Pengembangan Teknologi Konversi Biomassa Menjadi Bioetanol dan Bioproduk sebagai Substitusi Produk Berbahan Baku Fosil

Authors

Euis Hermiati

Keywords:

Konservasi Biomassa, Bioetanol dan Bioproduk

Synopsis

Dalam naskah orasi ini diuraikan kebutuhan akan bahan bakar dan bahan kimia yang semakin meningkat, sementara ketersediaan bahan bakunya yang berasal dari fosil semakin menipis. Oleh karena itu, diperlukan penelitian dan pengembangan teknologi konversi biomassa agar dihasilkan bahan bakar dan bioproduk untuk menyubstitusi bahan bakar dan bahan kimia asal fosil tersebut.

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References

Direktorat Jenderal Minyak dan Gas Bumi, Kementerian Energi dan Sumber Daya Mineral. http://statistik.migas.esdm.go.id/in- dex.php?r=konsumsiBbm/index; 2019.

Soetaert W, Vandamme EJ. Biofuels in perspectives. Dalam: Soetaert W, Vandamme EJ, editor. Biofuels. Hoboken: John Wi- ley & Sons, Ltd.; 2009. 1–8.

Humas EBTKE, Kementerian Energi dan Sumber Daya Mineral. Harga indeks pasar (HIP) bahan bakar nabati (BBN) bulan Ok- tober 2019 [Internet]; Terakhir diperbarui 17 September 2019. Tersedia di http://ebtke.esdm.go.id/post/2019/09/17/2339/harga. indeks.pasar.hip.bahan.bakar.nabati.bbn.bulan.oktober.2019.

Aiman S, Muryanto, Triwahyuni E. Perkembangan tekno- ekonomi dan kebijakan penggunaan bioetanol sebagai bahan bakar pada tataran global. Dalam: Sudiyani Y, Aiman S, Mansur D, editor. Perkembangan bioetanol G2: teknologi dan perspektif. Jakarta: LIPI Press; 2019. 255–297.

Fujita M, Harada H. Ultrastructure and formation of wood cell wall. Dalam: Hon DNS, Shiraishi N, editor. Wood and cellulosic chemistry. New York: Marcell Dekker, Inc.; 1991. 3–57.

Kovarik B. History of biofuels. Dalam: Sing BP, editor. Biofuel Crops: production, physiology and genetics. Wallingford: CABI Publishing; 2013. 1–22.

Bente, P. International bio-energy handbook. Washington, D.C.: The Bio-Energy Council; 1984.

Hermiati E, Mangunwidjaja D, Sunarti TC, Suparno O, Prasetya B. Pemanfaatan biomassa lignoselulosa ampas tebu untuk pro- duksi bioetanol. Jurnal Penelitian dan Pengembangan Pertanian 2010; 29(4): 121–130.

Fatriasari W, Hermiati E. Lignocellulosic biomass for biopro- duct: its potency and technology development. Journal of Ligno- cellulose Technology 2016; 1(1): 1–14.

Kapoor M, Semwal S, Gaur R, Kumar R, Gupta RP, Puri SK. The pretreatment technologies for deconstruction of lignocellu- losic biomass. Dalam: Singhania RR, Agarwal RA, Kumar RP, Sukumaran RK, editor. Waste to wealth (energy, environment, and sustainability). Singapore: Springer Nature Singapore Pte Ltd.; 2018. 395–421.

Saha BC, Iten LB, Cotta MA, Wu YV. Dilute acid pretreatment, enzymatic sacchari cation, and fermentation of rice hulls to ethanol. Biotechnology Progress 2005; 21: 816–822.

Sari FP, Solihat NN, Anita SH, Fitria, Hermiati E. Peningkatan produksi gula pereduksi dari tandan kosong kelapa sawit dengan praperlakuan asam organik pada reaktor bertekanan. Reaktor 2016; 16(4): 199–206.

Fatriasari W, Raniya R, Oktaviani M, Hermiati E. The improve- ment of sugar and bioethanol production of oil palm empty fruit bunches (Elaeis guineensis Jacq) through microwave-assisted maleic acid pretreatment. BioResources 2018; 13(2): 4378–4403.

Anita SH, Fitria, Solihat NN, Sari FP, Risanto L, Fatriasari W, Hermiati E. Optimization of microwave-assisted oxalic acid pre- treatment of oil palm empty fruit bunch for production of fer- mentable sugars. Waste and Biomass Valorization; 2019. https:// doi.org/10.1007/s12649-018-00566-w.

