Sustainable Pretreatment/upgrading of High Free Fatty Acid Feedstocks for Biodiesel Production PDF Download
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Author: Majid Hosseini (Engineer)
Publisher:
ISBN:
Category : Algal biofuels
Languages : en
Pages : 157
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Book Description
The rationales of this research work were to investigate sustainable and environmentally friendly pretreatment processes that could be potentially viable in biodiesel production from cheaper feedstocks, also to examine less expensive harvesting techniques for collection of microalga Ochromonas danica (O. danica). To develop such sustainable pretreatment processes, the feasibility of upgrading waste cooking oil (WCO) using microalga O. danica was investigated. Two WCO samples with initial acid values (AV) of 10.7 and 3.9 (mg KOH/g) were examined. The AV of remaining oils was decreased by 2.8 and 2.4 mg KOH/g oil respectively. The fuel qualities of biodiesel made under the optimal conditions satisfied the standards of ASTM D6751. However, the yield and fuel properties (including the heating value) were better for the biodiesel prepared from the alga- treated WCO. Also evaluated in this study were two potentially less expensive flotation methods for harvesting the O. danica cells, one by micro-air bubbles and the other by droplets of WCO. According to the Taguchi method, the optimal condition for WCO-based flotation, in the test set-up used in this study, was 20 min for mixing duration, 20 min for flotation time, 420 rpm for mixing speed, and 10 (v/v)% of oil-to-sample ratio. Under this condition, over 80% of cells could be harvested with the floated oil layer. Oil residues remained in the processed water. Further water treatment might be necessary. Air flotation showed to be more effective. Performance, in terms of cell recovery and concentrating ratio, was best with stationary-phase cultures and at lower pH of 3.0-4.5. With proper increase of air flow rate along the flotation process, the recovery was consistently 90+% and could reach 98+% for samples of higher initial cell concentrations (> 1 x 108 cells/ml). As cells were responsible for foaming, the initial sample-to-column volume ratio should be lowered with increasing initial cell concentration (C0), so as to balance the foam generation (good for high recovery) with draining (good for high concentrating ratio). We also investigated the potential of a process based on complexation of the FFA in oil with aqueous solutions of multivalent cations. When maintained at 70° C for 4-6 h, oil-water mixture successfully separated into two phases with an inter-phase below the oil layer. The complexed-FFA was largely moved into the inter-phase and the aqueous phase while the oil layer with reduced FFA could be separated. Using CaCl2 as the complexing agent, the AV of the two selected oil samples in this study, having initial AV of 8.6 and 15.4 (mg KOH/g oil), were reduced to 3.2 ± 0.3 and 4.4 ± 0.2 (mg KOH/g oil) respectively. The FFA removal from oil would naturally lead to decrease (loss) of oil weight. The average oil loss (w/w) was 14 ± 1.4 % and 18 ± 2.2 % respectively, for the above two oil samples. When FeCl3 was used for complexation, the AV was reduced to 4.8 ± 0.1 and 6.5 ± 0.34 (mg KOH/g oil), and the average oil loss (w/w) was 10 ± 2 % and 14 ± 3 % correspondingly. The study results support the possibility of an integrated process of (1) removing FFA by complexation, (2) treatment of the FFA-containing water with the phagotrophic alga, and (3) harvesting the oil-laden algal cells with air flotation, as a potentially economic and environment-friendly process to upgrade the high FFA WCO for biodiesel production.
