang Y, Chen X. Ammonia removal mechanism by the combination of air stripping and ultrasound as the function of pH. In: IOP Conference Series: Earth and Environmental Science. Institute of Physics Publishing; 2019.
Zangeneh A, Sabzalipour S, Takdatsan A, Yengejeh RJ, Khafaie MA. Ammonia removal form municipal wastewater by air stripping process: An experimental study. S Afr J Chem Eng. 2021 Apr 1;36:134–41.
Sonaka H, Syutsubo K, Fukuda M, Yamaguchi T, Tanikawa D. Ammonia Stripping from High Ammonia-Containing Wastewater by Downflow Hanging Sponge (DHS) Reactor. J Water Environ Technol. 2016;14(5):303–7.
Jia D, Lu W, Zhang Y. Research on mechanism of air stripping enabled ammonia removal from industrial wastewater and its application. Chem Eng Trans. 2017;62:115–20.
Wang C, Azeem M, Zhang H, Qu W, Qiao C, Yang S. Ammonia Stripping with Plant Ash Enhanced Removal and Recovery Rate of Ammonia Nitrogen From Biogas Slurry. Pol J Environ Stud. 2023 Jan 1;32(1):843–52.
Wang C, Azeem M, Zhang H, Qu W, Qiao C, Yang S. Ammonia Stripping with Plant Ash Enhanced Removal and Recovery Rate of Ammonia Nitrogen From Biogas Slurry. Pol J Environ Stud. 2023 Jan 1;32(1):843–52.
Zangeneh A, Sabzalipour S, Takdatsan A, Yengejeh RJ, Khafaie MA. Mass transfer coefficient of ammonia in the air stripping process for municipal wastewater: An experimental study. Advances in Environmental Technology. 2021 Sep 1;7(4):289–304.
Fuzieah S, Sheikh Abdullah SR, Abu Hasan H, Abd. Rahman N. Biological removal of ammonia by naturally grown bacteria in sand biofilter. Malaysian Journal of Analytical Sciences. 2018 Apr 1;22(2):346–52.
Faizal M, Haryati S, Kurniawati H. The Effect of Retention Time and Initial Concentration of Ammonia on Biological Treatment for Reducing Ammonia Content in Wastewater from Urea Fertilizer Industry. Sriwijaya International Seminar on Energy and Environmental Science & Technology Palembang.
Krakat N, Anjum R, Dietz D, Demirel B. Methods of ammonia removal in anaerobic digestion: A review. Water Science and Technology. 2017 Oct 1;76(8):1925–38.
Ryskie S, Gonzalez-Merchan C, Neculita CM, Genty T. Efficiency of ozone microbubbles for ammonia removal from mine effluents. Miner Eng. 2020 Jan 1;145.
Athikoh N, Nur M. Pengolahan Limbah Cair Tekstil Dengan Proses Oksidasi Menggunakan Ozon Gelembung Mikro Textile Liquid Waste Treatment By Oxidation Process Using Microbubble Ozone.
Wu Y, Tian W, Zhang Y, Fan W, Liu F, Zhao J, et al. Nanobubble Technology Enhanced Ozonation Process for Ammonia Removal. Water (Switzerland). 2022 Jun 1;14(12).
Khuntia S, Majumder SK, Ghosh P. Removal of ammonia from water by ozone microbubbles. Ind Eng Chem Res. 2013 Jan 9;52(1):318–26.
Fuzieah S, Sheikh Abdullah SR, Abu Hasan H, Abd. Rahman N. Biological removal of ammonia by naturally grown bacteria in sand biofilter. Malaysian Journal of Analytical Sciences. 2018 Apr 1;22(2):346–52.
Jamshidi A, Rezaei S, Hassani G, Jahanpour R, Marioryad H. Optimization and modeling of ammonia removal from aqueous solutions by using adsorption on single-walled carbon nanotubes. Journal of Engineering and Technological Sciences. 2021 May 31;53(3).
Nurisman Enggal, Putri Merlinda Ariesty, Bidari Mayang. Analisis Performa Persentase Stripping dan Efisiensi Panas Stripper (DA-101) pada Unit Sintesa Urea PUSRI-II B. Journal of Chemical Process Engineering [Internet]. 2022 Dec [cited 2024 Oct 13];7(2):109–116. Available from: https://jurnal.teknologiindustriumi.ac.id/index.php/JCPE/index
