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All issues Volume 143 (2024) BIO Web Conf., 143 (2024) 03006 References
Open Access
Issue
BIO Web Conf.
Volume 143, 2024
The 5th International Conference on Bioenergy and Environmentally Sustainable Agriculture Technology (ICoN-BEAT 2024)
Article Number 03006
Number of page(s) 14
Section Food Science
DOI https://doi.org/10.1051/bioconf/202414303006
Published online 25 November 2024
  • D. Pranowo, M. Herman, Syafaruddin, Potential development of Kemiri Sunan (Reutealis trisperma (blanco) airy shaw) on degraded land, Perspektif, 14(2), 87–101 (2015). [Google Scholar]
  • E.R. Sasmita, E.B. Irawati, A. Suryawati, Cultivation of Kemiri Sunan, LPPM UPN Veteran Yogyakarta, Special Region of Yogyakarta, 76 (2019). [Google Scholar]
  • Syafaruddin, A. Wahyudi, Potential of superior varieties of Kemiri Sunan as a source of biofuel energy, Perspektif, 11(1), 59–67 (2012). [Google Scholar]
  • S. Supriyadi, P. Purwanto, H. Hermawan, D.D. Anggoro, C. Carsoni, A. Mukhtar, Characteristics of Kemiri Sunan biodiesel processed through a one-stage transesterification process, INCRID, IOP Conf. Series: Earth and Environmental Science, 623, 012101 (2021). [CrossRef] [Google Scholar]
  • N.S. Djenar, N. Lintang, Esterification of Kemiri Sunan (Aleurites trisperma) oil in biodiesel production, bionatura. Journal of Life and Physical Sciences, 14(3), 215–221 (2012). [Google Scholar]
  • Haryono, Y.B. Yuliyati, A.R. Noviyanti, M. Rizal, S. Nurjanah, Characterization of Biodiesel from Kemiri sunan oil with silica-impregnated calcium oxide (CaO/SiO2) as a heterogeneous catalyst, Journal of Forest Product Research, 38(1), 11–24 (2020). [Google Scholar]
  • Aunillah, D. Pranowo, Characteristics of Kemiri Sunan biodiesel using a two-stage transesterification process, RISTRI Bulletin, 3(3), 193–200 (2012). [Google Scholar]
  • G. Garusti, A.D. Khuluq, J. Hartono, P.D. Riajaya, R.D. Purwati, Characteristics of Kemiri sunan Biodiesel with naoh and koh catalysts, tobacco, fiber, and industrial oil crops bulletin, 12(2), 78–85 (2020). DOI: 10.21082/btsm.v12n2. [Google Scholar]
  • Joelianingsih, F.R. Nur, M.E. Saputri, I.S. Purwaningsih, Non-Catalytic biodiesel synthesis from Kemiri sunan oil in a semi-batch bubble column reactor, Reaktor, 21(3), 95–102 (2021). [CrossRef] [Google Scholar]
  • M.Y. Ritonga, M.R.R. Giovani, Methyl ester production from Kemiri sunan oil using acetone co-solvent and calcined sodium silicate as a heterogeneous catalyst, Chemical Engineering Journal, 5(3), 17–23 (2016). [Google Scholar]
  • M. Zaki, T.M. Asnawi, H. Husin, S. Ramli, Sofyana, F. Hasfita, J.A. Karo Karo, Transesterification of Kemiri sunan oil into Biodiesel using k2o/c solid catalyst, Industrial Research and Development Journal, 10(2), 83–88 (2020). 10.24960/jli.v10i2.6143.83-88. [Google Scholar]
  • Puspita, B. Santoso, S. Kurniawan, The effect of Kemiri sunan leaf compost on entisol soil fertility. Soil and Land Resource Journal, 10(1), 105–111 (2023). 10.21776/Ub.Jtsl.2023.010.1.11. [Google Scholar]
  • N. Heryana, Usman, Rusli, Organic fertilizer production from Kemiri Sunan oil cake, spices and industrial crops research center. Kemiri Sunan: A Simple Solution for Future Biofuel Energy, 127–130 (2019). [Google Scholar]
  • J. Sulistyo, B. Gunawan, Testing SBE-based biovigorant from bioprocess as a soil amendment. Agritepa: Journal of Agricultural Science and Technology, 9(2), 385–402 (2022). [Google Scholar]
  • J. Sulistyo, I.C. Dewi, A. Oktavio, Training on bioactivator innovation for enhancing organic food quality based on organic farming systems. I-Com: Indonesian Community Journal, 4(2) (2024). [Google Scholar]
  • T. Yasinta, M. Karuniasa, palm oil-based biofuels and sustainability in Indonesia: assessing social, environmental, and economic aspects, iop conf. series: earth and environmental science, JESSD Symposium, 716(1) (2020). [Google Scholar]
