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Increased Biodiesel Efficiency

Alternatives for Production, Stabilization, Characterization and Use of Coproduct

  • Magno Trindade

Part of the Green Energy and Technology book series (GREEN)

Table of contents

  1. Front Matter
    Pages i-xii
  2. Kássia R. N. da Silva, Marcela Z. Corazza, Jorge L. Raposo Jr.
    Pages 1-31
  3. Bruna Silveira Pacheco, Caroline Carapina da Silva, Samantha Coelho de Freitas, Lucas Moraes Berneira, Vinícius Lenz da Silva, Kathleen Winkel et al.
    Pages 33-55
  4. Caroline Carapina Da Silva, Bruna Silveira Pacheco, Samantha Coelho de Freitas, Lucas Moraes Berneira, Marco Aurélio Ziemann dos Santos, Lucas Pizzuti et al.
    Pages 81-110
  5. Keurison Figueredo Magalhães, Anderson Rodrigues Lima Caires, Tiago Andrade Chimenez, Mariele Cappelari Fripp, Fabíola Machado, Samuel Leite Oliveira
    Pages 111-125
  6. Liriana M. Roveda, Marcela Z. Corazza, Jorge L. Raposo Jr.
    Pages 127-157
  7. Cauê Alves Martins, Pablo Sebastián Fernández, Giuseppe Abíola Camara
    Pages 159-186

About this book

Introduction

This book advances the use of biodiesel—more environmentally friendly than traditional fossil fuels—by showing how it can be synthesized at a lower cost, with greater efficiency and as a more pure and stable product. It presents methods based on fluorescence spectroscopy, which are less time-consuming than the traditional Rancimat analysis for monitoring stability, and are therefore less prone to allowing oxidative decay in the biofuel. Biodiesel exploits a variety of raw materials, from freshly harvested cottonseed to recycled cooking oil. These are cheap to produce and generate fuel lower in polluting sulphur and aromatic compounds than its petroleum-based equivalent.

Beginning by addressing different protocols for synthesis based on fatty acids, methyl and ethyl esters, it then describes chemical analyses essential to establishing the purity of the biodiesel. It highlights in detail the use of multifunctional and synthetic antioxidants, and investigates the impact of synthetic chalcones and their derivatives on the oxidative stability of biodiesel.

The author goes on to explain how to ameliorate various influences – UV irradiation and metal contaminants for example – which increase the hazards of oxidation, such as degradation and instability. New pre-treatment procedures performed using ultrasonic energies, thermostatic bath and vortex stirring are not only more environmentally friendly, but cut down on the time-consuming process of determining metal content, and allow for the use of more environmentally friendly aqueous reagents. The book investigates and demonstrates these techniques on the basis of real-world results.

Further, it suggests the practical uses of byproducts of biodiesel production, for example, using glycerol as a source of energy and high valuable chemicals. These useful techniques aid any researcher exploring the production process of biodiesel and its stabilization and characteristics.

Keywords

Renewable Energy Alternative Feedstock Energy and Technology Alternative Additives Smart Use of Coproduct

Editors and affiliations

  • Magno Trindade
    • 1
  1. 1.Faculty of Exact Sciences and TechnologyFederal University of Grande DouradosDouradosBrazil

Bibliographic information

  • DOI https://doi.org/10.1007/978-3-319-73552-8
  • Copyright Information Springer International Publishing AG 2018
  • Publisher Name Springer, Cham
  • eBook Packages Energy
  • Print ISBN 978-3-319-73551-1
  • Online ISBN 978-3-319-73552-8
  • Series Print ISSN 1865-3529
  • Series Online ISSN 1865-3537
  • Buy this book on publisher's site