Author: Majid Hosseini (Engineer)
Publisher:
ISBN:
Category : Algal biofuels
Languages : en
Pages : 157
Get Book Here
Book Description
The rationales of this research work were to investigate sustainable and environmentally friendly pretreatment processes that could be potentially viable in biodiesel production from cheaper feedstocks, also to examine less expensive harvesting techniques for collection of microalga Ochromonas danica (O. danica). To develop such sustainable pretreatment processes, the feasibility of upgrading waste cooking oil (WCO) using microalga O. danica was investigated. Two WCO samples with initial acid values (AV) of 10.7 and 3.9 (mg KOH/g) were examined. The AV of remaining oils was decreased by 2.8 and 2.4 mg KOH/g oil respectively. The fuel qualities of biodiesel made under the optimal conditions satisfied the standards of ASTM D6751. However, the yield and fuel properties (including the heating value) were better for the biodiesel prepared from the alga- treated WCO. Also evaluated in this study were two potentially less expensive flotation methods for harvesting the O. danica cells, one by micro-air bubbles and the other by droplets of WCO. According to the Taguchi method, the optimal condition for WCO-based flotation, in the test set-up used in this study, was 20 min for mixing duration, 20 min for flotation time, 420 rpm for mixing speed, and 10 (v/v)% of oil-to-sample ratio. Under this condition, over 80% of cells could be harvested with the floated oil layer. Oil residues remained in the processed water. Further water treatment might be necessary. Air flotation showed to be more effective. Performance, in terms of cell recovery and concentrating ratio, was best with stationary-phase cultures and at lower pH of 3.0-4.5. With proper increase of air flow rate along the flotation process, the recovery was consistently 90+% and could reach 98+% for samples of higher initial cell concentrations (> 1 x 108 cells/ml). As cells were responsible for foaming, the initial sample-to-column volume ratio should be lowered with increasing initial cell concentration (C0), so as to balance the foam generation (good for high recovery) with draining (good for high concentrating ratio). We also investigated the potential of a process based on complexation of the FFA in oil with aqueous solutions of multivalent cations. When maintained at 70° C for 4-6 h, oil-water mixture successfully separated into two phases with an inter-phase below the oil layer. The complexed-FFA was largely moved into the inter-phase and the aqueous phase while the oil layer with reduced FFA could be separated. Using CaCl2 as the complexing agent, the AV of the two selected oil samples in this study, having initial AV of 8.6 and 15.4 (mg KOH/g oil), were reduced to 3.2 ± 0.3 and 4.4 ± 0.2 (mg KOH/g oil) respectively. The FFA removal from oil would naturally lead to decrease (loss) of oil weight. The average oil loss (w/w) was 14 ± 1.4 % and 18 ± 2.2 % respectively, for the above two oil samples. When FeCl3 was used for complexation, the AV was reduced to 4.8 ± 0.1 and 6.5 ± 0.34 (mg KOH/g oil), and the average oil loss (w/w) was 10 ± 2 % and 14 ± 3 % correspondingly. The study results support the possibility of an integrated process of (1) removing FFA by complexation, (2) treatment of the FFA-containing water with the phagotrophic alga, and (3) harvesting the oil-laden algal cells with air flotation, as a potentially economic and environment-friendly process to upgrade the high FFA WCO for biodiesel production.
Author: R Geetha Balakrishna
Publisher: Royal Society of Chemistry
ISBN: 1837672547
Category : Technology & Engineering
Languages : en
Pages : 303
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Book Description
Transportation remains one of the largest contributors to global carbon dioxide emissions with the majority of vehicles using fossil-based fuels such as gasoline and diesel. Therefore, alternatives that come from a renewable feedstock and create fewer carbon emissions are urgently needed. Biodiesel, an alternative to fossil-based diesel fuel, can be produced from renewable or waste feedstocks such as biomass, animal fats and industrial wastes making it much more sustainable. However, challenges remain in improving and refining the properties of biodiesel, developing production processes and choosing feedstocks with optimal sustainability. Focusing on recent advances in the areas of feedstocks for biodiesel, production processes, and testing and enhancement of properties, Developments in Biodiesel provides a balance between academic and industrial viewpoints across a range of topics. It is an ideal reference for both academics and industrialists interested in sustainable energy, sustainable fuels and biomass/waste valorisation.