  • M.F.M.A. Zamri, J. Milano, A.H. Shamsuddin, M.E.M. Roslan, S.F. Salleh, A.A. Rahman, R. Bahru, I.M.R. Fattah, T.M.I. Mahlia, Overview of palm oil biomass for decarbonization in Malaysia’s power generation sector: progress, challenges, and prospects, wires energy and environment. Advanced Review, e437 (2022). 10.1002/wene.437. [CrossRef] [Google Scholar]
  • T.T.D. Raoul, S.B.L. Ngomadé, N.G. Ndifor-Angwafor, K.N.P. Alain, N.K. Tchoumboué, R.D.N. Tegaboue, I-H.T. Kuete, A. Bopda, S.G. Anagho, Biodiesel production via transesterification of waste cooking oil. Chemical Science International Journal. 29(5), 1–12 (2020). 10.9734/CSJI/2020/v29i530176. [Google Scholar]
  • H.M. Rachimoellah, D.A. Resti, A. Zibbeni, I-W. Susila, Biodiesel production from avocado (Persea gratissima) seed oil using a base catalyst, Mechanical Engineering Journal. 11(2), 85–90 (2009). [Google Scholar]
  • E.A. Saputro, A. Rizaldi, T. Simamora, N.K. Erliyanti, Rachmad, R. Yogaswara, Biodiesel production technology from used cooking oil: a review, iptek. The Journal of Technology and Science, 33(1) (2022). 10.12962/j20882033.v33i1.11729. [Google Scholar]
  • M. Herman, B. Hafif, Y. Ferry, A. Aunillah, N.K. Firdaus, D. Listyati, D. Pranowo, Prospect of Kemiri Sunan development as a source of bio-oil from non-edible crops, E3S Web of Conferences ISEPROLOCAL. 373, 04017 (2023). 10.1051/e3sconf/202337304017. [CrossRef] [EDP Sciences] [Google Scholar]
  • S. Indrayani, Nuriyanah, L. Nurjanah, H. Wibowo, D. Priadi, Compost production from organic waste using bioactivators and its application on celery (Apium graveolens L.) plants, Environmental Science Journal. 19(2), 479–484 (2021). [Google Scholar]
  • E.A. Wikurendra, G. Nurika, N. Herdiani, Y.T. Lukiyono, evaluation of commercial and traditional bio-activators for composting using the takakura method. Journal of Ecological Engineering. 23(6), 278–285 (2022). 10.12911/22998993/149303. [CrossRef] [Google Scholar]
  • F. Walpajri, F.W. Siregar, A.N. Ilyosa, M. Wiyaga, Effectiveness of different bioactivators in accelerating composting and improving compost quality. International Journal of Progressive Sciences and Technologies (IJPSAT). 36(2), 630–636 (2023). [Google Scholar]
  • Suryawati, E.B. Irawati, E.R. Sasmita, Kemiri Sunan plant development for energy security support, International Conference on Green Agro-Industry Proceedings, 4, 314–321 (2020). [Google Scholar]
  • P.N. Fitri, S. Nurjanah, A. Widyasanti, Purification and characterization of glycerol from Kemiri Sunan biodiesel production byproducts, National Symposium on Multidisciplinary Research and Community Service UMT. 1 (2019). 10.31000/sinamu.v1i0.2145. [Google Scholar]
  • S. Maimunah, S.A. Rahman, H. Baral, Restoring land and growing renewable energy: opportunities, challenges, and future steps. Journal of Indonesian Agricultural Science (JIPI). 26(3), 334–342 (2021). 10.18343/jipi.26.3.334. [Google Scholar]
  • S. Supriatna, D. Susiloningtyas, N. Firdaus, Spatial sustainability model for Kemiri Sunan crop in Pongkor Mining Area. AIP Conference Proceedings (ISCPMS2017). 1, 020177 (2023). 10.1063/1.5064174. [Google Scholar]
  • H. Prabowo, J. Damaiyani, Evaluation of Kemiri Sunan oil nanoemulsion as an insecticide against planococcus minor (Hemiptera: Pseudococcidae). Journal of Physics: Conference Series, IOP Publishing. 1363, 012006 (2019). 10.1088/17426596/1363/1/012006. [CrossRef] [Google Scholar]
  • Datta, A. Ghosh, A. Acharjee, A. Rakshit, B. Saha, Overview of the biodiesel Market. Vietnam Journal of Chemistry. 59(3), 271–284 (2021). 10.1002/vjch.202000206. [CrossRef] [Google Scholar]

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