Download Citation | Sustainable Biopolymers Production Using a Bioethanol Residue as Raw Material | Vinasse, a by-product of bioethanol production, can be transformed by biotechnological processes . Ethanol will be then monitored through the use of either an ethanol sensor or (Mohr and Raman 2010; Arifin et al. Rotational Engineer, Core Competency. Popping pretreatment of rice straw prior to downstream enzymatic hydrolysis and fermentation was found to increase cellulose to glucose conversion efficiency. useful insects and harmful insects msxml2 serverxmlhttp responsetext industrial uses of sweet potato https://www.eia.gov/outlooks/steo/report/global_oil.php, Veluchamy C, Kalamdhad AS, Gilroyed BH (2018) Advanced pretreatment strategies for bioenergy production from biomass and biowaste. Kawasaki T, Zen H, Sakai T, Sumitomo Y, Nogami K, Hayakawa K, Yaji T, Ohta T, Nagata T, Hayakawa Y. Polymers (Basel). Processes. Google Scholar, z E, Turul KM, Saral A, z E (2009) Research on ethanol production and use from sugar beet in Turkey. Asian Biotechnol Dev Rev 8(2):3149, Manochio C, Andrade BR, Rodriguez RP, Moraes BS (2017) Ethanol from biomass: a comparative overview. Khanal SK. This has led to serious concerns regarding the socio-economic and environmental consequences of large-scale production ( 11 ). Renew Sust Energ Rev 15(4):20732086, Sarris D, Papanikolaou S (2016) Biotechnological production of ethanol: biochemistry, processes and technologies. Sources of sugar derived from cane sugar, beet sugar, molasses, and fruits can be directly converted into ethanol. The total energy consumption for each scenario could be seen in Table 3. Translations in context of "bioethanol made from" in English-French from Reverso Context: They include bioethanol made from cellulosic materials such as straw or wood. Lignocellulosic raw materials can provide alternative feedstocks for the sustainable production of bioethanol and other biochemicals with a wide range of economic and environmental benefits (Hahn-Hgerdahl et al. J Environ Sci Eng A 8:113129. Sugar products can be processed in a variety of ways, to produce not only sugar for food or feed additives but also valuable chemicals that can be used in biofuels, synthetic materials and pharmaceuticals. Abstract Use of different raw materials/feed stocks for ethanol production.To meet increasing demand of energy, bio-fuels i.e., fuels derived from renewable substrates (agricultural products). MG-60. https://doi.org/10.1007/978-981-16-8094-6_10, Shipping restrictions may apply, check to see if you are impacted, https://doi.org/10.1016/j.pbi.2003.12.001, https://www.eia.gov/outlooks/steo/report/global_oil.php, Tax calculation will be finalised during checkout. The production of bioethanol is an attractive alternative because it would be produced using indigenous and native raw material, therefore, the socioeconomic impact mainly in developing countries would be measured by the economic incomes and increase the quality of life of small and middle farmers. first generation, second generation and third generation. Processes 2021, 9, 206. However, various available types of lignocellulosic biomass such as agricultural and forestry residues, and herbaceous energy crops could serve as feedstocks for the production of bioethanol, energy, heat and value-added chemicals. 10.1002/bbb.7 ADVANCE BIOFUEL has made extensive efforts in the research and development of revolutionary processes for the production of bio-diesel. Keywords: US Patent 9,920,345, Li K, Liu S, Liu X (2014) An overview of algae bioethanol production. Google Scholar, Ben-Iwo J, Manovic V, Longhurst P (2016) Biomass resources and biofuels potential for the production of transportation fuels in Nigeria. Compared to . CRC Press, Boca Raton. Furthermore, OFMSWs typically contain varying percentages of inert materials such as plastic, glass, and textiles, the concentrations of which vary substantially depending on the collection mechanism used. Biotech 3(5):415431, Chen CY, Zhao XQ, Yen HW, Ho SH, Cheng CL, Lee DJ et al (2013) Microalgae-based carbohydrates for biofuel production. 2022 The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. Bhandari, K., Vyas, M. (2022). Biochem Eng J 151:107324. https://doi.org/10.1016/j.bej.2019.107324, Nakashima RN, de Oliveira Junior S (2020) Comparative exergy assessment of vinasse disposal alternatives: concentration, anaerobic digestion and fertirrigation. On the other hand, with relatively fast growth, short rotation woody crops included poplar and eucalyptus. pp. Int J Mol Sci 9(9):16211651, Talebnia F, Karakashev D, Angelidaki I (2010) Production of bioethanol from wheat straw: an overview on pretreatment, hydrolysis, and fermentation. 