Agbor VB, Cicek N, Sparling R, Berlin A, Levin DB. Biomass pretreatment: fundamentals toward application. Biotechnology Advance 2011; 29(6): 675–685.

Hasan SS, Williams GA, Jaiswal AK. Emerging technologies for the pretreatment of lignocellulosic biomass. Bioresource Technology 2018; 262: 310–318.

Sun Y, Cheng J. Hydrolysis of lignocellulosic materials for ethanol production: A review. Bioresource Technology 2002; 83: 1–11.

Nguyen QA. Economic analyses of integrating a biomass- to-ethanol plant into a pulp/saw mill. Dalam: Saddler JN, editor. Bioconversion of forest and agricultural plant residues. Wallingford: CAB International; 1993. 321–340.

Fatriasari W, Adi DTN, Laksana RPB, Fajriutami T, Raniya R, Ghozali M, Hermiati E. The e ect of amphipilic lignin deriva- tives addition on enzymatic hydrolysis performance of kraft pulp from sorghum bagasse. IOP Conf. Series: Earth and Environ- mental Science 2018: 141 (2018) 012005.

Muller G, Chylenski P, Bissaro B, Eijsink VG, Horn SJ. The impact of hydrogen peroxide supply on LPMO activity and overall sacchari cation e ciency of a commercial cellulase cocktail. Biotechnology for Biofuels 2018; 11: 209.

Cardona CA, Sanchez OJ. Fuel ethanol production: process design trends and integration opportunities. Bioresource Technology 2007; 98: 2415–2457.

Hahn-Hagerdal B, Hallborn J, Jeppsson H, Olsson L, Skoog K, Walfridsson M. Pentose fermentation to alcohol. Dalam: Saddler JN, editor. Bioconversion of forest and agricultural plant residues. Wallingford: CAB International; 1993. 231–290.

Kuroda K, Ueda M. Arming technology in yeast-novel strategy for whole-cell biocatalyst and protein engineering. Biomolecules 2013; 3: 632–650.

de Jong E, Jungmeier G. Biore nery concepts in comparison to petrochemical re neries. Dalam: Pandey A, Hofer R, Taherzadeh M, Nampoothiri M, Laroche C, editor. Industrial Biore neries and white biotechnology. Amsterdam: Elsevier BV; 2015. 3–33.

Samsuri M, Prasetya B, Hermiati E, Idiyanti T, Okano K, Syaf- wina, Honda Y, Watanabe T. E ect of fungal treatments on eth- anol production from bagasse by simultaneous sacchari cation and fermentation. Proceedings of The Fifth International Wood Science Symposium. Kyoto, 17–19 September 2004: 317–323.

Ermawar RA, Yanto DHY, Fitria, Hermiati E. Biodegradation of lignin in rice straw pretreated by white-rot fungi. Widyariset 2006; 9(3): 197–202.

Fatriasari W, Anita SH, Falah F, Adi DTN, Hermiati E. Biopulping bambu betung menggunakan kultur campur jamur pelapuk putih (Trametes versicolor, Pleurotus ostreatus, dan Phanerochaete chrysosporium). Berita Selulosa 2010; 45(2): 44–56.

Falah F, Fatriasari W, Ermawar RAE, Adi DTN, Hermiati E. Corn steep liquor e ect on bamboo biochemical pulping using P. chrysosporium. Proceedings The 2nd International Symposium of Indonesian Wood Research Society. Bali, 12–13 November 2010: 464–476.

Anita SH, Hermiati E, Laksana RPB. Pengaruh perlakuan penda- huluan dengan kultur campuran jamur pelapuk putih (Phanero- chaete chrysosporium, Trametes versicolor, Pleurotus ostreatus) terhadap kadar lignin dan selulosa bagas. Jurnal Selulosa. 2011b; 1(2): 81–88.

Ermawar RA, Yanto DHY, Fitria, Hermiati E. Lignin degradation content in rice straw pretreated by white-rot fungi. Proceedings of the 6th International Wood Science Symposium. Denpasar, 29–31 Agustus 2005: 300–304.

Fitria, Ermawar RA, Fatriasari W, Fajriutami T, Yanto DHY, Falah F, Hermiati E. Biopulping of bamboo using white-rot fungi Schizophyllum commune. Proceedings The 2nd International Symposium for Sustainable Humanosphere. Bandung, 29 Agus- tus 2012; 2013: 8–13.