Author: Majid Hosseini
Publisher: Academic Press
ISBN: 0128179384
Category : Science
Languages : en
Pages : 416
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Book Description
Advances in Feedstock Conversion Technologies for Alternative Fuels and Bioproducts: New Technologies, Challenges and Opportunities highlights the novel applications of, and new methodologies for, the advancement of biological, biochemical, thermochemical and chemical conversion systems that are required for biofuels production. The book addresses the environmental impact of value added bio-products and agricultural modernization, along with the risk assessment of industrial scaling. The book also stresses the urgency in finding creative, efficient and sustainable solutions for environmentally conscious biofuels, while underlining pertinent technical, environmental, economic, regulatory and social issues. Users will find a basis for technology assessments, current research capability, progress, and advances, as well as the challenges associated with biofuels at an industrial scale, with insights towards forthcoming developments in the industry. - Presents a thorough overview of new discoveries in biofuels research and the inherent challenges associated with scale-up - Highlights the novel applications and advancements for biological, biochemical, thermochemical and chemical conversion systems that are required for biofuels production - Evaluates risk management concerns, addressing the environmental impact of value added bio-products and agricultural modernization, and the risk assessment of industrial scaling
Author: Majid Hosseini
Publisher: Academic Press
ISBN: 0128179422
Category : Science
Languages : en
Pages : 449
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Book Description
Advanced Bioprocessing for Alternative Fuels, Bio-based Chemicals, and Bioproducts: Technologies and Approaches for Scale-Up and Commercialization demonstrates novel systems that apply advanced bioprocessing technologies to produce biofuels, bio-based chemicals, and value-added bioproducts from renewable sources. The book presents the use of novel oleaginous microorganisms and utilization strategies for applications of advanced bioprocessing technology in biofuels production and thoroughly depicts the technological breakthroughs of value added bioproducts. It also aides in the design, evaluation and production of biofuels by describing metabolic engineering and genetic manipulation of biofuels feedstocks. Users will find a thorough overview of the most recent discoveries in biofuels research and the inherent challenges associated with scale up. Emphasis is placed on technological milestones and breakthroughs in applications of new bioprocessing technologies for biofuels production. Its essential information can be used to understand how to incorporate advanced bioprocessing technologies into the scaling up of laboratory technologies to industrial applications while complying with biofuels policies and regulations. - Presents the use of novel oleaginous microorganisms and utilization strategies for the applications of advanced technologies in biofuels production - Provides a basis for technology assessments, progress and advances, as well as the challenges associated with biofuels at industrial scale - Describes, in detail, technologies for metabolic engineering and genetic manipulation of biofuels feedstocks, thus aiding in the design, evaluation and production of advanced biofuels
Author: Samuel Lalthazuala Rokhum
Publisher: John Wiley & Sons
ISBN: 1119771331
Category : Technology & Engineering
Languages : en
Pages : 436
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Book Description
An incisive discussion of biofuel production from an economically informed technical perspective that addresses sustainability and commercialization together In Biodiesel Production: Feedstocks, Catalysts and Technologies, renowned chemists Drs Rokhum, Halder, Ngaosuwan and Assabumrungrat present an up-to-date account of the most recent developments, challenges, and trends in biodiesel production. The book addresses select feedstocks, including edible and non-edible oils, waste cooking oil, microalgae, and animal fats, and highlights their advantages and disadvantages from a variety of perspectives. It also discusses several catalysts used in each of their methods of preparation, as well as their synthesis, reactivity, recycling techniques, and stability. The contributions explore recently developed technologies for sustainable production of biodiesel and provides robust treatments of their sustainability, commercialization, and their prospects for future biodiesel production. A thorough introduction to the various catalysts used in the preparation of biodiesel and their characteristics Comprehensive explorations of biofuel production from technical and economic perspectives, with complete treatments of their sustainability and commercialization Practical discussions of the development of new strategies for sustainable and economically viable biodiesel production In-depth examinations of biodiesel feedstocks, catalysts, and technologies Perfect for academic researchers and industrial scientists working in fields that involve biofuels, bioenergy, catalysis, and materials science, Biodiesel Production: Feedstocks, Catalysts and Technologies will also earn a place in the libraries of bioenergy regulators.
Author: Bhaskar Singh
Publisher: Elsevier
ISBN: 0128242310
Category : Science
Languages : en
Pages : 270
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Book Description
Waste and Biodiesel: Feedstocks and Precursors for Catalysts is a comprehensive reference on waste material utilization at various stages of the biodiesel production process. The book discusses the technologies for converting cooking oil and waste animal fats to biodiesel, along with the efficacy of municipal waste derived lipids in biodiesel production. The use of wastewater-grown microalgae feedstock, oleaginous fungi, bacteria and yeast produced using waste substrate are also discussed. The use of various catalysts is addressed, including CaO derived from waste shell materials, fish and animal waste, inorganic waste materials like red mud and cement waste, and whole cell enzymes using waste substrate. Each chapter addresses the challenges of high production costs at a pilot and industrial scale, offering methods of cost reduction and waste remediation. This book is a valuable resource for researchers and industry professionals in environmental science, energy and renewable energy. - Provides a comprehensive assessment of waste for biodiesel production, including novel feedstocks such as waste cooking oil, animal fats and municipal waste - Discusses the synthesis of cost-effective catalysts from various waste materials such as animal bones, fish scales, shells, red mud and cement waste - Presents multiple methods of cost reduction in biodiesel production, e.g., by utilizing waste as a nutrient source for oleaginous algae and fungi
Author: Brajendra K. Sharma
Publisher: MDPI
ISBN: 3039435175
Category : Science
Languages : en
Pages : 166
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Book Description
This book provides a collection of research and review articles useful for researchers, engineers, students and industry experts in the bioenergy field. The practical and valuable information can be utilized for developing and implementing renewable energy projects, selecting different waste feedstocks, technologies, and products. A detailed insight into advanced technologies such as hydrothermal liquefaction, torrefaction, and supercritical CO2 extraction for making sustainable biofuels and chemicals is provided. A case study on food waste-to-energy valorization processes in Latin America provides experts’ insights to promote a circular economy.
