Sains Malaysiana 46(8)(2017): 1201–1210

http://dx.doi.org/10.17576/jsm-2017-4608-05

 

Analisis Prestasi Nutrien Pengkomposan Sisa Industri Sawit bagi Skala Industri dalam Tempoh Tiga Tahun

(Nutrient Performance Analysis for Industrial Scale Palm Oil Mill Waste Composting in Three-Years Time)

 

 

ASIS, T1., ZAHRIM, A.Y.2* & ASSIS, K.3

 

1Prestige Central Management Sdn Bhd, 73M, 73A & 77B, Jalan SS21/37, Damansara Utama, 47400 Petaling Jaya, Selangor Darul Ehsan, Malaysia

 

2Fakulti Kejuruteraan, Universiti Malaysia Sabah, Jalan UMS, 88400 Kota Kinabalu, Sabah Negeri di Bawah Bayu, Malaysia

 

3Fakulti Sains dan Sumber Alam, Universiti Malaysia Sabah, Jalan UMS, 88400 Kota Kinabalu, Sabah Negeri di Bawah Bayu, Malaysia

 

 

Diserahkan: 18 Mac 2016/Diterima: 1 Februari 2017

 

ABSTRAK

Pengkomposan tandan buah kosong (EFB) dan sisa efluen kilang (POME) merupakan pendekatan lestari bagi menukarkan EFB dan POME kepada baja kompos. Pengkomposan adalah satu proses biologi yang memerlukan pengawalan yang optimum agar nutrien yang terhasil adalah tinggi dan stabil. Cabaran utama yang dihadapi oleh industri kompos ialah untuk menghasilkan kompos yang bernutrien tinggi dan stabil. Objektif kajian ini ialah untuk menganalisis prestasi jangka panjang bagi loji kompos terpilih melalui kandungan nutrien kompos yang dihasilkan. Penyelidikan ini mengkaji prestasi tiga tahun bagi empat loji kompos di Malaysia iaitu loji kompos Merotai, loji kompos Binuang, loji kompos Tanah Merah dan loji kompos Elphil. Prestasi kandungan nutrien yang diambil kira termasuklah nitrogen, kalium, nisbah karbon kepada nitrogen, kandungan kelembapan dan agregat kompos. Sebanyak 1,465 set data nutrien dianalisis secara deskriptif. Secara keseluruhannya, prestasi kandungan nutrien kesemua loji kompos yang dikaji berjaya memenuhi keperluan minimum industri sawit. Namun terdapat kes kompos yang dihasilkan mengandungi nutrien kalium yang tidak mencapai keperluan minimum industri dan kandungan kelembapan kompos yang tinggi. Kesimpulannya, masih terdapat ruang untuk penambahbaikan dalam proses pengkomposan agar kompos yang dihasilkan mengandungi nutrien yang stabil dan memenuhi keperluan minimum industri.

 

Kata kunci: Kompos; nutrien; sisa efluen kilang; tandan buah kosong

 

ABSTRACT

Composting of empty fruit bunches (EFB) and palm oil mill effluent (POME) is a sustainable approach in converting waste into organic fertilizers. Composting is a biological process that requires optimal control in producing compost. The main challenge faced by the composting industry is to maintain final compost high nutrients. The objective of this study was to analyze the long-term performance of the selected composting plants based on the nutrient content of the final compost. Three years performance of four selected composting plants in Malaysia, namely Merotai composting plant, Binuang composting plant, Tanah Merah composting plant and also Elphil composting plant were analyzed. The nutrients content e.g. include nitrogen, potassium, carbon to nitrogen ratio; moisture content as well as compost aggregate, were considered. A total of 1,465 sets of data were analyzed descriptively. Overall, all the composting plants managed to produce composts with the nutrient content that meet the minimum requirements of oil palm plantation. But there are cases where the potassium content in the compost produced was not reaching the minimum requirements of the industry and also the moisture content of the compost produced was high. As conclusion, there is still room for improvement in the current composting process in order to produce compost where the nutrients can be maintained and meet the minimum requirements of the industry.

 

Keywords: Compost; empty fruit bunch; nutrients; palm oil mill effluent

RUJUKAN

 

Bakar, R.A., Darus, S.Z., Kulaseharan, S. & Jamaluddin, N. 2011. Effects of ten year application of empty fruit bunches in an oil palm plantation on soil chemical properties. Nutrient Cycling in Agroecosystems 89(3): 341-349.

Bhattacharyya, P., Chakrabarti, K., Chakraborty, A., Nayak, D.C., Tripathy, S. & Powell, M.A. 2007. Municipal waste compost as an alternative to cattle manure for supplying potassium to lowland rice. Chemosphere 66(9): 1789-1793.

Buron, M., Frappé, M., Erales, R., Mario, J. & Rivera, C. 2010. Composting of EFB and POME : Operational records compared to existing literature. In PORIM International Palm Oil Conference. pp. 1-8.

Doherty, W.O.S., Mousavioun, P. & Fellows, C.M. 2011. Value-adding to cellulosic ethanol: Lignin polymers. Industrial Crops and Products 33: 259-276.