Fitria, Yanto DHY, Hermiati E. Pengaruh perlakuan pendahu- luan dengan jamur Trametes versicolor terhadap kadar lignin dan selulosa bagasse. Prosiding Seminar Nasional MAPEKI X, Pontianak, Kalimantan Barat, 9–11 Agustus 2007: 517–523.

Anita SH, Fajriutami T, Fitria, Ermawar RA, Yanto DHY, Hermiati E. Pretreatment Trametes versicolor dan Pleurotus ost- reatus pada bagas untuk produksi bioetanol. Teknologi Indonesia. 2011a; 34: 33–39.

HermiatiE,AnitaSH,RisantoL,StyariniD,SudiyaniY,Hana A, Abimanyu H. Biological pretreatment of oil palm frond ber using white-rot fungi for enzymatic sacchari cation. Makara Seri Teknologi. 2013; 17(1): 39–43.

Fatriasari W, Ermawar RA, Falah F, Yanto DHY, Adi DTN, Anita SH, Hermiati E. Kraft and soda pulping of white rot pretreated betung bamboo. Jurnal Ilmu dan Teknologi Kayu Tropis. 2011; 9(1): 42–55.

Ermawar RAE, Fajriutami T, Hermiati E. Viability testing of inocula of lignin degrading white-rot fungi using alkali-lignin medium. Proceedings of The 4th Indonesian Biotechnology Conference. Bogor, 5–7 Agustus 2008; 2009: 693–702.

Samsuri M, Prasetya B, Hermiati E, Idiyanti T, Okano K, Syafwina, Honda Y, Watanabe T. 2005. Pre-treatments for ethanol production from bagasse by simultaneous sacchari cation and fermentation. Proceedings of the 6th International Wood Science Symposium. Denpasar 29–31 Agustus 2005: 288–294.

Hermiati E, Risanto L, Anita SH, Aristiawan Y, Sudiyani Y, Hana- A, Abimanyu H. Sakari kasi serat tandan kosong dan pelepah kelapa sawit setelah pretreatment menggunakan kultur campuran jamur pelapuk putih Phanerochaete chrysosporium dan Trametes versicolor. Jurnal Penelitian Hasil Hutan. 2014; 32(2): 111–122.

Fajriutami T, Fatriasari W, Hermiati E. Pengaruh pra perlakuan basa pada ampas tebu terhadap karakterisasi pulp dan produksi gula pereduksi. Jurnal Riset Industri. 2016; 19(3): 147–161.

Oktaviani M, Fajriutami T, Hermiati E. Produksi etanol dari ampas tebu terdeligni kasi alkali melalui proses sakari kasi dan fermentasi serentak. Prosiding Seminar Nasional Inovasi dan Aplikasi Teknologi di Industri (SENIATI). Malang 6 Februari 2016: (1): B.45–B.51

Pramasari DA, Haditjaroko L, Sunarti TC, Hermiati E, Syamsu K. The e ectiveness of physical and alkali hydrothermal pretreat- ment in improving enzyme susceptibility of sweet sorghum ba- gasse. Jurnal Bahan Alam Terbarukan. 2017; 6(2): 117–131.

Risanto L, Fitria, Fajriutami T, Hermiati E. Enzymatic saccha- ri cation of liquid hot water and dilute sulfuric acid pretreated oil palm empty fruit bunch and sugarcane bagasse. IOP Conf. Series: Earth and Environmental Science. 2018: 141 (2018) 01202540.

Arnieyanto DR. Praperlakuan pemanasan gelombang mikro dan asam untuk hidrolisis selulosa daun tebu (Saccharum o cinarum) oleh selulase. [Skripsi]. [Bogor]: Universitas Pakuan; 2018. 83.

Solihat NS, Sari FP, Risanto L, Anita SH, Fitria, Fatriasari W, Hermiati E. Disruption of oil palm empty fruit bunches by mi- crowave-assisted oxalic acid pretreatment. Journal of Mathemati- cal and Fundamental Sciences 2017; 49(3): 255–268.

Hermiati E, Solihat NN, Adi DTN, Ghozali M. The ultrastruc- ture and enzyme susceptibility of oil palm empty fruit bunch pre- treated by oxalic acid under microwave irradiation. Proceedings 5th International Symposium on Innovative Bio-Production Indo- nesia. Bogor, 10 Oktober 2018: 92–99.

