Evaluation of the Implementation Integrated Biological System Industrial Wastewater Treatment Plant: Pollutant Removal, Operational Maintenance, Estimation of Carbon Emission

Authors

  • Nanik Indah Setianingsih National Research and Innovation Agency
  • Farida Crisnaningtyas Center of Industrial Pollution Prevention Technology
  • Agus Purwanto Center of Industrial Pollution Prevention Technology
  • Ikha Rasti Julia Sari Center of Industrial Pollution Prevention Technology

DOI:

https://doi.org/10.21771/jrtppi.2022.v13.no2.p10-20

Keywords:

WWTP evaluation, biological integrated system, pollutant removal, carbon emission

Abstract

The development of WWTP in business activities needs to pay attention to getting appropriate WWTP that is more valuable to support sustainable development. This study aims to evaluate two systems of integrated biological WWTP; anaerobic-wetland, and anaerobic-aerobic-wetland, including the effectiveness of pollutant removal, operational and maintenance, and estimation of carbon emissions. The performance of pollutant removal was evaluated by analyzing inlet and outlet samples of WWTP. An operational and maintenance evaluation was carried out by studying the WWTP operating system and maintenance procedures supported by a literature review. Carbon emission estimation was carried out using a formula referring to the IPCC Guidelines (2006). Organic matter removal of anaerobic-aerobic-wetland WWTP in the form of BOD₅ and COD are 92.12% and 91.72%, respectively, higher than anaerobic-wetland WWTP are 88.69% of BOD₅ and 77.62% of COD. Anaerobic-aerobic-wetland WWTP needs more maintenance and operation than anaerobic-wetland WWTP. The highest carbon emission of both WWTP is 41530.91 kgCO₂ eq/year of anaerobic-wetland WWTP from the organic matter removal process and 46485.15 kgCO₂ eq/year of anaerobic-aerobic-wetland WWTP. Electrical energy consumption emits in anaerobic-aerobic-wetland WWTP is 22338 kgCO₂ eq/year higher than anaerobic-wetland WWTP at 4299.70 kgCO₂ eq/year. Total carbon emissions of anaerobic-wetland WWTP is 47404.58 kgCO₂ eq/year and anaerobic-aerobic-wetland WWTP is 68900.23 kgCO₂ eq/year.

References

Anies Ma’rufatin, Wahyu P., Iif M.I., Diyono, Hari S. (2016). Teknologi Pengukuran Emisi Karbon Sektor Limbah. Annual Report-Pusat Teknologi Lingkungan

Bappenas. (2014). Dua Tahun Pelaksanaan RAN-GRK Dan RAD-GRK. Laporan Ringkas

Chen, X., Artur T.M., Kirsten H., Mikkel H.A., Dines T., Gürkan S. (2019). Assessment of Full-Scale N₂O Emission Characteristics and Testing of Control Concepts in an Activated Sludge Wastewater Treatment Plant with Alternating Aerobic and Anoxic Phases. Environ. Sci. Technol. 2019, 53, 21, 12485–12494. https://doi.org/10.1021/acs.est.9b04889

Crisnaningtyas, F dan Hanny V. (2016). Pengolahan limbah cair industri farmasi formulasi dengan metode anaerob-aerob dan anaerob-koagulasi. Jurnal Riset Teknologi Pencegahan Pencemaran Industri, 7 (1) : 13-22

D’Antoni, B.M., F. Iracà, M. Romero. (2017). Brief review on filamentous and bulking in activated sludge treatments : causes and mitigation. Technical Report. DOI: 10.13140/RG.2.2.29506.58560. available at: https://www.researchgate.net/publication/317433584

Doma, Hala S., Hala M. El-Kamah and Ahmed Salem. (2014). Treatment of Catering Wastewater Using a Combination of Up-Flow Anaerobic Sludge Blanket Followed by Down Flow Hanging Sponge Reactor. Life Science Journal 11(12s). http://www.lifesciencesite.com.

