Available at: https://finance.detik.com/energi/d-3937184/arcandra- bicara-cadangan-minyak-ri-menipis

(1)

REFERENCES

Hambali, E. and Rivai, M. (2017) ‘The potential of palm oil waste biomass in Indonesia in 2020 and 2030’, in IOP Conference Series: Earth and Environmental Science. IOP Publishing, p. 12050.

Hamdani, T. (2019). Arcandra Bicara Cadangan Minyak RI Menipis. [online]

detikfinance. Available at: https://finance.detik.com/energi/d-3937184/arcandra- bicara-cadangan-minyak-ri-menipis.

Sugiawan, Y. and Managi, S. (2019) ‘New evidence of energy-growth nexus from inclusive wealth’, Renewable and Sustainable Energy Reviews. Elsevier, 103, pp. 40–

48.

Taherzadeh, M. J. and Karimi, K. (2008) ‘Pretreatment of lignocellulosic wastes to improve ethanol and biogas production: a review’, International journal of molecular sciences. Molecular Diversity Preservation International, 9(9), pp. 1621–1651.

Zafar, S. (2014) ‘Importance of biomass energy’, BioEnergy Consult.

Mad Saad, M. E., Farah Amani, A. H. and Lee, C. K., 2016. Optimization of bioethanol production process using oil palm frond juice as substrate. Malaysian Journal of Microbiology,.

Kumneadklang, S., Larpkiattaworn, S., Niyasom, C. and O-Thong, S., 2015. Bioethanol Production from Oil Palm Frond by Simultaneous Saccharification and Fermentation.

Energy Procedia, 79, pp.784-790.

Srimachai, T., Nuithitikul, K., O-thong, S., Kongjan, P. and Panpong, K., 2015.

Optimization and Kinetic Modeling of Ethanol Production from Oil Palm Frond Juice in Batch Fermentation. Energy Procedia, 79, pp.111-118.

Abdullah, S., Shirai, Y., Bahrin, E. and Hassan, M., 2015. Fresh oil palm frond juice as a renewable, non-food, non-cellulosic and complete medium for direct bioethanol production.

IndustrialCropsandProducts, 63, pp.357-361.

Hossain, N. and Jalil, R., 2016. Sugar and Bioethanol Production from Oil Palm Trunk (OPT). Asia Pacific Journal of Energy and Environment, 3(1), pp.39-42.

(2)

Lim, S., Ibrahim, D. and Che Omar, I., 2013. Effect of Physical Parameters on Second Generation Bio-Ethanol Production from Oil Palm Frond by Saccharomyces cerevisiae.

BioResources, 8(1).

Roslan, A., 2014. Oil Palm Frond Petiole Conversion into Biosugars and Bioethanol.

Zahari, M., Zakaria, M., Ariffin, H., Mokhtar, M., Salihon, J., Shirai, Y. and Hassan, M., 2012. Renewable sugars from oil palm frond juice as an alternative novel fermentation feedstock for value-added products. Bioresource Technology, 110, pp.566-571.

Zani, S., Asri, F., Azmi, N., Yussof, H. and Zahari, M., 2019. Optimization of process parameters for bioethanol production from oil palm frond juice by Saccharomyces cerevisiae using response surface methodology as a tool. IOP Conference Series:

Materials Science and Engineering, 702, p.012003.

Norhazimah, A. and Faizal, C., 2014. Bioconversion of Oil Palm Trunks Sap to Bioethanol by Different Strains and Co-Cultures at Different Temperatures. Journal of Medical and Bioengineering, pp.297-300.

Triwahyuni, E., Hariyanti, S., Dahnum, D., Nurdin, M. and Abimanyu, H., 2015.

Optimization of Saccharification and Fermentation Process in Bioethanol Production from Oil Palm Fronds. Procedia Chemistry, 16, pp.141-148.