Hermiati E, Azuma J, Mangunwidjaja D, Sunarti TC, Suparno O, Prasetya B. Hydrolysis of carbohydrates in cassava pulp and tapioca our under microwave irradiation. Indonesian Journal of Chemistry. 2011; 11: 238–245.

Hermiati E, Azuma J, Tsubaki S, Mangunwidjaja D, Sunarti TC, Suparno O, Prasetya B. Improvement of microwave-assisted hy- drolysis of cassava pulp and tapioca our by addition of activated carbon. Carbohydrate Polymers. 2012; 87: 939–942.

Fajriutami T, Laksana RPB, Hermiati E. Characterization and microwave-assisted hydrolysis of sago starch to produce malto- dextrin. Teknologi Indonesia. 2014; 7(2): 73–82.

Hermiati E, Mangunwidjaja D, Sunarti TC, Suparno O, Prasetya B. Microwave-assisted acid hydrolysis of starch polymer in cassava pulp in the presence of activated carbon. Procedia Chem- istry. 2012; 4: 238–244.

Hermiati E, Risanto L, Laksana RBP. Microwave-assisted hy- drolysis of cassava pulp in acid media. Proceedings of The 1st International Symposium for Sustainable Humanosphere. Ambon, 3 Oktober 2011: 41–46.

Hermiati E, Tsubaki S, Azuma J. Cassava pulp hydrolysis un- der microwave irradiation with oxalic acid catalyst for ethanol production. Journal of Mathematical and Fundamental Science. 2014; 46(2): 125–139.

Fajriutami T, Fatriasari W, Hermiati E. Sengon pulp hydrolysis by dilute acid under microwave irradiation. Proceedings of The 2nd Korea-Indonesia Workshop and International Symposium on Bioenergy from Biomass. Serpong, Indonesia, 13–15 Juni 2012: 83–86.

Fajriutami T, Sudiyani Y, Hermiati E. Dilute acid hydrolysis of oil palm empty fruit bunch pulp under microwave irradiation. Proceedings of the 3rd International Symposium of Indonesian Wood Research Society. Yogyakarta, 3–4 November 2011; 2012: 200–204.

Hermiati E, Mangunwidjaja D, Sunarti TC, Suparno O, Prasetya B, Anita SH, Risanto L. Ethanol fermentation of microwave-as- sisted acid hydrolysate of cassava pulp with Saccharomyces cer- evisiae in the presence of activated carbon. International Journal of Environment and Bioenergy. 2012; 3(1): 12–24.

Oktaviani M. Peningkatan produksi xilitol dari hidrolisat he- miselulosa limbah daun tebu (Saccharum o cinarum L) melalui teknik adaptasi dan imobilisasi sel. [Tesis]. [Depok]: Fakul- tas MIPA, Program Studi Pascasarjana Biologi, Universitas Indonesia; 2019. 119.

Risanto L, Hermiati E, Sudiyani Y. Properties of lignin from oil palm empty fruit bunch and its application for wood adhesive. Makara Seri Teknologi. 2014; 18(2): 67–75.

Hermiati E, Lubis MAR, Risanto L, Laksana RPB, Zaini LH. Characteristics and bond performance of wood adhesive made from natural rubber latex and alkaline pretreatment lignin. Proce- dia Chemistry. 2015; 16: 376–383.

Fitria, Fajriutami T, Falah F, Fatriasari W, Hermiati E. Karakter- isasi sodium lignosulfonate dari lindi hitam ampas tebu dengan perlakuan alkali. Prosiding Seminar Nasional Inovasi dan Aplika- si Teknologi di Industri (SENIATI). Malang 6 Februari 2016: (1) B33–B88.

Fatriasari W, Watanabe T, Adi DTN, Hermiati E, Fajriutami T, Laksana RPB, Ghozali M, Solihat NN, Pramasari DA. Produk biosurfaktan turunan lignin dan proses pembuatannya. Paten No. P00201708601. 30 November 2017.

Fatriasari W, Adi DTN, Hermiati E, Fajriutami T, Laksana RPB, Ghozali M, Solihat NN. Formulasi biosurfaktan turunan lignin amphiphilik dari lignin Acacia mangium dan proses pembuatann- ya. Paten No. P00201702048. 31 Maret 2017.

