TREATMENT OF THE GELATIN WASTEWATER WITH OZONE PEROXIDE ADVANCED OXIDATION PROCESS
DOI:
https://doi.org/10.21009/jmenara.v18i2.35143Keywords:
AOPs, BOD5, COD, ozonation.Abstract
This research aims to decrease the level of COD, BOD5, and color in the liquid waste of the gelatin industry by using the ozonation process and hydrogen peroxide in order to meet the quality standards of the seaweed industrial waste. The reaction between ozone and peroxide called the peroxone process is one of the Advanced Oxidation Processes (AOPs). The combination of ozone with peroxide can result in a cheaper process. The result shows the lowest COD at the time of ozonation 160 minutes with the addition of hydrogen peroxide 30 ml was 932.39 mg/L (37.03%), the lowest BOD5 at ozonation 160 minutes with the addition of 25 ml hydrogen peroxide was 164.32 mg/L (48%) and the lowest color at 80 minutes of ozonation with the addition of 10 ml of hydrogen peroxide is 158 (73.75%). In the AOPs, the decrease in COD and BOD5 was higher than that of ozonation without hydrogen peroxide..
References
Abbas, Q., Bukhari, T. H., Usman, M., Munir, M., Iqbal, M., Nazir, A., … Ahmad, N. (2023). Efficient Removal and Conditions Optimization of Textile Dyes Using UV/TiO2 Based Advanced Oxidation Process. Polish Journal of Environmental Studies, 32(3), 2465–2471.
Abdel-Rahman, Z., & Abdullah, Z. (2019). Utilization of CO2 in Flue Gas for Sodium Bicarbonate Production in a Bubble Column. Tikrit Journal of Engineering Sciences, 26(2), 28–38.
Abdi, C., Khair, R. M., & Aisyah, S. (2017). PENGARUH OZONISASI TERHADAP PENURUNAN INTENSITAS WARNA DAN KADAR BESI (Fe) PADA AIR GAMBUT. Jukung (Jurnal Teknik Lingkungan), 3(1), 21–29.
Alagorni, A. H., Yaacob, Z. Bin, & Nour, A. H. (2015). An Overview of Oil Production Stages : Enhanced Oil Recovery Techniques and An Overview of Oil Production Stages : Enhanced Oil Recovery Techniques and Nitrogen Injection. (March 2016). h
Andrio, D., Asmura, J., Yenie, E., & Putri, K. (2019). Enhancing BOD 5 /COD ratio co-substrate tofu wastewater and cow dung during ozone pretreatment . MATEC Web of Conferences, 276, 06027.
Dewa, R. P. (2016). Penanganan Baku Mutu Kualitas Air Limbah Produksi Atc dari Rumput Laut Eucheuma cottonii. Ejournal Keminperin, 12(02), 34–40.
Kepa, U., Stanczyk-Mazanek, E., & Stepniak, L. (2008). The use of the advanced oxidation process in the ozone + hydrogen peroxide system for the removal of cyanide from water. Desalination, 223(1–3), 187–193.
Merényi, G., Lind, J., Naumov, S., & Sonntag, C. Von. (2010). Reaction of ozone with hydrogen peroxide (peroxone process): A revision of current mechanistic concepts based on thermokinetic and quantum-chemical considerations. Environmental Science and Technology, 44(9), 3505–3507.
Munter, R. (2011). Advanced Oxidation Processes. Treatise on Water Science, 4, 377–408.
Nugroho, R., & Mahmud, I. (2018). PENGOLAHAN AIR LIMBAH BERWARNA INDUSTRI TEKSTIL DENGAN PROSES AOPs. Jurnal Air Indonesia, 1(2), 163–172.
Pergub Jatim No. 52. (2014). Baku Mutu Air Limbah Bagi Industri Dan/Atau Kegiatan Usaha Lainnya. Perubahan Atas Peraturan Gubernur Jawa Timur Nomor 72 Tahun 2013 Tentang Baku Mutu Air Limbah Bagi Industri Dan/Atau Kegiatan Usaha Lainnya, (August), 15.
Permadi. (2011). Utilitas Pengolahan Limbah Cair Rumah Sakit. NALARS Jurnal Arsitektur, 10(2), 173–184.
Rahmayanti, A., Faradila, R. S., Masrufah, A., Puput, D., Permata, A., Lindi, S. 2022 P., … Sari, P. (2022). Pengolahan Lindi Menggunakan Advanced Oxidation Process (AOPs) Berbasis Ozon. Journal of Research and Technology, 8(1), 141–148.
Sabri, S. N., Abidin, C. Z. A., Fahmi, F., Kow, S. H., & Razali, N. A. (2018). The performance and decolourization kinetics of O3/H2O2 oxidation of reactive green 19 dye in wastewater. E3S Web of Conferences, 34, 1–8.
Spiliotopoulou, A., Rojas-Tirado, P., Chhetri, R. K., Kaarsholm, K. M. S., Martin, R., Pedersen, P. B., … Andersen, H. R. (2018). Ozonation control and effects of ozone on water quality in recirculating aquaculture systems. Water Research, 133, 289–298.
Syafarudin, A., & Novia. (2013). Produksi Ozon dengan Bahan Baku Oksigen Menggunakan Alat Ozon Generator. Jurnal Teknik Kimia, 19(2), 1–9.
Trapido, M. (2012). Ozone Based Advanced Oxidation Process. Unesco EOLSS.