1).After milling of the starchy substrates two enzymatic process . Cherubini F, Strmman AH. Google Scholar, Kucera D, Benesova P, Ladicky P, Pekar M, Sedlacek P, Obruca S (2017) Production of polyhydroxyalkanoates using hydrolyzates of spruce sawdust: comparison of hydrolyzates detoxification by application of overliming, active carbon, and lignite. Municipal Solid Waste is waste generated from municipal, community, commercial, institutional, and recreational activities. The production of so-called advanced bioethanol offers several advantages compared to traditional bioethanol production processes in terms of sustainability criteria. Oxford, UK: Academic Press; 2011. pp 324. Lange JP. government site. Softwood (from gymnosperms) and hardwood are the two types of wood (from angiosperms). Large scale manufacture of ethanol as fuel is performed from sugar cane in Brazil, while it is produced from corn as a raw material in the United States [1]. - 185.229.119.240. Principles of biorefining. Although several workers have reported bioethanol production from cassava, research is still focused on the evaluation of optimum slurry concentration . Other fuels are produced from the same feedstocks as bioethanol. It would, furthermore, decrease the energy demand of . There are various advantages in terms of sustainability when comparing advanced bioethanol production to standard bioethanol production. Climate change 2007: The physical science basis. Google Scholar, Jobling S (2004) Improving starch for food and industrial applications. Bioethanol production of et al. This work was financed by Consejo Nacional de Investigaciones Cientficas y Tcnicas (Grant Number: PIP 112-201501-00127), Agencia Nacional de Promocin Cientfica y Tecnolgica (Grant Number: PICT-2014-2410), and Universidad Nacional del Sur (Grant Number: 24M/154). Feature You are accessing a machine-readable page. Raw material composition. Renew Sustain Energy 63:172192, Brodeur G, Yau E, Badal K, Collier J, Ramachandran KB, Ramakrishnan S (2011) Chemical and physicochemical pretreatment of lignocellulosic biomass: a review. Int Rev Chem Eng 1(6):581597, Cardona CA, Snchez J, Gutirrez LF (2010) Process synthesis for fuel ethanol production. Bioresour Technol 271:345352, Saidur R, Mekhilef S, Atabani A (2013) A review on electrical and thermal energy for industries. The Feature Paper can be either an original research article, a substantial novel research study that often involves Bioresour Technol 205:159165, Ji M, Miao Y, Chen JY, You Y, Liu F, Xu L (2016b) Growth characteristics of freeze-tolerant bakers yeast Saccharomyces cerevisiae AFY in aerobic batch culture. PubMedGoogle Scholar. The conventional ethanol-producing substances are consumable food-based materials. (dry weight). With the help of recombinant DNA technology and genetic engineering approaches, lignocellulosic biomass metabolizing enzymes and bioethanol manufacturing microorganisms have been discovered. Curr Microbiol. and transmitted securely. Bioresour Technol 83(1):111, Taherzadeh MJ, Karimi K (2008) Pre-treatment of lignocellulosic wastes to improve ethanol and biogas production: a review. progress in the field that systematically reviews the most exciting advances in scientific literature. 2022 Jun 14;14(12):2401. doi: 10.3390/polym14122401. 129234. https://doi.org/10.1016/j.bej.2007.11.029, Lopez-Arenas T, Gonzlez-Contreras M, Anaya-Reza O, Sales-Cruz M (2017) Analysis of the fermentation strategy and its impact on the economics of the production process of PHB (polyhydroxybutyrate). An official website of the United States government. Bio-Clean Energy Technologies Volume 2 pp 167182Cite as, Part of the Clean Energy Production Technologies book series (CEPT). eCollection 2022 Mar. Simultaneous production of bio-ethanol and bleached pulp from red algae, Bioresource . Biohydrogen and bioethanol production from biodiesel-based glycerol by Enterobacter aerogenes in a continuous stirred tank reactor, International Journal of Molecular Sciences, 16, 10650-10664. doi:10.3390 . bioethanol; bioethanol separation and purification; bioprocess operational modes; raw material pretreatment; renewable feedstocks. PMC prior to publication. Biofuels Bioprod Biorefin. The synthetic production of ethanol takes place in the oil industry using oil as a raw material. Editors Choice articles are based on recommendations by the scientific editors of MDPI journals from around the world. Marcelo A. Villar. Provided by the Springer Nature SharedIt content-sharing initiative, Over 10 million scientific documents at