CONVERSION OF PINEAPPLE PEEL GLUCOSE INTO BIOETHANOL USING SIMULTANEOUS SACCHARIFICATION AND FERMENTATION (SSF) METHOD AND SEPARATE HYDROLYSIS AND FERMENTATION (SHF) METHOD
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This study aims to determine the bioethanol yield and characteristics from pineapple peel with two methods such as Simultaneous Saccharification and Fermentation (SSF) and Separate Hydrolysis and Fermentation (SHF). The percent yield of bioethanol produced from the fermentation of pineapple peel (Ananas comosus) with the Simultaneous Saccharification and Fermentation method was 63.50%, while the yield of bioethanol from the Separate Hydrolysis and Fermentation method was 58.75%. The physical characteristics of bioethanol pineapple peel waste using Simultaneous Saccharification and Fermentation method has a density of 0.8237 w/v whilst with Separate Hydrolysis and Fermentation is 0.8858 w/v. Furthermore, viscosity of bioethanol using Simultaneous Saccharification and Fermentation is 1.05 Cp whereas using Separate Hydrolysis and Fermentation is 1.02 Cp. Pineapple peel bioethanol method of Simultaneous Saccharification and Fermentation has concentration of 13% while Separate Hydrolysis and Fermentation method has concentration of 7.92%. FTIR spectra from SHF bioethanol missing the peak correlated with CH, CH3, and CO. These missing peaks is due to the high percentage of water. Furthermore, bioethanol from SSF method showed peaks corresponding to CH, CH3, and CO functional groups. It can be concluded that SSF method give bioethanol with optimum result.
Amalia, Y., &; Rezeki Muria, S., 2014. Making Bioethanol from Sago Solid Waste Using Cellulase and Yeast Saccharomyces Cerevisiae Enzymes with Simultaneous Saccharificatian and Fermentation (SSF) Process with Variations in Substrate Concentration and Inoculum Volume. Online Journal of Students of the Faculty of Engineering, University of Riau, 1(1).
Anas Ibrahim, M., Hafizh Musyaffa, M., Heriyanto, H., & Haryadi, H., 2022. Purification Of Ethanol by Continuous Adsorption Method Using Zeolite 3a And Calcium Oxide. Journal of Research Chemistry, (Vol. 7, Issue 1).
Bahri, S., Aji, A., &; Yani, F., 2019. Making Bioethanol from Kepok Banana Peel by Fermentation using Baker's Yeast. Unimal Journal of Chemical Technology, 7(2).
Fachry, A. R., Astuti, P., &; Puspitasari, T. G., 2013. Making Bioethanol from Corn Cob Waste with Variations in Hydrochloric Acid Concentration and Fermentation Time. Journal of Chemical Engineering, 19(1).
Febriasari, A., Mujimi, A., Irawan, N., Candra, R., &; Arlofa, N., 2021. The Effect of Differences in Yeast Concentration (Saccharomyces cereviseae) on Ethanol Levels from Pineapple Honey Skin with SHF and SSF Methods. Journal of Chemtech Chemical Engineering, Serang Raya University (Vol. 7).
Harmi, A., 2019. Stability Test of Cocrystal Paracetamol and Citric Acid is influenced by various temperatures. Faithful University.
Jayus, J., Suwasono, S., Wijayanti, I., 2017. Bioethanol Production by SHF and SSF Using Aspergillus Niger, Trichoderma Viride and New Aule Instant Dry Yeast in Cassava Bark Media. Journal of Agrotechnology, (Vol. 11, Issue 01).
Kartika Widyastuti, F., Ayu Chandra Kartika Fitri, and, &; Juli, D., 2020. Comparison of SHF & SSF Process in Bioethanol Production from Kepok Banana Weevil. Proceedings of the National Seminar on Industrial, Environmental, and Infrastructure Technology, 3, C9.1-C9.4.
Kurniati, Y., Khasanah, I. E., & Firdaus, K., 2021. Study on Making Bioethanol from Pineapple Peel Waste (Ananas comosus. L). USU Journal of Chemical Engineering, 10(2), 95–101.
Muhammad Rijal, A. R. A. M., 2019. The effect of Saccharomyces cerevisiae concentration on the production of bioethanol made from corn stalks. Journal of Biology Science, 8(1), 59–70.
Novia, Wijaya, D., &; Yanti, P., 2017. The Effect of Delignification Time on Lignin and SSF Time on Ethanol Making Bioethanol from Rice Husks. Journal of Chemical Engineering, 23(1).
Nungky Villarul, T., Reni Yenti, S., Department of Chemical Engineering, M., & Department of Chemical Engineering, D., 2017. Purification of bioethanol fermented by Nirah Nipah using a distillation-adsorption process using CaO adsorbent. Journal of JOM FTEKNIK (Vol. 4).
Nuraini, A. I., &; Ratni, N., 2021. The influence of time and nutrients on the fermentation process of organic waste into bioethanol with the SSF method. Envirous Journal, (Vol. 1, Issue 2).
Princess, E. S., &; Supartono., 2015. Utilization of coconut bunch waste for the manufacture of bioethanol through hydrolysis and fermentation processes. Indonesian Journal of Chemical Science, 4(2).
Rahkadima, Y. T., & Fitri, M. A., 2022. The Effect of Chemical and Microwave Heating Treatment For Reducing Sugar Recovery. Journal of Research Chemistry, 7(1), 74–80.
Rahmah, Y., & Bahri, S., 2015. Fermentation of Nira Nipah Becomes Bioethanol Using Saccharomyces cerevisiae with the addition of Urea as a source of nitrogen. JOM FTEKNIK Journal, (Vol. 2, Issue 2).
Rajauddin Amin, R., Rodiyana Sova, R., Intan Laily, D., &; Kartika Maharani, D., 2020. Review article Study of Potential Tobacco Waste into Bio-Oil Using Fast-Pyrolysis Method as Renewable Energy. Journal of Research Chemistry, (Vol. 5, Issue 2).
Setyawati, H., & Rahman, N. A., 2017. Bioethanol From Pineapple Peel with Saccharomyces Cereviceae Mass and Fermentation Time Variation. Chemical engineering journals, 1-4.
Sudiyani, Y., &; Aiman, S., 2019. G2 Bioethanol Development: Technology and Perspectives. LIPI Press.
Zikri, I. A., 2023. Analysis of variations in NPK nutrient mixtures on bioethanol quality by utilizing fruit and vegetable waste. University of Muhammadiyah Sumatra.
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