Author: Chinwe P. Okonkwo
Publisher: John Wiley & Sons
ISBN: 1394258070
Category : Technology & Engineering
Languages : en
Pages : 468
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Book Description
Complete and practical guidance on using biodegradable feedstocks for biodiesel production Feedstocks for Sustainable Biodiesel Production Characterization, Selection, and Optimization 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. This book explores topics such as: Key characteristics of biodiesel, using biodiesel as an alternative to petroleum diesel, and a review of the latest industry standards, practices, and trends Basis of the selection of specific (including nonedible) feedstocks for different applications and the addition of new, innovative feedstocks in recent years Specific sustainability benefits of nonedible feedstocks, which can be grown on abandoned land where they do not compete with food crops Government policies aimed at finding fossil fuel alternatives which will increase biodegradable feedstock adoption Experimental and predictive modeling of biodiesel produced from novel feedstocks using computational intelligence techniques 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.
Author: R Luque
Publisher: Elsevier
ISBN: 0857095862
Category : Technology & Engineering
Languages : en
Pages : 305
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Book Description
Biodiesel is one of the main biofuels capable of substituting fossil fuel usage in compression ignition vehicles, and is used in a variety of fuel blends worldwide. First-generation biodiesel has been used in national markets for some time, with fuel quality standards in place for this purpose. There remain, however, several restrictions to sustainable and long term market development, which is influenced by many factors, including food vs. fuel pressures. The development of new generations of biodiesel, aimed at more sustainable and effective feedstock utilisation alongside improved production efficiency and fuel quality, is critical to the future both of this industry and of the continuing use of biodiesel fuels in transportation.This book provides a timely reference on the advances in the development of biodiesel fuels, production processes and technologies. Part one reviews the life cycle sustainability assessment and socio-economic and environmental policy issues associated with advanced biodiesel production, as well as feedstocks and fuel quality standards. This coverage is extended in Part two, with chapters focussing on the development of methods and catalysts essential to the improvement and optimisation of biodiesel production processes and technologies.With its distinguished editors and international team of contributors, Advances in biodiesel production a standard reference for chemical, biochemical and industrial process engineers, as well as scientists and researchers in this important field. - Provides a timely reference on the advances in the development of biodiesel fuels, production processes and technologies - Reviews the life cycle sustainability assessment and socio-economic and environmental policy issues associated with advanced biodiesel production, as well as feedstocks and fuel quality standards - Discusses the development of methods and catalysts essential to the improvement and optimisation of biodiesel production processes and technologies
Author: Chinwe P. Okonkwo
Publisher: John Wiley & Sons
ISBN: 1394258089
Category : Technology & Engineering
Languages : en
Pages : 468
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Book Description
Complete and practical guidance on using biodegradable feedstocks for biodiesel production Feedstocks for Sustainable Biodiesel Production: Characterization, Selection, and Optimization 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. This book explores topics such as: Key characteristics of biodiesel, using biodiesel as an alternative to petroleum diesel, and a review of the latest industry standards, practices, and trends Basis of the selection of specific (including nonedible) feedstocks for different applications and the addition of new, innovative feedstocks in recent years Specific sustainability benefits of nonedible feedstocks, which can be grown on abandoned land where they do not compete with food crops Government policies aimed at finding fossil fuel alternatives which will increase biodegradable feedstock adoption Experimental and predictive modeling of biodiesel produced from novel feedstocks using computational intelligence techniques 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.