Ethaib, S., Omar, R., Kamal, S.M.M. & Biak, D.R. 2015. Microwave-assisted pretreatment of lignocellulosic biomass: A review. Journal of Engineering Sciene and Technology (Special Issue on SOMCHE 2014 & RSCE 2014 Conference): 97-109.

Harmsen, P.F.H., Huijgen, W.J.J., Lopez, L.M.B. & Bakker, R.R.C. .2010. Literature Review of Physical and Chemical Pretreatment Processes for Lignocellulosic Biomass. Netherlands: Energy Research Centre of the Netherlands.

Ooi, H.S. 2011. Zero discharge composting of palm oil mill wastes. The Institution of Engineers, Malaysia 72(3): 51-55.

Jusoh, M.L.C., Manaf, L.A. & Latiff, P.A. 2013. Composting of rice straw with effective microorganisms (EM) and its influence on compost quality. Iranian Journal of Environmental Health Science & Engineering 10(1): 17. doi. org/10.1186/1735-2746-10-17.

Kavitha, B., Jothimani, P. & Rajannan, G. 2013. Empty fruit bunch-A potential organic manure for agriculture. International Journal of Science, Environment and Technology 2(5): 930-937.

Li, Y., Li, W., Liu, B., Wang, K., Su, C. & Wu, C. 2013. Ammonia emissions and biodegradation of organic carbon during sewage sludge composting with different extra carbon sources. International Biodeterioration and Biodegradation 85: 624-630.

Malakahmad, A., Lahin, F.A. & Yee, W. 2014. Biodegradation of high-strength palm oil mill effluent (POME) through anaerobes partitioning in an integrated baffled reactor inoculated with anaerobic pond sludge. Water, Air, and Soil Pollution 225: 1883.

Norhasmillah, A.H., Puah, C.W., Ibrahim, N.A., Baharuddin, A.S. & Choo, Y.M. 2013. Life cycle inventory of the commercial production of compost from oil palm biomass: A case study. Environment, Development and Sustainability 15(6): 1663- 1670.

Perez, J., Munoz-Dorado, J., Rubia, T.D.L. & Martinez, J. 2002. Biodegradation and biological treatments of cellulose, hemicellulose and lignin: An overview. Int. Microbiol. 5(2): 53-63.

Schuchardt, F. & Stichnothe, H. 2008. Zero waste process for palm oil mills by composting and biological drying. In Manure and Organic Residues Management Approaches in Non- European Countries. http://www.academia.edu/3742257/ Manure_and_organic_residues_management_approaches_ in_non-European_countries_SLURRY_MANAGEMENT_ IN_DAIRY_GRAZING_FARMS_IN_SOUTH_AMERICAN_ COUNTRIES

Singh, R.P., Ibrahim, M.H., Esa, N. & Iliyana, M.S. 2010. Composting of waste from palm oil mill: A sustainable waste management practice. Reviews in Environmental Science and Biotechnology 9(4): 331-344.

Veijalainen, A.M., Juntunen, M.L., Lilja, A., Heinonen-Tanski, H. & Tervo, L. 2007. Forest nursery waste composting in windrows with or without horse manure or urea - The composting process and nutrient leaching. Silva Fennica41(1): 13-27.

Wu, T.Y., Mohammad, A.W., Jahim, J.M. & Anuar, N. 2009. A holistic approach to managing palm oil mill effluent (POME): Biotechnological advances in the sustainable reuse of POME. Biotechnology Advances 27(1): 40-52.

Yan, Z., Song, Z., Li, D., Yuan, Y., Liu, X. & Zheng, T. 2015. The effects of initial substrate concentration, C/N ratio, and temperature on solid-state anaerobic digestion from composting rice straw. Bioresource Technology 177: 266-273.

Zahrim, A.Y. 2005. Pengkomposan enapcemar perawatan air sisa industri. Tesis Sarjana. Universiti Kebangsaan Malaysia (tidak diterbitkan).

Zahrim, A.Y. & Asis, T. 2010. Production of non shredded empty fruit bunch semi-compost. The Institution of Engineers, Malaysia 71(4): 11-17.

Zahrim, A.Y., Asis, T., Hashim, M.A., Al-Mizi, T.M.A.T.M. & Ravindra, P. 2015. A review on empty fruit bunch composting: Life cycle analysis and the effect of amendment(s). In Advance in Bioprocess Technology, edited by Ravindra, P. Cham: Springer. pp. 3-15. doi.org/10.1007/978-3-319- 17915-5_1.

Zainudin, M.H.M., Hassan, M.A., Tokura, M. & Shirai, Y. 2013. Indigenous cellulolytic and hemicellulolytic bacteria enhanced rapid co-composting of lignocellulose oil palm empty fruit bunch with palm oil mill effluent anaerobic sludge. Bioresource Technology 147: 632-635.

 

 

*Pengarang untuk surat-menyurat; email: asis.tahang@gmail.com

 

 

 

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