Pengaruh Waktu Tinggal dan Media Tanam pada Constructed Wetland untuk Mengolah Air Limbah Industri Tahu

  • Muhammad Al Kholif Universitas PGRI Adi Buana Surabaya
  • Pungut Universitas PGRI Adi Buana Surabaya
  • Sugito Universitas PGRI Adi Buana Surabaya
  • Joko Sutrisno Universitas PGRI Adi Buana Surabaya
  • Winda Sulistyo Dewi Universitas PGRI Adi Buana Surabaya

Abstract

Tofu industry waste pollution is still a serious problem. The high burden of tofu industrial waste pollutants is still a major problem. besides, the unavailability of the budget for processing and the limitations of a cheap and efficient treatment system are factors supporting the pollution of tofu waste in the environment. This study examines the efficiency of reducing BOD5 and COD treated with constructed wetlands using water jasmine plants (Enchinodorus palaefolius). The system used is the wetland subsurface with continuous flow. The media used include sand and biochar with a residence time of 12 hours 18 hours. Whereas pH, temperature, and flow rate are conditioned as control variables. The greatest efficiency of BOD5 and COD occurs in reactors using biochar media and a residence time of 18 hours with an efficiency of BOD5 of 50.52% and COD of 55.02%.

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References

Badan Pusat Statistik (2019). Rata-Rata Konsumsi per Kapita Seminggu Beberapa Macam Bahan Makanan Penting Tahun 2007-2018.

Astuti, A. D., Lindu, M., Yanidar, R., & Kleden, M. M. (2017). Kinerja Subsurface Constructed Wetland Multylayer Filtration Tipe Aliran VertikalDengan Menggunakan Tanaman Akar Wangi (Vetivera Zozanoides) Dalam Penyisihan BOD Dan COD Dalam Air Limbah Kantin. Penelitian Dan Karya Ilmiah, 1(2), 91–108. https://doi.org/10.25105/pdk.v1i2.1456

Barbier EB, Hacker SD, Kennedy C, Koch EW, Stier AC, & Silliman BR. (2011). The value of estuarine and coastal ecosystem services. Ecological Monographs, 81(2)(2), 169–193.

Borne, K. (2014). Floating treatment wetland influences on the fate and removal performance of phosphorus in stormwater retention ponds. Ecological Engineering, 69, 76–82. https://doi.org/10.1016/j.ecoleng.2014.03.062

Costanza, R. (2006). Nature: Ecosystems without commodifying them [2]. Nature, 443, 749; author reply 750. https://doi.org/10.1038/443749b

Costanza, R., Maqueo, O. P., Martinez, M. L., Sutton, P., Anderson, S. J., & Mulder, K. (2008). Applying a Reverse Auction to Reduce Stormwater Runoff Trading Allowances for Stormwater Control : Hydrology and Opportunity Costs Office of Research and Development National Risk Management Research Laboratory Sustainable Technologies Division Sustainabl. Journal of the Human Environment, 37(4), 241–248. https://doi.org/10.1579/0044-7447(2008)37

Gupta, P., Ann, T. W., & Lee, S. M. (2016). Use of biochar to enhance constructed wetland performance in wastewater reclamation. Environmental Engineering Research, 21(1), 36–44. https://doi.org/10.4491/eer.2015.067

Kasman, M., Riyanti, A., Sy, S., & Ridwan, M. (2018). Reduksi pencemar limbah cair industri tahu dengan tumbuhan melati air (Echinodorus palaefolius) dalam sistem kombinasi constructed wetland dan filtrasi. Jurnal Litbang Industri, 8(1), 39. https://doi.org/10.24960/jli.v8i1.3832.39-46

Kaswinarni, F. (2007). Kajian Teknis Pengolahan Limbah Padat Dan Cair Industri Tahu (Studi Kasus Industri Tahu Tandang Semarang, Sederhana Kendal, dan Gagak Sipat Boyolali). In Universitas Diponegoro.

Nurhasmawaty, P. (2008). Pengolahan Limbah Cair Industri Tahu dengan Proses Biofilter Aerobik. In Jurnal Teknik Kimia.

Pungut, & Al Kholif, M. (2016). Pemanfaatan Parit Drainase Sebagai Wetland Untuk Mendegradasi Cemaran Air Limbah Domestik. Jurnal Teknik WAKTU, 14(1), 8–14.

