Pengolahan Limbah Cair Rumah Sakit dengan Metode Lahan Basah Buatan (Constructed Wetland) dan Tanaman Air Typha latifolia

Authors

  • Amrul Hasan (Scopus ID : 57205883034) Poltekkes Kemenkes Tanjungkarang
  • Suryani Catur Suprapti

DOI:

https://doi.org/10.26630/jk.v12i3.2697

Keywords:

Constucted wetlands, Typha latifolia, Wastewater.

Abstract

Utilization of the aquatic plant Typha latifolia, in the treatment of hospital wastewater with the method of an artificial wetland system (constructed wetland), is expected to be able to treat the liquid waste of health care facilities. This study aims to determine the ability of the aquatic plant Typha latifolia in degrading the parameters contained in the wastewater of health facilities using the Artificial Wetland Method. Quasi-experimental research design. The measurement of liquid waste parameters (BOD, COD, TSS, Fatty Oil, and Ammonia) is carried out by taking samples at the inlet and outlet of each pot, then analyzed in the laboratory. The study reported an average influent BOD level of 66.2mg/L, an average effluent in a circular cross-sectional pot increased by 99.6mg/L, an influent COD level of 190.8mg/L, an effluent in a rectangular pot four decreased by an average of 31.6mg/L, the influent TSS parameter was 106mg/L, the average effluent in a circular cross-sectional pot was 283.6mg/L, the influent Oil & Fat parameter averaged 1.2mg/L, average effluent 1.2mg/L, ammonia influent parameter 12mg/L, effluent 2.62mg/L. The rectangular cross-section has a good ability compared to other cross-sections in reducing hospital waste, namely; BOD=64%, COD=40%, TSS=48%, Ammonia=67%, Oil and Fat parameters did not decrease because the influent parameter levels were already below the Liquid Waste quality standard. The researcher concluded that the rectangular cross-sectional pot planted with Typha latifolia could reduce the wastewater parameters better than other cross-sectional types. 

Author Biography

Amrul Hasan, (Scopus ID : 57205883034) Poltekkes Kemenkes Tanjungkarang

  

References

Al Kholif, M., & Ratnawati, R. (2017). Pengaruh Beban Hidrolik Media dalam Menurunkan Senyawa Ammonia pada Limbah Cair Rumah Potong Ayam (RPA). WAKTU: Jurnal Teknik UNIPA, 15(1), 1-9.

Assayed, A., Chenoweth, J., & Pedley, S. (2015). Assessing the efficiency of an innovative method for onsite greywater treatment: Drawer compacted sand filter–A case study in Jordan. Ecological Engineering, 81, 525-533.

Coleman, J., Hench, K., Garbutt, K., Sexstone, A., Bissonnette, G., & Skousen, J. (2001). Treatment of domestic wastewater by three plant species in constructed wetlands. Water, air, and soil pollution, 128(3), 283-295.

Gersberg, R. M., Elkins, B. V., & Goldman, C. R. (1985). Wastewater treatment by artificial wetlands. Water Science and Technology, 17(4-5), 443-450.

Hidayat, N., Padaga, M. C., & Suhartini, S. (2006). Mikrobiologi industri. Yogyakarta: Penerbit Andi.

Hua, G., Zhao, Z., & Zeng, Y. (2013). Effects of plant root on hydraulic performance of clogging process in subsurface flow constructed wetland. In EGU General Assembly Conference Abstracts (pp. EGU2013-3831).

Johanna, E. (2012). Pemanfaatan Lahan Basah Buatan dengan Menggunakan Tanaman Typha Latifiola Untuk Mengolah Limbah Cair Domestik. [Skripsi]. Depok: Program Studi Teknik Lingkungan, Universitas Indonesia.

Kadlec, R. H., & Wallace, S. (2008). Treatment wetlands. CRC press.