Du, X., Junlu Wang, Veeriah Jegatheesan and Guohua Shi. (2018). Dissolved oxygen control in activated sludge process using a neutral network-based adaptive PID algorithm. Appl. Sci. 2018, 8, 261; doi:10.3390/app8020261

Ebie, Y., Towprayoon, S., Chiemchaisri, C., Mander, Ü., & Nogueira, S. F. (2013). Constructed Wetlands for Wastewater Treatment. Wetlands Supplement, 24. http://doi.org/10.3390/w2030530

Geovana, P. G., Dinara, G. A., Marcos, F. J., Alexandre, L.N., Camila, F. de P., Leonardo, D. B. da S., & Antônio, C. F. de M. (2016). Removal of nitrogen and phosphorus from cattle farming wastewater using constructed wetland system. African Journal of Agricultural Research, 11(44), 4542–4550. https://doi.org/10.5897/AJAR2016.11425

Handayani, NI., Rustiana Yuliasni, Nanik Indah Setianingsih, Agung Budiarto. (2020). Full Scale Application of Integrated Upflow Anaerobic Filter (UAF)-Constructed Wetland (CWs) in Small Scale Batik Industry Wastewater Treatment. Jurnal Riset Teknologi Pencegahan Pencemaran Industri, 11 (1), 27-35

Henze, M., Mark CM van Loosdrecht, George A Ekama, Damir Brdjanovic. (2008). Biological Wastewater Treatment: Principles, Modeling and Design. IWA Publisher. ISBN: 9781843391883. DOI: 10.2166/9781780408613

Himanshu, B. (2011). Bacterial degradation of Azo Dyes and its derivatives. Thesis PhD, Saurashtra University

IPCC – Intergovernmental Panel on Climate Change. (2006). IPCC Guidelines for National Greenhouse Gas Inventories. Prepared by the National Greenhouse Gas Inventories Programme, Egglestone H.S., Buenfia L., Miwa K., Ngara T. and Tanabe K. (eds). Published: IGES, Japan.

KLH – Kementrian Lingkungan Hidup. (2012). Pedoman Penyelenggaraan Inventarisasi Gas Rumah Kaca Nasional Buku I Pedoman Umum

Kozak, M., Cirik, K., & Başak, S. (2021). Treatment of textile wastewater using combined anaerobic moving bed biofilm reactor and powdered activated carbon-aerobic membrane reactor. Journal of Environmental Chemical Engineering,9(4),105596.https://doi.org/https://doi.org/10.1016/j.jece.2021.105596

Lettinga, G., & Hulshoff Pol, L. (1991). UASB-Process design for various types of wastewater. Water Science and Technology, 24(8), 87–107.

Marlena, B., Rustiana Y., Sartamtomo, Agung Budiarto, Syarifa Arum, Misbachul Moenir, Cholid Syahroni. (2018). Removal of ammonia on catfish processing wastewater using horizontal sub-surface flow constructed wetland (HSSFCW). Jurnal Riset Teknologi Pencegahan Pencemaran Industri, 9 (1), 15-21

Marlena, B., Syahroni, C., Sartamtomo, S., Zen, Nur. (2016) Pengolahan limbah organik dengan upflow anaerobic sludge blanket di industri kecap. Jurnal Riset Teknologi Pencegahan Pencemaran Industri, 7 (2), 81-87

Martins, A.M.P., Krishna Pagilla, Joseph J. Heijnen, MarkC.M. van Loosdrecht. (2004). Filamentous bulking sludge—a critical review. Water Research 38 (2004)793817.https://www.oieau.org/eaudoc/system/files/documents/39/196194/196194_doc.pdf

Meer, R. R. Van Der, & Vletter, R. De. (2016). Anaerobic treatment of wastewater : the gas-liquid sludge separator, 54(11), 1482–1492.

Moenir, M., Sartamtomo, S., & Moertinah, S. (2014). Pengolahan air limbah industri teh botol dengan teknologi biologis anaerobik UASB–wetland. Jurnal Riset Teknologi Pencegahan Pencemaran Industri, 5(2), 59–66.

Mulas, M., Francesco C., Jukka S., Seppo H., Riku V., (2016). Full-scale implementation of an advanced control system on a biological wastewater treatment plant. IFAC-PapersOnLine Volume 49, Issue 7, Pages 1163-1168. https://doi.org/10.1016/j.ifacol.2016.07.360

Ng, K.K. et al., .(2014). A novel application of anaerobic bio-entrapped membrane reactor for the treatment of chemical synthesis-based pharmaceutical wastewater. Separation and Purification Technology, 132, pp. 634-643. Available at : http://dx.doi.org/10.1016/j.seppur.2014.06.021

Peraturan Daerah Provinsi Jawa Tengah No 5 Tahun 2012 Tentang Perubahan Atas Peraturan Daerah Provinsi Jawa Tengah Nomor 10 Tahun 2004 Tentang Baku Mutu Air Limbah

