Open Access
E3S Web Conf.
Volume 67, 2018
The 3rd International Tropical Renewable Energy Conference “Sustainable Development of Tropical Renewable Energy” (i-TREC 2018)
Article Number 02038
Number of page(s) 9
Section Bioenergy
Published online 26 November 2018
  1. E. Hambali, Rivai, “The Potential of Palm Oil Waste Biomass in Indonesia in 2020 and 2030 The Potential of Palm Oil Waste Biomass in Indonesia in 2020 and 2030,” IOP Conf. Ser. Earth Enviromental Sci., vol. 65, no. 012050, 2017. [Google Scholar]
  2. P. Manajemen, T. Pengolahan, L. Cair, P. Kelapa, and R. C. Npm, “Limbah Cair Sebagai Bahan Baku Pembangkit Listrik Kelapa sawit (Elaeis)” pp. 1–13, 2014. [Google Scholar]
  3. Hidayat, A., Mukti, N.I.F., Handoko, B., Sutrisno, B., 2018. Biodiesel Production from Rice Bran Oil over Modified Natural Zeolite Catalyst. International Journal of Technology. Volume 9(2), pp. 400–411. [CrossRef] [Google Scholar]
  4. Nur, S. M., and J. Jusri. Übah Paradigma Agroindustri Sawit Menuju Energi Terbarukan, 2014. [Google Scholar]
  5. M. A. Ngan, Y. Tajima, M. Asahi, and J. Hanif, “A novel treatment for palm oil mill effluent,” Palm Oil Res Inst Malaysia (PORIM) Technology, vol. 19. pp. 1–8, 1996. [Google Scholar]
  6. M. Lingkungan and H. Republik, “Salinan - 1 -,” pp. 1–83, 2014. [Google Scholar]
  7. A. L. Ahmad, C. Y. Chan, S. R. Abd Shukor, and M. D. Mashitah, “Recovery of oil and carotenes from palm oil mill effluent (POME),” Chem. Eng. J., vol. 141, no. 1-3, pp. 383–386, 2008. [Google Scholar]
  8. S. R. Putri Primandari, Z. Yaakob, M. Mohammad, and A. B. Mohamad, “Characteristics of residual oil extracted from palm oil mill effluent (POME),” World Appl. Sci. J., vol. 27, no. 11, pp. 1482–1484, 2013. [Google Scholar]
  9. A. Hayyan, M. A. Hashim, and M. Hayyan, “Application of a Novel Catalyst in the Esterification of Mixed Industrial Palm Oil for Biodiesel Production,” Bioenergy Res., vol. 8, no. 1, pp. 459–463, 2015. [Google Scholar]
  10. A. Sundaryono, “Karakteristik Biodiesel dan Blending Biodiesel dari Oil Losses Limbah Cair Pabrik Minyak Kelapa Sawit,” vol. 2041, 2010. [Google Scholar]
  11. A. Hayyan et al., “Reduction of high content of free fatty acid in sludge palm oil via acid catalyst for biodiesel production,” Fuel Process. Technol., vol. 92, no. 5, pp. 920–924, 2011. [CrossRef] [Google Scholar]
  12. A. Hayyan, M. Z. Alam, and S. Mirghani, M E S., Kabbashi, N A., Hakimi, N I N M., Siran, Y M., Tahiruddin, “Production of Biodiesel from Sludge Palm Oil by Esterification Process,” Energy power Eng., vol. 4, no. 1, pp. 11–17, 2010. [Google Scholar]
  13. A. Hayyan et al., “Sludge palm oil as a renewable raw material for biodiesel production by two-step processes,” Bioresour. Technol., vol. 101, no. 20, pp. 7804–7811, 2010. [Google Scholar]
  14. Z. Mohamad and W. J. Yahya, “Biofuels from an Esterification of Sludge Palm Oil as an Alternative to Residual Oil,” Adv. Mater. Res., vol. 512-515, pp. 1858–1861, 2012. [CrossRef] [Google Scholar]
  15. R. R. Nasaruddin, M. Z. Alam, and M. S. Jami, “Evaluation of solvent system for the enzymatic synthesis of ethanol-based biodiesel from sludge palm oil (SPO),” Bioresour. Technol., vol. 154, pp. 155–161, 2014. [Google Scholar]
  16. “Penggunaan n-heksana Sebagai Pelarut Untuk Memisahkan Minyak Sawit dari Sludge Heavy Phase Menggunakan Metode Estraksi Cair Cair”. [Google Scholar]
  17. A. L. Ahmad, K. Sithamparam, M. M. D. Zulkali, S. Ismail, E. Campus, and S. Ampangan, “Extraction of Residue Oil From Palm Oil Mill Effluent (Pome) Using Organic Solvent,” vol. 20, pp. 385–394, 2003. [Google Scholar]
  18. J. DeRuiter, “Carboxylic Acid Structure and Chemistry: Part 1,” Princ. Drug Action 1, pp. 1–11, 2005. [Google Scholar]
  19. N. Erinda, “Universitas Sumatera Utara,” pp. 1–2, 2011. [Google Scholar]
  20. University of California, “IR Spectra: Tricks for Identifying the 5 Zones,” pp. 1–7, 2013. [Google Scholar]
  21. M. J. Mohammad Rusan, S. Hinnawi, and L. Rousan, “Long term effect of wastewater irrigation of forage crops on soil and plant quality parameters,” Desalination, vol. 215, no. 1-3, pp. 143–152, 2007. [CrossRef] [Google Scholar]
  22. Unknown, “Biological Oxygen Demand (BOD) - Overview,” pp. 3–21, 1988. [Google Scholar]
  23. J. D. Bala, J. Lalung, and N. Ismail, “Palm Oil Mill Effluent (POME) Treatment '“Microbial Communities in an Anaerobic Digester”': A Review,” Int. J. Sci. Res. Publ., vol. 4, no. 6, pp. 1–24, 2014. [Google Scholar]
  24. T. J. K. Ideriah, P. U. Adiukwu, and H. Stanley, “Medwell Journals, 2007,” pp. 842–845, 2007. [Google Scholar]
  25. A. Lestari, A. Ahmad, and I. Zahrina, “Penyisihan Chemical Oxygen Demand (COD) Limbah Cair,” 1995. [Google Scholar]
  26. M. E. Pome, I. Mob, and H. Sbi, “Waste management: bio-fuel recovery from palm oil mill effluent (pome),” 2013. [Google Scholar]
  27. M. M. Zamberi and R. Ayob, “Experimental Study on Low Cost Biodiesel Production Alkaline Based Catalysts by Using Frying Oil,” J. Eng. Technol., vol. 2, no. June, pp. 55–66, 2011. [Google Scholar]
  28. “Bioconversion energy,” Fuel Energy Abstr., vol. 43, no. 5, pp. 331–335, 2002. [CrossRef] [Google Scholar]
  29. T. Haryati, Y. B. Che Man, A. Asbi, H. M. Ghazali, and L. Buana, “Determination of iodine value of palm oil by differential scanning calorimetry,” J. Am. Oil Chem. Soc., vol. 74, no. 8, pp. 939–942, 1997. [Google Scholar]
  30. J. Methyl, B. Ester, and H. Prasutiyon, “Pengaruh Angka Iodin Terhadap Ketahanan Komponen-Komponen Utama Motor Diesel Dengan Bahan Bakar,” 2017. [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.