Details
Feedstocks for Sustainable Biodiesel Production
Characterization, Selection, and Optimization1. Aufl.
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179,99 € |
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| Verlag: | Wiley |
| Format: | |
| Veröffentl.: | 21.08.2024 |
| ISBN/EAN: | 9781394258093 |
| Sprache: | englisch |
| Anzahl Seiten: | 464 |
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Beschreibungen
<p><b>Complete and practical guidance on using biodegradable feedstocks for biodiesel production</b> <p><i>Feedstocks for Sustainable Biodiesel Production: Characterization, Selection, and Optimization</i> helps readers understand the advantages, challenges, and potential of different biodegradable feedstock options that can be used in biodiesel production, covering methods of feedstock sourcing extraction, environmental concerns, cost-benefit aspects, practical applications, and more. Specific biodegradable feedstocks covered in this text include chrysobalamus icaco, cussonia bateri, elaeis guineensis, waste cooking oils, moringa oleifera, jatropha curcas, chlorophyceae (unicellular green algae), fucus vesiculosus (micro algae), afzelia africana, cucurbita pepo, hura crepitans, cuyperus esculentus, colocynthus vulgaris, and others. <p>This book explores topics such as: <ul><li> Key characteristics of biodiesel, using biodiesel as an alternative to petroleum diesel, and a review of the latest industry standards, practices, and trends</li> <li> Basis of the selection of specific (including nonedible) feedstocks for different applications and the addition of new, innovative feedstocks in recent years</li> <li> Specific sustainability benefits of nonedible feedstocks, which can be grown on abandoned land where they do not compete with food crops</li> <li> Government policies aimed at finding fossil fuel alternatives which will increase biodegradable feedstock adoption</li> <li> Experimental and predictive modeling of biodiesel produced from novel feedstocks using computational intelligence techniques</li></ul> <p>Providing both core foundational knowledge on the subject as well as insight on how to practically transition away from fossil fuels, this book is an essential reference for engineering professionals with a specific interest in biodiesel production, sustainability, renewable energy, and environmental conservation.
<p>Preface xix</p> <p>1 Exploring Sustainable Biofuel Sources: A Comprehensive Overview 1</p> <p>2 Chrysobalanus icaco: A Sustainable and Biodegradable Feedstock for Biodiesel Production 9</p> <p>3 Utilization of Elaeis guineensis as an Eco-friendly Feedstock for Biodiesel Production 23</p> <p>4 Waste Cooking Oils for Biodiesel Production Using a Pyrolyzed Corn Cob 41</p> <p>5 Exploring Jansa Tree Seed Oil as a Biodegradable Feedstock for Sustainable Biodiesel Production 61</p> <p>6 Production of Biodiesel by Implementing Hura crepitans as Feedstock 75</p> <p>7 Sustainable Biodiesel Production from Cyperus esculentus (Tiger Nut) 91</p> <p>8 Sustainable Biodiesel Production Using Cucurbita pepo as a Feedstock 109</p> <p>9 Sustainable Biodiesel Production with Sweet Sorghum as a Renewable Feedstock 127</p> <p>10 Sustainable Biodiesel Production with Jatropha as a Renewable Feedstock 143</p> <p>11 Harnessing the Potential of Water Hyacinth for Sustainable Biodiesel Production 169</p> <p>12 Sustainable Biodiesel Production by Exploring Sunflower as a Potential Feedstock 185</p> <p>13 Sustainable Biodiesel Production Using Moringa oleifera as Biodegradable Feedstock 209</p> <p>14 Sustainable Biodiesel Production with Hemp as a Renewable Feedstock 225</p> <p>15 Exploration of the Potential Benefits, Challenges, and Opportunities Associated with Utilizing Rapeseed Oil in Biodiesel Production 241</p> <p>16 Sustainable Biodiesel Production by Exploring Novel Nonedible Aidan Seed as a Potential Feedstock 259</p> <p>17 Integrating Response Surface Methodology (RSM) and Grey Wolf Optimization (GWO) for Sustainable Biodiesel Production from Tobacco Seeds 275</p> <p>18 Predictive Modeling of Biodiesel Production from Chrysobalanus Icaco: A Fuzzy Logic Approach 321</p> <p>19 Parametric Investigation of Biodiesel Production from Biodegradable Feedstock Using Artificial Neural Network (ANN) Models 349</p> <p>20 Modeling Sustainable Biofuel Production from Tobacco Seeds by Implementing Response Surface Methodology (RSM) and Adaptive Neuro-Fuzzy Inference System (ANFIS) 369</p> <p>21 Sustainable Biodiesel Production: Navigating the Green Frontiers 409</p> <p>Conclusion 427</p> <p>Index 429</p>
<p><b>Chinwe P. Okonkwo, Ph.D.,</b> is a Lecturer in the Department of Pure and Industrial Chemistry within the Faculty of Physical Sciences at Nnamdi Azikiwe University, Awka, Nigeria. She collaborates with the Department of Chemical Engineering at Cape Peninsula University of Technology, South Africa. Her research interests include Green and Renewable Energy, Catalysis, Biofuels, and Analytical/Environmental Chemistry. <p><b>Modestus O. Okwu, Ph.D.,</b> is an Associate Professor in the Department of Mechanical Engineering at the Federal University of Petroleum Resources Effurun (FUPRE) in Delta State, Nigeria. He is currently a visiting research fellow at Brunel University London, United Kingdom. Prof. Okwu has several years of postdoctoral experience in the Department of Mechanical and Industrial Engineering at the University of Johannesburg, South Africa.
<p><b>Complete and practical guidance on using biodegradable feedstocks for biodiesel production</b> <p><i>Feedstocks for Sustainable Biodiesel Production: Characterization, Selection, and Optimization</i> helps readers understand the advantages, challenges, and potential of different biodegradable feedstock options that can be used in biodiesel production, covering methods of feedstock sourcing extraction, environmental concerns, cost-benefit aspects, practical applications, and more. Specific biodegradable feedstocks covered in this text include chrysobalamus icaco, cussonia bateri, elaeis guineensis, waste cooking oils, moringa oleifera, jatropha curcas, chlorophyceae (unicellular green algae), fucus vesiculosus (micro algae), afzelia africana, cucurbita pepo, hura crepitans, cuyperus esculentus, colocynthus vulgaris, and others. <p>This book explores topics such as: <ul><li> Key characteristics of biodiesel, using biodiesel as an alternative to petroleum diesel, and a review of the latest industry standards, practices, and trends</li> <li> Basis of the selection of specific (including nonedible) feedstocks for different applications and the addition of new, innovative feedstocks in recent years</li> <li> Specific sustainability benefits of nonedible feedstocks, which can be grown on abandoned land where they do not compete with food crops</li> <li> Government policies aimed at finding fossil fuel alternatives which will increase biodegradable feedstock adoption</li> <li> Experimental and predictive modeling of biodiesel produced from novel feedstocks using computational intelligence techniques</li></ul> <p>Providing both core foundational knowledge on the subject as well as insight on how to practically transition away from fossil fuels, this book is an essential reference for engineering professionals with a specific interest in biodiesel production, sustainability, renewable energy, and environmental conservation.
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