Lennartsson PM, Erlandsson P, Taherzadeh MJ. Integration of the rst and second generation bioethanol processes and the importance of by-products. Bioresource Technology. 2014; 165: 3–8.

de Castro REN, de Brito Alves RM, do Nascimento CAO, Giudi- ci R. Assessment of sugarcane-based ethanol production. Dalam: Basso TP, Basso LC, editor. Fuel ethanol production from sugar- cane. IntechOpen; 2019. 1–21.

de Jong E, Higson A, Walsh P, Wellisch M. Bio-based chemicals value added products from biore neries. Wageningen: Interna- tional Energy Agency (IEA) Bioenergy Task. 42 Biore nery; 2012.

Dias MOS, Junqueira TL, Cavalett O, Cunha MP, Jesus CDF, Rossell CEV, Filho RM, Bonomi A. Integrated versus stand-alone second generation ethanol production from sugarcane bagasse and trash. Bioresource Technology. 2012; 103: 152–161.

Food and Agriculture Organization of the United Nations. FAOSTAT 2018 [Internet]. Tersedia di http://www.fao.org/ faostat/en/#data/QC.

Hermiati E, Risanto L, Anita SH, Aristiawan Y, Sudiyani Y, Hana- A, Abimanyu H. Sakari kasi serta tandan kosong dan pelepah kelapa sawit setelah pretreatment menggunakan kultur campuran jamur pelapuk putih Phanerochaete chrysosporium dan Trametes versicolor. Jurnal Penelitian Hasil Hutan. 2014; 32(2): 111–122.

Khalil HPSA, Alwani MS, Omar AKM. Chemical composition, anatomy, lignin distribution, and cell wall structure of Malaysian plant waste bers. BioResources. 2006; 1(2): 220–232.

Sangian HF, Kristian J, Rahma S, Dewi HK, Puspasari DA, Agnesty SY, Gunawan S, Widjaja A. Preparation of reducing sugar hydrolyzed from high-lignin coconut coir dust pretreated by the recycled ionic liquid [mmim][dmp] and combination with alkaline. Bulletin of Chemical Reaction Engineering and Catalysis. 2015; 10(1): 8–22.

LeeJW,Je riesTW.E cienciesofacidcatalystsinthehydrolysis of lignocellulosic biomass over a ranged of combined severity factors. Bioresource Technology. 2011; 102: 5884–5890.

Fatriasari W, Hermiati E. Analisis morfologi serat dan sifat - sis-kimia pada enam jenis bambu sebagai bahan baku pulp dan kertas. Jurnal Ilmu dan Teknologi Hasil Hutan. 2008; 1(2): 67–72.

Risanto L, Adi DSA, Kaneko M, Kurosaki Y, Girmansyah D, Susanti R, Hermiati E, Watanabe T. An evaluation for enzyma- tic sacchari cation of fast-growing tree species from secondary forest in West Kalimantan. Proceeding ASEAN COSAT 2014. Bogor, 18–19 Agustus 2014: 209–218.

Hermiati E. Mempelajari pengaruh varietas ubikayu dan jum- lah air pengekstrak terhadap produk dan limbah proses ekstraksi umbi ubikayu. [Skripsi]. [Bogor]: Fakultas Teknologi Pertanian, Institut Pertanian Bogor; 1983: 109.

Ariani LN, Estiasih T, Martati E. Karakteristik sifat siko kimia ubi kayu berbasis kadar sianida. Jurnal Teknologi Pertanian 2017; 18(2): 119–128.

Inglett GE. Kernel, structure, composition and quality. Dalam: Inglet GE, editor. Corn: culture, processing, products. Westport: The AVI Publicshing Co.; 1970.

Iriani ES. 2013. Pengembangan produk biodegradable foam ber- bahan baku campuran tapioka dan ampok. [Disertasi]. [Bogor]: Sekolah Pascasarjana, Institut Pertanian Bogor; 2013. 183.

Dicko MH, Gruppen H, Traore AS, Voragen AGJ, van Berkel WJH. Sorghum grain as human food in Africa–relevance of con- tent of starch and amylase activities. African Journal of Biotech- nology. 2006; 5(5): 384–395.

Nugraha DA. Bioetanol dari sakari kasi dan fermentasi bertahap pati batang kelapa sawit. [Skripsi]. [Bogor]: Departemen Hasil Hutan, Fakultas Kehutanan, Institut Pertanian Bogor; 2017. 21.

Hermiati E. Rekayasa proses hidrolisis ampas tapioka menggu- nakan pemanasan gelombang mikro untuk produksi etanol. [Dis- ertasi]. [Bogor]: Sekolah Pascasarjana, Institut Pertanian Bogor; 2012. 132.

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