Peraturan Menteri Lingkungan Hidup No. 68 Tahun 2016 Tentang Baku Mutu Air Limbah Domestik

Permen LHK Nomor P.16/Menlhk/Setjen/Kum.1/4/2019 Tentang Perubahan Kedua Atas Peraturan Menteri Lingkungan Hidup Nomor 5 Tahun 2014

Primasari, B., Shaliza Ibrahim, M Suffian M Annuar and Lim Xung Ian Remmie. (2011). Aerobic Treatment of Oily Wastewater: Effect of Aeration and Sludge Concentration to Pollutant Reduction and PHB Accumulation. Proceeding World Academy of Science, Engineering and Technology, Volume 5 No. 6. ISSN 2010-376X. Available at : https://www.researchgate.net/publication/283070550_

Purwanta W dan Susanto JP. (2009). Emisi GRK Sektor Sampah dan Limbah Cair Perkotaan di Indonesia. JTekling hal 41-47

Ranieri, E., Silvia Giuliano, Ada Cristina Ranieri. (2021). Energy consumption in anaerobic and aerobic based wastewater treatment plants in Italy. Water Practice and Technology 16 (3): 851–863. https://doi.org/10.2166/wpt.2021.045

Seghezzo, L. (2004). Anaerobic treatment of domestic wastewater in subtropical regions. Thesis Wageningen University, Wageningen, the Netherlands – with references with summaries in English, Dutch, and Spanish. ISBN: 90-8504-029-9. https://www.researchgate.net/publication/34736397

Setianingsih, N. I., Harsono, D., Zen, N., Crisnaningtyas, F., & Handayani, N. I. (2020). Implementasi Instalasi Pengolahan Air Limbah Biologi Terintegrasi Untuk Mengolah Air Limbah Campuran Domestik Dan Produksi. In Seminar Nasional Teknologi Industri Hijau (Vol. 2, No. 1, pp. 159-168).

Setianingsih, N.I., Sartamtomo, Harsono, D. (2021). Desain Instalasi Pengolahan Air Limbah Domestik Dengan Sistem Biologi Anaerob-Wetland. In Seminar Nasional Sains and Entrepreneurship (Vol. 1, No. 1, SNSE : VII). http://conference.upgris.ac.id/index.php/snse/article/view/2100

Tan, K.N. (2019). A Detergent Destruction Method Used for Aerobic Treatment of Wastewater High in Detergent Content (WHD). International Journal of Environmental Science and Development 10(8):236-240 DOI:10.18178/ijesd.2019.10.8.1179

Tianzhi, W., Weijie, W., Hongying, H., & Khu, S.-T. (2021). Effect of coagulation on bio-treatment of textile wastewater: Quantitative evaluation and application. Journal of Cleaner Production, 312, 127798. https://doi.org/https://doi.org/10.1016/j.jclepro.2021.127798

Vistanty H, Aris M, Novarina IH. (2015). Pengolahan Air Limbah Industri Karton Box dengan Metode Integrasi Upflow Anaerobic Sludge Bed (UASB) Reactor dan Elektrokoagulasi-Flotasi. Jurnal Riset Teknologi Pencegahan Pencemaran Industri. Vol. 6, No.1.DOI: http://dx.doi.org/10.21771/jrtppi.2015.v6.no1.p1%20-%208

Wei, Y., Renze T. Van Houten , Arjan R. Borger, Dick H. Eikelboom, Yaobo Fan. (2003). Minimization of excess sludge production for biological wastewater treatment. Water Research 37(18):4453-67. DOI:10.1016/S0043-1354(03)00441-X

Yuliasni, R., N.I. Setyaningsih, N.I. Handayani, A. Budiarto. (2017) The performance of combined technology Upflow anaerobic reactor (UAR)-activated sludge (AS) for treating batik wastewater, Adv. Sci. Lett. 23. https://doi.org/10.1166/asl.2017.8725.

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Published

2022-11-10

How to Cite

Setianingsih, N. I., Farida Crisnaningtyas, Agus Purwanto, & Ikha Rasti Julia Sari. (2022). Evaluation of the Implementation Integrated Biological System Industrial Wastewater Treatment Plant: Pollutant Removal, Operational Maintenance, Estimation of Carbon Emission . Jurnal Riset Teknologi Pencegahan Pencemaran Industri, 13(2), 10–20. https://doi.org/10.21771/jrtppi.2022.v13.no2.p10-20

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