Yamashita, F., Shibata, N., & Suzuki, T. (2007). Effect of pH and Hydrogen Peroxide on Ozonic Decomposition of. (September), 16–20.
Zaharia, C., Suteu, D., Muresan, A., Muresan, R., & Popescu, A. (2009). Textile wastewater treatment by homogeneous oxidation with hydrogen peroxide. Environmental Engineering and Management Journal, 8(6), 1359–1369.
Abdel-Rahman, Z., & Abdullah, Z. (2019). Utilization of CO2 in Flue Gas for Sodium Bicarbonate Production in a Bubble Column. Tikrit Journal of Engineering Sciences, 26(2), 28–38.
Abdi, C., Khair, R. M., & Aisyah, S. (2017). PENGARUH OZONISASI TERHADAP PENURUNAN INTENSITAS WARNA DAN KADAR BESI (Fe) PADA AIR GAMBUT. Jukung (Jurnal Teknik Lingkungan), 3(1), 21–29.
Alagorni, A. H., Yaacob, Z. Bin, & Nour, A. H. (2015). An Overview of Oil Production Stages : Enhanced Oil Recovery Techniques and An Overview of Oil Production Stages : Enhanced Oil Recovery Techniques and Nitrogen Injection. (March 2016). h
Andrio, D., Asmura, J., Yenie, E., & Putri, K. (2019). Enhancing BOD 5 /COD ratio co-substrate tofu wastewater and cow dung during ozone pretreatment . MATEC Web of Conferences, 276, 06027.
Dewa, R. P. (2016). Penanganan Baku Mutu Kualitas Air Limbah Produksi Atc dari Rumput Laut Eucheuma cottonii. Ejournal Keminperin, 12(02), 34–40.
Kepa, U., Stanczyk-Mazanek, E., & Stepniak, L. (2008). The use of the advanced oxidation process in the ozone + hydrogen peroxide system for the removal of cyanide from water. Desalination, 223(1–3), 187–193.
Merényi, G., Lind, J., Naumov, S., & Sonntag, C. Von. (2010). Reaction of ozone with hydrogen peroxide (peroxone process): A revision of current mechanistic concepts based on thermokinetic and quantum-chemical considerations. Environmental Science and Technology, 44(9), 3505–3507.
Munter, R. (2011). Advanced Oxidation Processes. Treatise on Water Science, 4, 377–408.
Nugroho, R., & Mahmud, I. (2018). PENGOLAHAN AIR LIMBAH BERWARNA INDUSTRI TEKSTIL DENGAN PROSES AOPs. Jurnal Air Indonesia, 1(2), 163–172.
Pergub Jatim No. 52. (2014). Baku Mutu Air Limbah Bagi Industri Dan/Atau Kegiatan Usaha Lainnya. Perubahan Atas Peraturan Gubernur Jawa Timur Nomor 72 Tahun 2013 Tentang Baku Mutu Air Limbah Bagi Industri Dan/Atau Kegiatan Usaha Lainnya, (August), 15.
Permadi. (2011). Utilitas Pengolahan Limbah Cair Rumah Sakit. NALARS Jurnal Arsitektur, 10(2), 173–184.
Rahmayanti, A., Faradila, R. S., Masrufah, A., Puput, D., Permata, A., Lindi, S. 2022 P., … Sari, P. (2022). Pengolahan Lindi Menggunakan Advanced Oxidation Process (AOPs) Berbasis Ozon. Journal of Research and Technology, 8(1), 141–148.
Sabri, S. N., Abidin, C. Z. A., Fahmi, F., Kow, S. H., & Razali, N. A. (2018). The performance and decolourization kinetics of O3/H2O2 oxidation of reactive green 19 dye in wastewater. E3S Web of Conferences, 34, 1–8.
Spiliotopoulou, A., Rojas-Tirado, P., Chhetri, R. K., Kaarsholm, K. M. S., Martin, R., Pedersen, P. B., … Andersen, H. R. (2018). Ozonation control and effects of ozone on water quality in recirculating aquaculture systems. Water Research, 133, 289–298.
Syafarudin, A., & Novia. (2013). Produksi Ozon dengan Bahan Baku Oksigen Menggunakan Alat Ozon Generator. Jurnal Teknik Kimia, 19(2), 1–9.
Trapido, M. (2012). Ozone Based Advanced Oxidation Process. Unesco EOLSS.
Yamashita, F., Shibata, N., & Suzuki, T. (2007). Effect of pH and Hydrogen Peroxide on Ozonic Decomposition of. (September), 16–20.
Zaharia, C., Suteu, D., Muresan, A., Muresan, R., & Popescu, A. (2009). Textile wastewater treatment by homogeneous oxidation with hydrogen peroxide. Environmental Engineering and Management Journal, 8(6), 1359–1369.
Downloads
Published
2023-07-06
Issue
Section
Artikel
License
Copyright (c) 2023 Ratri Sekaringgalih, Alif Nur Laili Rachmah
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
Authors who publish with this Journal agree to the following terms:
- Author retain copyright and grant the journal right of first publication with the work simultaneously licensed under a creative commons attribution licensethat allow others to share the work within an acknowledgement of the work’s authorship and initial publication of this journal.
- Authors are able to enter into separate, additional contractual arrangementfor the non-exclusive distribution of the journal’s published version of the work (e.g. acknowledgement of its initial publication in this journal).
- Authors are permitted and encouraged to post their work online(e.g. in institutional repositories or on their websites) prior to and during the submission process, as it can lead to productive exchanges, as well as earlier and greater citation of published works.