your fingertips, Not logged in doi: 10.1016/j.heliyon.2022.e09707. FOIA MAV: conceptualization, supervision. Many research reports describe different lignocellulosic waste for the production of bioethanol, such as corn stover, rice straw, bagasse, grass, and others [8,24,25,26,27]. Industrial wastes comprise all byproduct streams from existing industrial bio-based sectors such as food, pulp and paper, textiles, and biodiesel and bioethanol-related operations. https://doi.org/10.1016/j.biortech.2018.09.142, Shahzad K, Narodoslawsky M, Sagir M et al (2017) Techno-economic feasibility of waste biorefinery: using slaughtering waste streams as starting material for biopolyester production. The use of this form of biomass helps to lessen the environmental impact of various industrial processes by lowering net CO2 emissions, decreasing our reliance on petroleum-based resources, and boosting the economic efficiency of the operations by adding value to what is typically dumped as waste. Soledad Daz&Marcelo A. Villar, You can also search for this author in Fast-declining fossil fuels, acute energy crisis energy, a spike in greenhouse gas emissions, and various environmental problems had led to a search for sustainable biofuel production. (2022)Cite this article. https://doi.org/10.3390/pr9020206, Duque, Aleta, Cristina lvarez, Pablo Domnech, Paloma Manzanares, and Antonio D. Moreno. Comput Chem Eng 107:140150. Moreover, bioethanol is biodegradable and its combustion results in lower pollutant emissions compared to fossil fuels [ 6 ]. Current and futuristic scenarios. Positive NPV were reached for some analyzed scenarios, indicating that economic benefits are being obtained or meet the expectations of the investment project. Sugarcane, pineapple and potato are one of the major plants that resulted in a high yield of bioethanol as byproducts due to the presence of a high amount of sugarcane in it [ 11] ( Figure 1 ). The essential features for selecting energy crops are rapid growth. Journal of Polymers and the Environment Braz J Chem Eng 35:901908. Though Bioethanol and other biofuels are often promoted as clean, low-cost alternatives to gasoline, Sugarcane farming, which is mostly used as raw material for producing . Cellulose 21(5):32573268, Zeenat B, Lili S, Annamma A, Arvind L, Nigel P, Minton, Ying Z (2019) Engineering Geobacillus thermoglucosidasius for direct utilisation of holocellulose from wheat straw. Clean Technol Environ Policy 19:19411953. . All literature studies on the subject are reviewed, discussed and also new approach to pre-treatment methods of raw materials to produce bioethanol is presented. Theoretical ethanol production and production of raw material When produced on a sandy loam soil, like the present raw material, in an intensive sole cropping system with optimum use of fertilizers and agrochemicals and under Danish climatic conditions the yield of wheat straw would be around 5-7 tons DM ha 1 and for clover-grass cropped . Introduction. super oliver world crazy games. HHS Vulnerability Disclosure, Help Accessibility Growth rates and densities are significant variances between softwoods and hardwoods. Process Biochem 46:310317. - 5.135.178.11. Catalysts Eng 106:40444098, CAS MSW is a low-cost, abundant, and mainly renewable feedstock.The average amount of municipal solid waste (MSW) that one person generates per day in the world averages 0.74 kilogrammes but varies greatly, ranging from 0.11 to 4.54 kilos. 1 Altmetric. Biotechnology and bioprocessing, 1st edn. In contrast, traditional crops will have low and unreliable yields. When PWH containing 103.08 g/L of total sugars was used as a raw material for ethanol production by P. kudriavzevii CM4.2 at 45 C, . Thermochemical conversion of biomass to biofuels. https://doi.org/10.1002/9783527619849.ch10, Zanfonato K, Schmidt M, Quines LK et al (2018) Can vinasse be used as carbon source for poly(3-hidroxybutyrate). Fuel 185:612621, Mousdale DM (2008) Biofuels: biotechnology, chemistry and sustainable development. In: Solomon S, Qin D, Manning M, Chen Z, Marquis M, Averyt KB, et al., editors. Figure 1. Visit our dedicated information section to learn more about MDPI. PubMed 2007; Thomsen and Haugaard-Nielsen 2008; Soetaert and Vandamme 2009).The aim of this study is to provide a comparative evaluation of eight different lignocellulosic raw . Special attention is given to integrated strategies such as lignocellulose-based biorefineries for the simultaneous production of bioethanol and other high added value bioproducts. Agbor VB, Cicek N, Sparling R, Berlin A, Levin DB (2011) Biomass pretreatment: fundamentals toward application. Learn more about Institutional subscriptions. Biorefinery concepts: a) bottom-up and b) top-down. Bioresour Bioprocess 4(1), Lam E, Carrer H, Da Silva JA, Kole C (2014) Compendium of bioenergy plants: sugarcane. PubMed Central Biodiesel Pilot Plant . Google Scholar, Posada JA, Naranjo JM, Lpez JA et al (2011) Design and analysis of poly-3-hydroxybutyrate production processes from crude glycerol. 