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Erschienen in:
Renewable Energy Sources: A Sustainable Strategy for Biodiesel Productions Kapitel lesen Erstes Kapitel lesen

2018 | OriginalPaper | Buchkapitel

2. Employment of Alternative Raw Materials for Biodiesel Synthesis

verfasst von : Bruna Silveira Pacheco, Caroline Carapina da Silva, Samantha Coelho de Freitas, Lucas Moraes Berneira, Vinícius Lenz da Silva, Kathleen Winkel, Letícia Braatz Ferreira, Claudio Martin Pereira de Pereira

Erschienen in: Increased Biodiesel Efficiency

Verlag: Springer International Publishing

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Abstract

The search for renewable fuels has increased in recent times, since petroleum-derived fuels are depleting supplies and contributing to accumulation of carbon dioxide in the environment. In this way, biodiesel presents economic, social, and environmental advantages as a renewable biofuel. This chapter aims to inform the reader about different raw materials that can be used to synthesize biodiesel. Moreover, the main physicochemical parameters are presented based on the standard agencies around the world. In general, the raw materials (algae, castor oil, soybean, waste frying oil, and Chrysomya albiceps larvae) represented satisfactory sources to produce biodiesel.

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Vorheriges Kapitel Renewable Energy Sources: A Sustainable Strategy for Biodiesel Productions
Nächstes Kapitel Alternative Multifunctional Additives for Biodiesel Stabilization: Perspectives for More Efficiency and More Cost-Effectiveness
Literatur
Alleman TL, Fouts L, Chupka G (2013) Quality parameters and chemical analysis for biodiesel produced in the United States in 2011. National Renewable Energy Laboratory (NREL), Colorado
Armendáriz J, Lapuerta M, Zavala F, García-Zambrano E, del Carmen Ojeda M (2015) Evaluation of eleven genotypes of castor oil plant (Ricinus communis L.) for the production of biodiesel. Ind Crops Prod 77:484–490CrossRef
Azad AK, Rasul MG, Khan MMK, Sharma SC, Mofijur M, Bhuiya MMK (2016) Prospects, feedstocks and challenges of biodiesel production from beauty leaf oil and castor oil: a nonedible oil sources in Australia. Renew Sust Energ Rev 61:302–318CrossRef
Bateni H, Karimi K, Zamani A, Benakashani F (2014) Castor plant for biodiesel, biogas, and ethanol production with a biorefinery processing perspective. Appl Energy 136:14–22CrossRef
Bazooyar B, Ghorbani A, Shariati A (2011) Combustion performance and emissions of petrodiesel and biodiesels based on various vegetable oils in a semi industrial boiler. Fuel 90:3078–3092CrossRef
Boey PL, Ganesan S, Maniam GP, Khairuddean M (2012) Catalysts derived from waste sources in the production of biodiesel using waste cooking oil. Catal Today 190:117–121CrossRef
Bondioli P, Bella LD (2005) An alternative spectrophotometric method for the determination of free glycerol in biodiesel. Eur J Lipid Sci Technol 107:153–157CrossRef
Boog JAF, Silveira ELC, Caland LB, Tubino M (2011) Determining the residual alcohol in biodiesel through its flash point. Fuel 90:905–907CrossRef
Canakci M, Van Gerpen J (2001) Biodiesel production from oils and fats with high free fatty acids. Trans ASAE 44:1429–1436CrossRef
Canakci M, Van Gerpen J (2003) Comparison of engine performance and emissions for petroleum diesel fuel, yellow grease biodiesel, and soybean oil biodiesel. Trans ASAE 46:937–944