Eom, I., Yu, J., Jung, C. and Hong, K., 2015. Efficient ethanol production from dried oil palm trunk treated by hydrothermolysis and subsequent enzymatic hydrolysis.

Biotechnology for Biofuels, 8(1).

Tran, T., Le, T., Mai, T. and Nguyen, D., 2019. Bioethanol Production from Lignocellulosic Biomass.

Rizal, N., Ibrahim, M., Zakaria, M., Abd-Aziz, S., Yee, P. and Hassan, M., 2018. Pre- treatment of Oil Palm Biomass for Fermentable Sugars Production. Molecules, 23(6), p.1381.

Mohd YUSOF, S., Roslan, A., Ibrahim, K., Syed ABDULLAH, S., Zakaria, M., Hassan, M. and Shirai, Y., 2019. Life Cycle Assessment for Bioethanol Production from Oil Palm Frond Juice in an Oil Palm Based Biorefinery. Sustainability, 11(24), p.6928.

Abdul Hamid, Z., Arai, T., Sitti Fatimah, M., Kosugi, A., Sulaiman, O., Hashim, R., Nirasawa, S., Ryohei, T., Lokesh, B., Sudesh, K., Murata, Y., Saito, M. and Mori, Y., 2015. Analysis of Free Sugar and Starch in Oil Palm Trunks (Elaeis Guineensis Jacq.)

(3)

from Various Cultivars as a Feedstock for Bioethanol Production. International Journal of Green Energy, p.150218144136008.

Miao, C., 2014. Study on Bioethanol Production by using Oil Palm Trunk (OPT) Sap.

Hossain, N., Haji Zaini, J. and Mahlia, T., 2017. A Review of Bioethanol Production from Plant-based Waste Biomass by Yeast Fermentation. International Journal of Technology, 8(1), p.5.

C.K, C., Hani, H. and Ismal, K., 2007. Production of Bioethanol From Oil Palm Empty Fruit Bunch. ICoSM2007.

Fatriasari, W., Raniya, R., Oktaviani, M. and Hermiati, E., 2018. The Improvement of Sugar and Bioethanol Production of Oil Palm Empty Fruit Bunches (Elaeis guineensis Jacq) through Microwave-Assisted Maleic Acid Pretreatment. BioResources, 13(2).

Sudiyani, Y. and Hermiati, E., 2010. Utilization of Oil Palm Empty Fruit Bunch (OPEFB) for Bioethanol Production through Alkali and Dilute Acid Pretreatment and Simultaneous Saccharification and Fermentation.Indonesian Journal of Chemistry, 10(2), pp.261-267.

Bukhari, N., Bakar, N. and Loh, S., 2014. Bioethanol Production by Fermentation of Oil Palm Empty Fruit Bunches Pretreated with Combined Chemicals.

Yano, S., Murakami, K., Sawayama, S., Imou, K. and Yokoyama, S., 2009. Ethanol Production Potential from Oil Palm Empty Fruit Bunches in Southeast Asian Countries Considering Xylose Utilization. Journal of the Japan Institute of Energy, 88(10), pp.923-926.

Kusmiyati, Maryanto, D., Sonifa, R., Aji Kurniawan, S. and Hadiyanto, H., 2018.

Pretreatment of Starch-Free Sugar Palm Trunk (Arenga pinnata) to Enhance Saccharification in Bioethanol Production. MATEC Web of Conferences, 156, p.01003.

Paltseva, J., Searle, S. and Malins, C., 2016. Potential for Advanced Biofuel Production from Palm Residues in Indonesia.

Yusof, S., Roslan, A., Ibrahim, K., Abdullah, S., Zakaria, M., Hassan, M. and Shirai, Y., 2018. Environmental performance of bioethanol production from oil palm frond petiole sugars in an integrated palm biomass biorefinery. IOP Conference Series:

Materials Science and Engineering, 368, p.012004.