1=milling, 2=pretreatment, 3=saccharification,, MeSH 2021; 9(2):206. However, various available types of lignocellulosic biomass such as agricultural and forestry residues, and. Bioethanol is currently being considered as a potential replacement for the conventional gasoline, especially as it possesses similar and some superior qualities enabling reduction in GHG and increases fuel reserve. waste paper and recycled paper sludge), herbaceous biomass (alfalfa hay, switchgrass and other types of grasses) and municipal solid wastes . Provided by the Springer Nature SharedIt content-sharing initiative, Over 10 million scientific documents at your fingertips, Not logged in Engineering a carbohydrate-binding module to increase the expression level of glucoamylase in Pichia pastoris. CAS Marine algae are the new and promising alternative . https://doi.org/10.3390/pr9020206, Duque A, lvarez C, Domnech P, Manzanares P, Moreno AD. Enzyme Res 2011:787532. https://doi.org/10.4061/2011/787532, CrossRef No special Replacement of part of the coal in the coking blend with lignin would be an attractive solution to reduce greenhouse gas emissions from blast furnace (BF) iron making and for obtaining additional value for lignin utilization. In this sense, considering a bioethanol production cost of 0.27 USD/L, the cost associated with thermal energy would be 1.57 million dollars. Clipboard, Search History, and several other advanced features are temporarily unavailable. methods, instructions or products referred to in the content. Bioresour Bioprocess 8:112. These raw materials are classified as first-generation, second-generation, and third-generation biomass sources. Alem 1253, 8000, Baha Blanca, Argentina, Daiana V. Trap,Fernando D. Ramos,Ma. permission is required to reuse all or part of the article published by MDPI, including figures and tables. SUMMARY Production of biofuels from renewable feedstocks has captured considerable scientific attention since they could be used to supply energy and alternative fuels. doi: 10.1016/j.heliyon.2022.e11117. Animal bedding remains an underutilized source of raw material for bioethanol production, despite the economic and environmental benefits of its use. Editors select a small number of articles recently published in the journal that they believe will be particularly This includes, for instance, the use of nonfood crops or residual biomass as raw material and a higher potential for reducing greenhouse gas emissions. Find support for a specific problem in the support section of our website. Currently, it is mostly produced from sugar- and starch-containing raw materials. It calculated the bioethanol potential of these feedstocks, indicating a possible yield of 205 billion L/year from rice. Garbage, rubbish, ashes, street cleanings, dead animals, medical waste, and all other nonindustrial solid waste are all included. Due to the severity of this impact, which has been worse over the past few decades, biomass is essential for producing alternative biofuels, which must be made from sustainable and renewable sources. Renew Energy 147:19691978. Ozonation is an effective way to stabilize . Another alternative could be the use of vinasse to generate energy. interesting to authors, or important in this field. The present review focuses on the recent progress related to the production of advanced bioethanol, (i) highlighting current results from using novel biomass sources such as the organic fraction of municipal solid waste and certain industrial residues (e.g., residues from the paper, food, and beverage industries); (ii) describing new developments in pretreatment technologies for the fractionation and conversion of lignocellulosic biomass, such as the bioextrusion process or the use of novel ionic liquids; (iii) listing the use of new enzyme catalysts and microbial strains during saccharification and fermentation processes. Feature Papers represent the most advanced research with significant potential for high impact in the field. 1=milling, 2=pretreatment, 3=saccharification, 4=heat exchanger, 5=propagator, 6=bioreactor, 7=stripping column, 8=rectifying column, 9=molecular sieves. Biotechnology Adv 29(6):675685, CrossRef
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