 |
 |
 |
 |
 |
 |
Sains
Malaysiana 49(1)(2020): 69-74
http://dx.doi.org/10.17576/jsm-2020-4901-08
Penyahwarnaan Efluen Kilang Minyak
Kelapa Sawit (POME) melalui Proses Pengoksidaan Fenton secara Berterusan menggunakan Limonit sebagai Pemangkin
(Palm Oil Mill
Effluent (POME) Decolorize through
Continuous Fenton Oxidation Process using
Limonite as Catalyst)
NUR FAZLINDA RAZALI1,
CHIN HUA CHIA1*, SARANI ZAKARIA1, MOHD SHAIFUL
SAJAB2, TATSUYA TOBE3 & MIKU TSUDA4
1Bioresources and Biorefinery Laboratory,
Faculty of Science and Technology, Universiti Kebangsaan Malaysia, 43600 UKM Bangi, Selangor Darul Ehsan,
Malaysia
2Research Center for Sustainable Process
Technology (CESPRO), Faculty of Engineering and Built Environment, Universiti
Kebangsaan Malaysia, 43600 UKM Bangi, Selangor Darul Ehsan, Malaysia
3Nihon Suido Consultants Co., Ltd.,
Shinjuku-ku, Tokyo, 160-0023, Japan
4Japan Limonite Co., Ltd., Aso City,
Kumamoto, 869-2235, Japan
Diserahkan: 25
Disember 2018/Diterima: 10 Oktober 2019
ABSTRAK
Industri minyak sawit mempunyai impak yang besar ke
atas alam sekitar terutama di Malaysia. Efluen kilang minyak sawit (POME)
merupakan air buangan yang mengandungi sebatian organik yang berasal daripada
bahan boleh urai dan sedia
direput oleh mikroorganisma. Teknologi rawatan POME masa kini banyak bertumpu
kepada kaedah biologi untuk mengurangkan permintaan oksigen kimia (COD),
permintaan oksigen bio-kimia (BOD) dan jumlah karbon organik (TOC). Walau
bagaimanapun, kebanyakan proses biologi tidak dapat menguraikan warna yang
terdapat dalam POME. Kajian ini mengkaji potensi teknologi pengoksidaan Fenton
menggunakan biji limonit sebagai pemangkin kepada hidrogen peroksida untuk
merawat POME selepas proses rawatan biologi yang diperoleh daripada kilang minyak kelapa sawit. Keputusan
menunjukkan dengan hanya 50 mM H2O2 boleh menyahwarnakan
POME sebanyak 800-1000 PtCo secara berterusan dengan pengekalan masa 1 jam pada
pH 3.
Kata kunci: Limonit; pengoksidaan Fenton; POME; sistem kolum berterusan; warna
ABSTRACT
Palm oil industry has huge impact on the environment
especially in Malaysia. The palm oil mill effluent (POME) is a liquid waste
that contains organic compounds derived from degradable material and was easily
decomposed by microorganisms. Today's POME treatment technology relies heavily
on biological methods to reduce chemical oxygen demand (COD), biochemical
oxygen demand (BOD) and total organic carbon (TOC). However, these processes
cannot decompose the color compounds found in POME. This study describes a
study on potential uses of Fenton oxidation using limonite ore as catalyst to
treat POME after biological treatment which was obtained from a palm oil mill.
The results showed that only 50 mM of H2O2 could decolorize 800 - 1000 PtCo of the POME via continuous
treatment with 1 hour retention time at pH 3.
Keywords: Limonite; colour; continuous column system; Fenton oxidation; POME
RUJUKAN
Alhaji, M.H., Sanaullah, K., Lim, S.F., Khan, A., Hipolito,
C.N., Abdullah, M.O., Bhawani, S.A. & Jamil, T. 2016. Photocatalytic
treatment technology for palm oil mill effluent (POME) - A review.
Process Safety and Environmental Protection 102: 673-686.
Aris, A., Siew, O.B., Kee, K.S. &
Ujang, Z. 2008. Tertiary treatment of palm oil mill effluent using Fenton
oxidation. Malaysia Journal of Civil Engineering 20(1): 12-25.