Chand P, Reddy CV, Verkade JG, Wang T, Grewell D (2009) Thermogravimetric quantification of biodiesel produced via alkali catalyzed transesterification of soybean oil. Energy Fuels 23:989–992CrossRef
Costa NPR, Rossi L, Zagonel G, Ramos L (2000) Produção de biocombustível alternativo ao óleo diesel através da transesterificação de óleo de soja usado em frituras. Quim Nova 23:531–537CrossRef
Crizel MG, Lenz V, Ritter M, Pacheco B, Pereira CMP (2016) Viscosity analysis: a potential protocol to detect adulteration in biodiesel. Austin Environ Sci 1:1010
Dias JM, Araújo JM, Costa JF, Alvim-Ferraz MCM, Almeida MF (2013) Biodiesel production from raw castor oil. Energy 53:58–66CrossRef
Ehsan M, Chowdhury MTH (2015) Production of biodiesel using alkaline based catalysts from waste cooking oil: a case study. Procedia Eng 105:638–645CrossRef
Endo Y, Endo MT, Kimura K (2005) Rapid determination of iodine value and saponification value of fish oils by near-infrared spectroscopy. J Food Sci 70:C127–C131CrossRef
Felizardo P, Correia MJN, Raposo I, Mendes JF, Berkmeier R, Bordado JM (2006) Production of biodiesel from waste frying oils. Waste Manag 26:487–494CrossRef
Guldhe A, Singh B, Rawat I, Permaul K, Bux F (2015) Biocatalytic conversion of lipids from microalgae Scenedesmus obliquus to biodiesel using Pseudomonas fluorescens lipase. Fuel 147:117–124CrossRef
Hartman L, Lago RCA (1973) Rapid preparation of fatty acids methyl esters. Lab Pract 22:475–476
Harwood JL, Guschina IA (2009) The versatility of algae and their lipid metabolism. Biochimie 91:679–684CrossRef
Hobuss CB, Rosales PF, Venzke D, Souza PO, Gobbi PC, Gouvea LP, Santos MAS, Pinto E, Lopes EJ, Pereira CMP (2011) Cultivation of algae in photobioreator and obtention of biodiesel. Braz J Pharmacogn 21:361–364CrossRef
Ilkiliç C (2010) An analysis of exhaust emissions on a diesel engine operation by biodiesel. Energ Sources 33:298–330CrossRef
Knothe G (2007) Some aspects of biodiesel oxidative stability. Fuel Process Technol 88:669–677CrossRef
Knothe G, Razon LF (2017) Biodiesel fuels. Prog Energy Combust Sci 58:36–59CrossRef
Knothe G, Steidley KR (2005) Kinematic viscosity of biodiesel fuel components and related compounds. Influence of compound structure and comparison to petrodiesel fuel components. Fuel 84:1059–1065CrossRef
Li Q, Zheng L, Cai H, Garza E, Yu Z, Zhou S (2011) From organic waste to biodiesel: black soldier fly, Hermetia illucens, makes it feasible. Fuel 90:1545–1548CrossRef
Li Z, Yang D, Huang M, Hu X, Shen J, Zhao Z, Chen J (2012) Chrysomya megacephala (Fabricius) larvae: a new biodiesel resource. Appl Energy 94:349–354CrossRef
Lotero E, Liu Y, Lopez DE, Suwannakarn K, Bruce DA, Goodwin JG (2005) Synthesis of biodiesel via acid catalysis. Ind Eng Chem Res 44:5353–5363CrossRef
Mandal S, Mallick N (2009) Microalga Scenedesmus obliquus as a potential source for biodiesel production. Appl Microbiol Biotechnol 84:281–291CrossRef
Naik M, Meher LC, Naik SN, Das LM (2008) Production of biodiesel from high free fatty acid Karanja (Pongamia pinnata) oil. Biomass Bioenerg 32:354–357CrossRef
Nautiyal P, Subramanian KA, Dastidar MG (2014) Production and characterization of biodiesel from algae. Fuel Process Technol 120:79–88CrossRef