Goh, C., Tan, H. and Lee, K., 2012. Pretreatment of oil palm frond using hot compressed water: An evaluation of compositional changes and pulp digestibility using severity factors. Bioresource Technology, 110, pp.662-669.

(4)

Zakaria, M., Hirata, S., Fujimoto, S. and Hassan, M., 2015. Combined pretreatment with hot compressed water and wet disk milling opened up oil palm biomass structure resulting in enhanced enzymatic digestibility. Bioresource Technology, 193, pp.128- 134.

Hermiati, E., Anita, S., Risanto, L., Styarini, D., Sudiyani, Y., Hanafi, A. and Abimanyu, H., 2013. Biological Pretreatment of Oil Palm Frond Fiber Using White- Rot Fungi for Enzymatic Saccharification. MAKARA Journal of Technology Series, 17(1).

Darvishi, F. and Abolhasan Moghaddami, N., 2019. Optimization of an Industrial Medium from Molasses for Bioethanol Production Using the Taguchi Statistical Experimental-Design Method. Fermentation, 5(1), p.14.

Borrion, A.L.; McManus, M.C.; Hammond, G.P. Environmental life cycle assessment of lignocellulosic conversion to ethanol: A review. Renew. Sustain. Energy Rev. 2012, 16, 4638–4650.  

Salari, R. and Salari, R., 2017. Investigation of the Best Saccharomyces cerevisiae Growth Condition. Electronic physician, 9(1), pp.3592-3597.

Narendranath, N. and Power, R., 2005. Relationship between pH and Medium Dissolved Solids in Terms of Growth and Metabolism of Lactobacilli and Saccharomyces cerevisiae during Ethanol Production. Applied and Environmental Microbiology, 71(5), pp.2239-2243.

Walsh, R.M., and Martin, P.A. 1977. Growth of Saccharomyces cerevisiae and Saccharomyces uvarum in a temperature gradient incubator. Journal of the Institute of Brewing, 83: 169- 172

Zentou, H., Abidin, Z. Z., Zouanti, M., & Greetham, D. (2017). Effect of Operating Conditions on Molasses Fermentation for Bioethanol Production. International Journal of Applied Engineering Research, 12(15), 5202-5206

Rager, A., 2009. The Importance Of Fermentation Temperature. https://www.bacchus- barleycorn.com/catalog/article_info.php?articles_id=60.].

Investments, I. (2019). Palm Oil Industry in Indonesia - CPO Production & Export | Indonesia Investments. Indonesia-investments.com. Available at:

https://www.indonesia-investments.com/business/commodities/palm-oil/item166.

Bisnis.com. (2019). Produksi Minyak Sawit Indonesia Tumbuh 14 Persen | Ekonomi -

Bisnis.com. Available at:

https://ekonomi.bisnis.com/read/20191017/99/1160433/produksi-minyak-sawit- indonesia-tumbuh-14-persen.

(5)

BPDP Sawit. (2019). Potensi Limbah Kelapa Sawit Indonesia - BPDP Sawit. Available at: https://www.bpdp.or.id/id/sawit-berkelanjutan/potensi-limbah-kelapa-sawit- indonesia.

Indonesian Palm Oil Association (GAPKI IPOA). (2019). Inovasi Pengolahan Limbah Kelapa Sawit : Bioplastik Berbasis Minyak & Biomassa Sawit | Indonesian Palm Oil Association (GAPKI IPOA). Available at: https://gapki.id/news/5228/inovasi- pengolahan-limbah-kelapa-sawit-bioplastik-berbasis-minyak-biomassa-sawit.

Energypedia.info. (2019). Indonesia Energy Situation - energypedia.info. Available at:

https://energypedia.info/wiki/Indonesia_Energy_Situation.

Carbon…, G., 2020. Glucose & Sucrose Fermentation: Carbon Dioxide Production Lab Answers. SchoolWorkHelper. Available at: https://schoolworkhelper.net/glucose- sucrose-fermentation-carbon-dioxide-production/