Perbandingan jenis media imobilisasi terhadap kinerja proses peruraian anaerob termofilik palm oil mill effluent

https://doi.org/10.22146/jrekpros.69582

Deni Frans Sakka(1*), Salsabilla Fitri Millenia(2), Irfan Dwidya Prijambada(3)

(1) Program Studi Bioteknologi, Sekolah Pascasarjana, Universitas Gadjah Mada Jl Teknika Utara, Kocoran, Depok, Sleman Kampus UGM, 55281 Yogyakarta
(2) Departemen Teknik Kimia, Fakultas Teknik, Universitas Gadjah Mada Jl Grafika No. 2, Mlati, Sleman Kampus UGM, 55281 Yogyakarta
(3) Departemen Mikrobiologi Pertanian, Fakultas Pertanian, Universitas Gadjah Mada Jl. Karang Malang, Caturtunggal, Depok,Sleman Kampus UGM, 55281 Yogyakarta
(*) Corresponding Author

Abstract


A B S T R A C T

Palm oil mill effluent (POME) is wastewater with high organic matter, the raw material of biogas production through anaerobic digestion. In anaerobic digestion, the washout effect frequently becomes a problem, along with the increasing organic loading rate (OLR) in a continuous system. Therefore, the addition of immobilization media was carried out to reduce this risk. This study aims to evaluate the effect of immobilization media type and arrangement on the performance of thermophilic anaerobic digestion of POME. Two immobilization media were evaluated,i.e., carbon fiber textile (CFT) media and natural zeolite particles. The anaerobic process performance was determined by measuring the concentration of volatile fatty acids (VFAs), soluble chemical oxygen demand (sCOD), and methane (CH4) yield. This study indicated that the immobilization media led to higher CH4 yields than the reactor without immobilization media. The CH4 yield of the reactor with natural zeolite was 0.3487 L/g sCOD, 0.3050 L/g sCOD in the reactor with CFT media, and 0.2873 L/g sCOD in the reactor without immobilization media. In addition, only natural zeolite can maintain reactor performance when the temperature accidentally increased with a recovery period of 14 days.

Keywords: anaerobic digestion; biogas; carbon fiber textile; natural zeolite; POME.

ABSTRAK

Palm oil mill effluent (POME) merupakan limbah cair dengan kandungan organik yang tinggi sebagai bahan baku produksi biogas melalui peruraian anaerob. Dalam peruraian anaerob, efek washout selalu menjadi masalah seiring dengan meningkatnya organic loading rate (OLR) pada sistem kontinu. Oleh karena itu, dilakukan penambahan media imobilisasi untuk mengurangi risiko tersebut. Penelitian ini bertujuan untuk mengevaluasi pengaruh jenis dan pengaturan media imobilisasi terhadap kinerja peruraian anaerob termofilik POME. Dua media imobilisasi yang diuji yaitu media jenis carbon fiber textile (CFT) dan media berupa partikel zeolit alam. Kinerja proses anaerob ditentukan dengan mengukur konsentrasi asam lemak volatil (VFA), soluble chemical oxygen demand (sCOD) dan yield metana (CH4). Hasil penelitian ini menunjukkan bahwa reaktor dengan media imobilisasi menghasilkan yield CH4 yang lebih tinggi dibandingkan dengan reaktor tanpa media imobilisasi. Yield CH4 reaktor dengan zeolit alam sebesar 0,3487 L/g sCOD, 0,3050 L/g sCOD pada reaktor dengan media CFT dan 0,2873 L/g sCOD pada reaktor tanpa media imobilisasi. Selain itu, hanya zeolit alam yang dapat mempertahankan performa reaktor saat mengalami gangguan peningkatan suhu secara tiba-tiba dengan masa recovery selama 14 hari. 


Kata kunci: biogas; carbon fiber textile; peruraian anaerobic; POME; zeolit alam.



Keywords


anaerobic digestion; biogas; carbon fiber textile; natural zeolite; POME

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References

An T, Zhou L, Li G, Fu J, Sheng G. 2008. Recent Patents on Immobilized Microorganism Technology and Its Engineering Application in Wastewater Treatment. Recent Patents on Engineering. 2(1):28–35. doi:10.2174/1872212087 83478543.

