The Effect Of Temperature and Time on Hydrolisis of Palm Oil Empty Fruit Bunch and Its Enzymatically Biodegradation for Xylose Production

https://doi.org/10.22146/aij.v1i1.23266

Wisnu Adi Yulianto(1*), Dewa Made Krismanto Panji(2)

(1) Department of Agricultural Technology, Faculty of Agroindustry, Mercu Buana University, Indonesia
(2) Department of Agricultural Technology, Faculty of Agroindustry, Mercu Buana University, Indonesia
(*) Corresponding Author

Abstract


The acid hydrolysis and the heating of lignocellulosic waste from palm oil mills have caused irreversible damage to the natural environment and can create inhibitor compounds on hydrolysis, making the waste improper for fermentation media. In this study, an environmentally save hydrolysis was tested by heating it under high temperature which followed by enzymatic degradation. The objective of the present study was to determine the optimal reaction temperature and reaction time of hydrolysis for the production of xylose. Under the temperatures of 128 and 200°C with reactions time of 30, 45, and 60 min, the best result of hydrolysates were taken. Its hemicellulose, cellulose, lignin, water content (raw material), residual hemicellulose, reducing sugars, water content (hydrolysate) and xylose were analyzed. The results showed that the higher the temperature had resulted in the more reduction of sugar hydrolysis and the hemicellulose in the solid residue was slightly removed. Hydrolysis at the temperature of 200°C for 45 min had indicated a reduction of sugar yield of 17.71% (db). Biodegradation in enzymatic hydrolysis of xylose had increased by 113.79% at 24 -1.24 g xylose / 100 ml.

Keywords


Enzymatic; Hemicellulose; Palm oil empty fruit bunches; Xylose

Full Text:

PDF


References

AOAC, 1995. Official Standard of Analysis of OAC International, 16th edition AOAC International, Arlington, Virginia.

BPS, 2003. Statistik Indonesia 2002, Biro Pusat Statistik, Jakarta.

Candrakant, P., V.S. Bisaria, V.S., 1998. Simultaneous Bioconversion of Cellulose and Hemicellulose to Etanol. Crit. Rev. Biotechnol., 18 (4) : 295 – 231.

Datta, R., 1981. Acidogenic Fermentation of Lignocellulose Acid Yield and Conversion of Components. Biotechnol. Bioeng, 23 : 2167 – 2170.

Darnoko, M. Sari, D. Mangunwijaya, 1991. Pengaruh Konsntrasi Asam, Suhu dan Waktu Terhadap Hidrolisis Hemiselulosa Tandan Kosong Kelapa Sawit. Menara Perkebunan 58 (4), 115-121.

Dwivedi, B.K., 1992 Sorbitol and Mannitol. In Alternative Sweeterness, pp. 333-348. L.O. Nabors dan R.C. Gelardi (eds). New York: Marcel. Dekker.

Gumbira-Sa’id, E.1996. Penanganan dan Pemanfaatan Limbah Kelapa Sawit. Ungaran: Trubus Agriwidya.

Nunes A. P., J. Pourquie, 1995. Steam Explosion and Enzyimatic Hydrolysis of Eucalyptus Wood. Bioresource Technology 57:107-110.

Pratiwi, W., O. Atmawinata, R. Pujusunaryo, 1988. Pembuatan Pulp Kertas dari Tandan Kosong Kelapa Sawit dengan Proses Soda Antrakinon. Menara Perkebunan, 52 (2) : 48-52.

Rivas. B, J.M. Dominguez, H. Domingues, J.C. Parajo, 2002. Bioconversion of Posthydrolysed Authohydrolysis Liquors : An Alternative for Xylitol Production from Corn Cobs. Enzyme and Microbial Technology 31: 431-438.

Yulianto, W.A., N. Wesniati, R. Indrati, 2002. Preparasi Hidrolisat Tandan Kosong Kelapa Sawit Sebagai Media Fermentasi untuk Produksi Xilitol oleh Candida shehatae WAY 08. Seminar Nasional PATPI, Malang, D : 47-52.

Zhao J., L. Xuezhi, Q. Yinbo, P. Gao, 2002. Xylanase Pretreatment Leads to Enhanced Soda Pulping of Wheat Straw. Enzyme and Microbial Technology 30:734-740.



DOI: https://doi.org/10.22146/aij.v1i1.23266

Article Metrics

Abstract views : 1300 | views : 1761

Refbacks

  • There are currently no refbacks.


Copyright (c) 2017 Wisnu Adi Yulianto, Dewa Made Krismanto Panji

Creative Commons License
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.