Oliveira DM, Ongaratto DP, Fontoura LAM, Naciuk FF, Santos VOB, Kunz JD, Marques MV, Souza AO, Pereira CMP, Samios D (2013) Obtenção de biodiesel por transesterificação em dois estágios e sua caracterização por cromatografia gasosa: óleos e gorduras em laboratório de química orgânica. Quim Nova 36:734–737CrossRef
Predojevic ZJ (2008) The production of biodiesel from waste frying oils: a comparison of different purification steps. Fuel 87:3522–3528CrossRef
Ramos MJ, Fernández CM, Casas A, Rodríguez L, Pérez Á (2009) Influence of fatty acid composition of raw materials on biodiesel properties. Bioresour Technol 100:261–268CrossRef
Rashid U, Anwar F (2008) Production of biodiesel through optimized alkaline-catalyzed transesterification of rapeseed oil. Fuel 87:265–273CrossRef
Rockembach CT, Pereira CMP, Dias D (2015) Evaluation of chalcones in the biodiesel oxidative process. Lambert Academic Publishing, Saarbrücken
Sajjadi B, Raman AAA, Arandiyan H (2016) A comprehensive review on properties of edible and non-edible vegetable oil-based biodiesel: composition, specifications and prediction models. Renew Sustainable Energy Rev 63:62–92CrossRef
Sánchez N, Sánchez R, Encinar JM, González JF, Martínez G (2015) Complete analysis of castor oil methanolysis to obtain biodiesel. Fuel 147:95–99CrossRef
Sandha GK, Swami VK (2009) Jojoba oil as an organic, shelf stable standard oil-phase base for cosmetic industry. Rasayan J Chem 2:300–306
Vassilev SV, Vassileva CG (2016) Composition, properties and challenges of algae biomass for biofuel application: an overview. Fuel 181:1–33CrossRef
Viêgas CV, Hachemi I, Freitas SP, Mäki-Arvela P, Aho A, Hemming J, Smeds A, Heinmaa I, Fontes FB, da Silva Pereira DC, Kumar N (2015) A route to produce renewable diesel from algae: synthesis and characterization of biodiesel via in situ transesterification of Chlorella alga and its catalytic deoxygenation to renewable diesel. Fuel 155:144–154CrossRef
Vieira BM, Elicker C, Nunes CFP, Bairros AV, Becker EM, Oliveira DM, Piva E, Fontoura LAM, Pereira CMP (2016) The synthesis and characterization of Butia capitata seed oil as a FAME feedstock. Fuel 184:533–535CrossRef
Wang H, Tang H, Wilson J, Salley SO, Simon KY (2008) Total acid number determination of biodiesel and biodiesel blends. J Am Oil Chem Soc 85:1083–1086CrossRef
Wu H, Miao X (2014) Biodiesel quality and biochemical changes of microalgae Chlorella pyrenoidosa and Scenedesmus obliquus in response to nitrate levels. Bioresour Technol 170:421–427CrossRef
Xie WQ, Gong YX, Yu KX (2017) A rapid method for the quantitative analysis of total acid number in biodiesel based on headspace GC technique. Fuel 210:236–240CrossRef
Yaakob Z, Mohammad M, Alherbawi M, Alam Z, Sopian K (2013) Overview of the production of biodiesel from waste cooking oil. Renew Sust Energ Rev 18:184–193
Zhang Y, Dube MA, McLean DD, Kates M (2003) Biodiesel production from waste cooking oil via two-step catalyzed process. Energ Convers Manage 48:184–188
Metadaten
Titel
Employment of Alternative Raw Materials for Biodiesel Synthesis
verfasst von
Bruna Silveira Pacheco
Caroline Carapina da Silva
Samantha Coelho de Freitas
Lucas Moraes Berneira
Vinícius Lenz da Silva
Kathleen Winkel
Letícia Braatz Ferreira
Claudio Martin Pereira de Pereira
Copyright-Jahr
2018
Buch
Increased Biodiesel Efficiency

Print ISBN: 978-3-319-73551-1

Electronic ISBN: 978-3-319-73552-8

Copyright-Jahr: 2018

DOI
https://doi.org/10.1007/978-3-319-73552-8_2