Cahyono RB, Ismiyati S, Ginting SB, Mellyanawaty M, Budhijanto W. 2018. Characterization of modified zeolite as microbial immobilization media on POME anaerobic digestion. IOP Conference Series: Materials Science and Engineering. 316(1):012070. doi:10.1088/1757-899X/316/1/01 2070.

Chin MJ, Poh PE, Tey BT, Chan ES, Chin KL. 2013. Biogas from palm oil mill effluent (POME): Opportunities and challenges from Malaysia’s perspective. Renewable and Sustainable Energy Reviews. 26:717–726. doi:10.1016/j.rser.201 3.06.008.

Ciezkowska M, Bajda T, Decewicz P, Dziewit L, Drewniak L. 2020. Effect of Clinoptilolite and Halloysite Addition on Biogas Production and Microbial Community Structure during Anaerobic Digestion. Materials. 13(18):4127. doi: 10.3390/ma13184127.

Demirel B, Yenigün O. 2002. The Effects of Change in Volatile Fatty Acid (VFA) Composition onMethanogenic Upflow Filter Reactor (UFAF) Performance. Environmental Technology. 23(10):1179–1187. doi:10.1080/09593332308618 336.

Djalma Nunes Ferraz Júnior A, Wenzel J, Etchebehere C, Zaiat M. 2014. Effect of organic loading rate on hydrogen production from sugarcane vinasse in thermophilic acidogenic packed bed reactors. International Journal of Hydrogen Energy. 39(30):16852–16862. doi:10.1016/j.ij hydene.2014.08.017.

Eş I, Vieira JDG, Amaral AC. 2015. Principles, techniques, and applications of biocatalyst immobilization for industrial application. Applied Microbiology and Biotechnology. 99(5):2065–2082. doi:10.1007/s00253-015-6390-y.

Garritano AN, Faber MdO, De Sá LR, Ferreira-Leitão VS. 2018. Palm oil mill effluent (POME) as raw material for biohydrogen and methane production via dark fermentation. Renewable and Sustainable Energy Reviews. 92(March 2017):676–684. doi:10.1016/j.rser.2018.04.031.

Indriyati I. 2018. PENGOLAHAN LIMBAH CAIR ORGANIK SECARA BIOLOGI MENGGUNAKAN REAKTOR ANAEROBIK LEKAT DIAM. Jurnal Air Indonesia. 1(3):340–343. doi: 10.29122/jai.v1i3.2361.

Jamali NS, Dzul Rashidi NF, Jahim JM, O-Thong S, Jehlee A, Engliman NS. 2019. Thermophilic biohydrogen production from palm oil mill effluent: Effect of immobilized cells on granular activated carbon in fluidized bed reactor. Food and Bioproducts Processing. 117:231–240. doi: 10.1016/j.fbp.2019.07.012.

Khadaroo SN, Grassia P, Gouwanda D, Poh PE. 2020. The impact of thermal pretreatment on various solid-liquid ratios of palm oil mill effluent (POME) for enhanced thermophilic anaerobic digestion performance. Journal of Cleaner Production. 261(September 2019):121159. doi:10.1016/ j.jclepro.2020.121159.

Lim A, Chew JJ, Ngu LH, Ismadji S, Khaerudini DS, Sunarso J. 2020. Synthesis, Characterization, Adsorption Isotherm, and Kinetic Study of Oil Palm Trunk-Derived Activated Carbon for Tannin Removal from Aqueous Solution. ACS Omega. (44):28673–28683. doi:10.1021/acsomega.0c038 11.

Mansor UQA, Yahya A, Shafie NFA, Roslan QI, Manshor NM, Som AM, Nour AH, Hassan Z, Yunus RM. 2017. An Overview of Anaerobic Treatment Processes Performance Treating Palm Oil Mill Effluent (POME)-Past, Present and Future. Advanced Science Letters. 23(5):4179–4183. doi: 10.1166/asl.2017.8238.