Bhatia, S., Othman, Z. & Ahmad, A.L.
2007. Coagulation-flocculation process for POME treatment using Moringa
oleifera seeds extract: Optimization studies. Chemical Engineering
Journal 133(1-3): 205-212.
He, R., Tian, B.H., Zhang, Q.Q. &
Zhang, H.T. 2015. Effect of Fenton oxidation on biodegradability, biotoxicity
and dissolved organic matter distribution of concentrated landfill leachate
derived from a membrane process. Waste Manag. 38: 232-239.
Ibrahim, A.H., Taha, M.R. & Azhar, A.W.
2015. Removal of COD from palm oil mill effluent (POME) via advanced Fenton process: Optimization study. Advances in
Environmental Biology 9(15): 1-10.
Kallel, M., Belaid, C., Boussahel, R.,
Ksibi, M., Montiel, A. & Elleuch, B. 2009. Olive mill wastewater
degradation by Fenton oxidation with zero-valent iron and hydrogen peroxide. Journal
of Hazardous Materials 163(2-3): 550-554.
Kietkwanboot, A., Tran, H.T.M. &
Suttinun, O. 2015. Simultaneous dephenolization and decolorization of treated
palm oil mill effluent by oil palm fiber-immobilized trametes hirsuta strain AK
04. Water, Air, and Soil Pollution 226: 345.
Kongnoo, A., Suksaroj, T., Intharapat, P.,
Promtong, T. & Suksaroj, C. 2012. Decolorization and organic removal from
palm oil mill effluent by Fenton’s Process. Environmental Engineering
Science 29(9): 855-859.
Lee, E., Lee, H., Kim, Y.K., Sohn, K. &
Lee, K. 2011. Hydrogen peroxide interference in chemical oxygen demand during
ozone based advanced oxidation of anaerobically digested livestock wastewater. International
Journal of Environmental Science and Technology 8(2): 381-388.
Neoh, C.H., Lam, C.Y., Lim, C.K., Yahya, A.
& Ibrahim, Z. 2014. Decolorization of palm oil mill effluent using growing
cultures of Curvularia clavata. Environmental
Science and Pollution Research 21(6): 4397-4408.
Nik Sulaiman, N.M. & Chea, K.L. 2004.
Membrane ultrafiltration of treated palm oil mill effluent (POME). Jurnal
Teknologi 41(1): 113-120.
Othman, M.R., Hassan, M.A., Shirai, Y.,
Baharuddin, A.S., Ali, A.A.M. & Idris, J. 2014. Treatment of effluents from
palm oil mill process to achieve river water quality for reuse as recycled
water in a zero emission system. Journal of Cleaner Production 67:
58-61.
Pereira, M.C., Oliveira, L.C.A. &
Murad, E. 2012. Iron oxide catalysts: Fenton and fentonlike reactions-A review. Clay Minerals 47(3): 285-302.
Saeed, M.O., Azizli, K., Isa, M.H. &
Bashir, M.J.K. 2015. Application of CCD in RSM to obtain optimize treatment of
POME using Fenton oxidation process. Journal of Water Process Engineering 8: e7-e16.
Sajab, M.S., Chia, C.H., Zakaria, S. &
Sillanpää, M. 2014. Fixed-bed column studies for the removal of cationic and
anionic dyes by chemically modified oil palm empty fruit bunch fibers: Single-
and multi-solute systems. Desalination and Water Treatment 3994(8): 1-8.
Wu, T.Y., Mohammad, A.W., Jahim, J.M. &
Anuar, N. 2010. Pollution control technologies for the treatment of palm oil
mill effluent (POME) through end-of-pipe processes. Journal of Environmental
Management 91(7): 1467-1490.
Zhang Qing, Fu Shiyu, Li Hailong & Liu, Y. 2013. A novel method
for the determination of hydrogen peroxide in bleaching effluents by
spectrocopy. Bioresources 8(3): 3699-3705.
*Pengarang untuk surat-menyurat; email: chia@ukm.edu.my
|
|||
|