Kang, Y. W., Mancl, K. M., & Tuovinen, O. H. (2007). Treatment of turkey processing wastewater with sand filtration. Bioresource technology, 98(7), 1460-1466.

Karathanasis, A. D., Potter, C. L., & Coyne, M. S. (2003). Vegetation effects on fecal bacteria, BOD, and suspended solid removal in constructed wetlands treating domestik wastewater. Ecological engineering, 20(2), 157-169.

Khiatuddin, M. (2003). Melestarikan sumber daya air dengan teknologi rawa buatan. Gadjah Mada University Press.

Knowles, P., Dotro, G., Nivala, J., & García, J. (2011). Clogging in subsurface-flow treatment wetlands: occurrence and contributing factors. Ecological Engineering, 37(2), 99-112.

Mukhlis, M. (2003). Laju Serapan Tumbuhan Air Reed (Phragmites australis) Dan Cattail (Typha angustifolia) Dalam Sistem Constructed Wetland Untuk Menurunkan Cod Air Limbah. Jurnal Purifikasi, 4(2), 67-72.

Kementerian Lingkungan Hidup dan Kehutanan Republik Indonesia. (2016). Permen LHK No. P.68 Tahun 2016, Tentang Baku Mutu Air Limbah Domestik.

Prawira, J. (2015). Efektifitas Sistem Lahan Basah Buatan Sebagai Alternatif Pengolahan Limbah Domestik. [Tugas Akhir]. Kepulauan Riau: Universitas Maritim Raja Ali Haji.

Risnawati, I., & Damanhuri, T. P. (2009). Penyisihan Logam Pada Lindi Menggunakan Constructed Wetland. [Skripsi]. Bandung: Institut Teknologi Bandung.

Said, Nusa Idaman, Dan Widayat, Wahyu. (2013). Teknologi Pengolahan Air Limbah Rumah Sakit Dengan Proses Biofilter Anaerob-Aerob. Pusat Teknologi Lingkungan, Deputi Bidang Teknologi Pengembangan Sumberdaya Alam Badan Pengkajian dan Penerapan Teknologi, http://kelair.bppt.go.id.

Singleton, D. M., & Lengyel, Z. (Eds.). (1995). The age factor in second language acquisition: A critical look at the critical period hypothesis. Multilingual Matters.

Stowell, C. P., & Lee, Y. C. (1980). Neoglycoproteins the preparation and application of synthetic glycoproteins. In Advances in carbohydrate chemistry and biochemistry (Vol. 37, pp. 225-281). Academic Press.

Supranto, J. (2000). Teknik Sampling untuk Survei dan Eksperimen. Jakarta: Penerbit PT Rineka Cipta.

Tangahu, B. V., & Warmadewanthi, I. D. A. A. (2001). Pengelolaan limbah rumah tangga dengan memanfaatkan tanaman cattail (typha angustifolia) dalam sistem constructed wetland. Jurnal Purifikasi, 2(3), 127-132.

Tchobanoglous, G., Burton, F. L., & Stensel, H. D. (2003). Metcalf & Eddy wastewater engineering: treatment and reuse. International Edition. McGrawHill, 4, 361-411.

UN-HABITAT, C. W. M. (2008). UN-HABITAT Water for Asian Cities Programme Nepal.

Usman, S., & Santosa, I. (2016). Pengolahan Air Limbah Sampah (Lindi) dari Tempat Pembuangan Akhir Sampah (TPA) Menggunakan Metoda Constructed Wetland. Jurnal Kesehatan, 5(2).

Vymazal, J. (2005). Horizontal sub-surface flow and hybrid constructed wetlands systems for wastewater treatment. Ecological Engineering, 25, pp.478-490.

Vymazal, J. (2009). The use constructed wetlands with horizontal sub-surface flow for various types of wastewater. Ecological engineering, 35(1), 1-17.

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Published

30-11-2021

Issue

Vol. 12 No. 3 (2021): Jurnal Kesehatan

Section

Articles

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