Mellyanawaty M, Alfiata Chusna FM, Nofiyanti E. 2019. Proses Peruraian Anaerobik Palm Oil Mill Effluent dengan Media Zeolit Termodifikasi. Jurnal Rekayasa Proses. (1):16. doi:10.22146/jrekpros.39206.

Montalvo S, Guerrero L, Borja R, Sánchez E, Milán Z, Cortés I, Angeles de la la Rubia M. 2012. Application of natural zeolites in anaerobic digestion processes: A review. Applied Clay Science. 58:125–133. doi:10.1016/j.clay.2012.01.013.

O-Thong S, Suksong W, Promnuan K, Thipmunee M, Mamimin C, Prasertsan P. 2016. Two-stage thermophilic fermentation and mesophilic methanogenic process for biohythane production from palm oilmill effluent withmethanogenic effluent recirculation for pH control. International Journal of Hydrogen Energy. 41(46):21702–21712. doi:10.1016/j.ijhydene.2016.07.095.

Pörtner R, Faschian R. 2019. Design and Operation of FixedBed Bioreactors for Immobilized Bacterial Culture. In: Growing and Handling of Bacterial Cultures. IntechOpen. p. 1–12. doi:10.5772/intechopen.87944.

Sasaki K, Morita M, Hirano Si, Ohmura N, Igarashi Y. 2009. Effect of adding carbon fiber textiles to methanogenic bioreactors used to treat an artificial garbage slurry. Journal of Bioscience and Bioengineering. 108(2):130–135. doi:10.1016/j.jbiosc.2009.03.003.

Standard Methods Committee of the American Public Health Association, American Water Works Association and Water Environment Federation. 2018a. 5220 chemical oxygen demand (COD). In: Lipps W, Baxter T, BraunHowland E, editors.

Standard methods for the examination of water and wastewater. Washington, DC: APHA Press. doi:10.2105/SMWW.2882.103. Standard Methods Committee of the American Public Health Association, American Water Works Association and Water Environment Federation. 2018b. 5560 organic and volatile acids. In: Lipps W, Baxter T, Braun-Howland E, editors.

Standard methods for the examination of water and wastewater. Washington, DC: APHA Press. doi:10.210 5/SMWW.2882.103. Suzana CuSM, Claudia M, A M, Larissa Guedes Fiuacute za MCo, Ra TdS. 2013. Immobilization of microbial cells: A promising tool for treatment of toxic pollutants in industrial wastewater. African Journal of Biotechnology. 12(28):4412–4418. doi:10.5897/AJB12.2677.

Verbelen PJ, De Schutter DP, Delvaux F, Verstrepen KJ, Delvaux FR. 2006. Immobilized yeast cell systems for continuous fermentation applications. Biotechnology Letters. (19):1515–1525. doi:10.1007/s10529-006-9132-5.

Vindis P, Mursec B, Stajnko D. 2009. The Comparison of Mesophilic and Thermophilic Anaerobic Digestion. In: DAAAM International Scientific Book 2009. volume 36. DAAAM International Vienna. p. 192–198. doi:10.2507/daaa m.scibook.2009.27.

Wang Q, Yang Y, Yu C, Huang H, Kim M, Feng C, Zhang Z. 2011. Study on a fixed zeolite bioreactor for anaerobic digestion of ammonium-rich swine wastes. Bioresource Technology. 102(14):7064–7068. doi:10.1016/j.biortech.2011.04 .085.

Wijesinghe DTN, Dassanayake KB, Scales PJ, Sommer SG, Chen D. 2018. Effect of Australian zeolite on methane production and ammonium removal during anaerobic digestion of swine manure. Journal of Environmental Chemical Engineering. 6(1):1233–1241. doi:10.1016/j.jece .2018.01.028.

Zdarta J, Meyer A, Jesionowski T, Pinelo M. 2018. A General Overview of Support Materials for Enzyme Immobilization: Characteristics, Properties, Practical Utility. Catalysts. (2):92. doi:10.3390/catal8020092.

Żur J, Wojcieszyńska D, Guzik U. 2016. Metabolic Responses of Bacterial Cells to Immobilization. Molecules. 21(7):958. doi:10.3390/molecules21070958.



DOI: https://doi.org/10.22146/jrekpros.69582

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