Ratnawati, R., & Talarima, A. (2017). Subsurface (SSF) Constructed Wetland Untuk Pengolahan Air Limbah Laundry. Teknik Waktu, 15(2), 1–6.

Sari, P., Sudarno, & Wisnu, I. (2015). Pengaruh Jumlah Tanaman Cyperus Alternifolius Dan Waktu Tinggal Limbah Dalam Penyisihan Kadar Ammoniak, Nitrit, Dan Nitrat (Studi Kasus : Pabrik Minyak Kayu Putih). Jurnal Teknik Lingkungan, 4(2), 1–9.

Schmitt, N., Wanko, A., Laurent, J., Bois, P., Molle, P., & Mosé, R. (2015). Constructed wetlands treating stormwater from separate sewer networks in a residential Strasbourg urban catchment area: Micropollutant removal and fate. Journal of Environmental Chemical Engineering, 3(4), 2816–2824. https://doi.org/10.1016/j.jece.2015.10.008

Setiyanto, R. A., Darundiati, Y. H., & Joko, T. (2016). Efektivitas Sistem Constructed Wetlands Kombinasi Malati Air (Echinodorus Palaefolius) dan Karbon Aktif Dalam Menurunkan Kadar COD (Chemical Oxygen Demand) Limbah Cair Rumah Sakit Banyumanik Semarang. Jurnal Kesehatan Masyarakat (e-Journal), 4(1), 436–441.

Statistik, B. P. (2019). Rata-Rata Konsumsi per Kapita Seminggu Beberapa Macam Bahan Makanan Penting Tahun 2007-2018.

Sukmawati, I. W. S., & Pungut. (2014). Removal Cemaran BOD, COD, Phosphat (PO4) Dan Detergen Menggunakan Tanaman Melati Air Sebagai Metode Constructed Wetland dalam Pengolahan Air Limbah. Teknik Waktu, 12(1), 24–34.

Tapani, N. (2018). Benefits of Biochar and its Applications for Runoff Water Management Literature Review and Laboratory Report. https://www.theseus.fi/bitstream/handle/10024/141397/Nick_Tapani.pdf?sequence =1&isAllowed=y

Tiner, R. W. (2011). Dichotomous Keys and Mapping Codes for Wetland Landscape Position, Landform, Water Flow Path, and Waterbody Type Descriptors. In Journal of Chemical Information and Modeling (Vol. 2).

https://doi.org/10.1017/CBO9781107415324.004=1&isAllowed=y

Vijay, M. V., Sudarsan, J. S., & Nithiyanantham, S. (2017). Sustainability of constructed wetlands in using biochar for treating wastewater. Rasayan Journal of Chemistry, 10(3), 1056–1061. https://doi.org/10.7324/RJC.2017.1031738

Walters, B. B., Rönnbäck, P., Kovacs, J. M., Crona, B., Hussain, S. A., Badola, R., Primavera, J. H., Barbier, E., & Dahdouh-Guebas, F. (2008). Ethnobiology, socio-economics and management of mangrove forests: A review. Aquatic Botany, 89(2), 220–236. https://doi.org/10.1016/j.aquabot.2008.02.009

Zhang, D. Q., Jinadasa, K. B. S. N., Gersberg, R. M., Liu, Y., Ng, W. J., & Tan, S. K. (2014). Application of constructed wetlands for wastewater treatment in developing countries - A review of recent developments (2000-2013). Journal of Environmental Management, 141, 116–131. https://doi.org/10.1016/j.jenvman.2014.03.015

Zhang, Y. (2012). Design of a Constructed Wetland for Wastewater Treatment and Reuse in Mount Pleasant , Utah. Master Thesis, 1–98. http://digitalcommons.usu.edu/cgi/viewcontent.cgi?article=1232&context=gradreports

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Published
2020-05-01
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How to Cite
Al KholifM., Pungut, Sugito, Joko Sutrisno, & Winda Sulistyo Dewi. (2020). Pengaruh Waktu Tinggal dan Media Tanam pada Constructed Wetland untuk Mengolah Air Limbah Industri Tahu . Al-Ard: Jurnal Teknik Lingkungan, 5(2), 107-115. https://doi.org/10.29080/alard.v5i2.901
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