Petroleum Nanobiotechnology


Book Description

This book, Petroleum Nanobiotechnology: Modern Applications for a Sustainable Future, explores the unique fusion of biotechnology and nanotechnology as applied to the different sectors of the oil and gas industry. It is a concise resource on the most recent and most up-to-date bottom-up fabrication techniques in petroleum nanobiotechnology, covering the advantages of biofabrication over chemical or physical techniques from the point of being more cost-effective, ecofriendly, biocompatibly superior, and highly stable. The volume covers the important topic of microbial and phytosynthesis of metal and metal oxide nanoparticles. The key applications discussed here include the application of these nanoparticles in different sectors of the oil and gas industry, with special emphasis on antimicrobial applications, reduction of environmental pollutants, and bio-upgrading of petroleum and its fractions. The discussion of each application is augmented with a critical review of the potential for continued development. The book first provides an overview of petroleum microbiology and nanotechnology and proceeds to consider phytosynthesis of metal nanoparticles, microbial synthesis of metal nanoparticles, biosynthesis of metal oxide nanoparticles, nanobiotechnology and mitigation of microbial-influenced corrosion in petroleum industry, applications of nanobiotechnology in petroleum refining, and how nanobiotechnology can be used for petroleum wastewater treatment. This book covers the very important principle of nanobiotechnology as applied in the petroleum industry and how it can be used for: Oil recovery Microbial enhanced oil recovery Petroleum refinery, such as, for example, desulfurization, denitrogenation, demetallization, biotransformation, and bio-upgrading Bioremediation of oil polluted soil and water Mitigation of microbial corrosion and bio-fouling Toxicity of nano-materials and its obstacles upon application Nanobiotechnology in petroleum industry and the 17 goals of sustainable development The advantages of the application of nanobiotechnology in the oil industries are enormous and clearly outweigh any negligible cons. The success can have a huge impact on the exploration, production, refining, mitigation of corrosion, waste management, and economics. This informative volume will be valuable for petroleum engineers and petroleum microbiologists, scientists, and researchers concerned with nanotechnology, environmental pollution, petroleum biotechnology, petroleum microbiology, petroleum refining, and the petroleum industry in general.




Green Nanobiotechnology


Book Description

This book provides a comprehensive exploration of green nanotechnology covering principles, applications, and ethical considerations.Green Nanobiotechnology begins with an introductory exploration of nanotechnology, followed by in-depth discussions on the synthesis of ozone-friendly nanomaterials and the emerging practice of green synthesis. It delves into the diverse applications of green nanoparticles, spanning biomedical applications, tissue engineering, biosensors, antimicrobials, and vaccine development. It explores applications of nanotechnology in environmental sciences including bioremediation, microengineered ceramics for environmental protection, and the modification of advanced nano-polymer composites. The environmental fate and ecotoxicological implications of nanomaterials are thoroughly examined, followed by discussions on the energy-saving potential and sustainable fuel development in the realm of green nanotechnology. The book concludes with a focus on responsible and ethical considerations, addressing the legal, socio-economic, and ethical impacts of nanotechnology, making it an important resource for researchers, academics, and professionals in nanobiotechnology and biomedical sciences.




Nanobiotechnology for Sustainable Bioenergy and Biofuel Production


Book Description

Nanobiotechnology for Sustainable Bioenergy and Biofuel Production provides insights into the most recent innovations, trends, concerns and challenges in the production of biofuels. This book highlights a number of key research topics and practical applications of modern nanomaterials and nanocomposite-driven enzyme biotechnology for biofuels production, including the advances in the nanoscaffolds design (nanomaterials support) for immobilizing bioenergy producing enzymes (nanobiocatalyst system), the recent trends in biomass processing (untreated/treated agriculture and food waste, grasses, algal, etc.) using advanced nanobiocatalysts for biofuels production and the scale-up study of bioenergy production using nanomaterials immobilized enzymes and biofuel harvesting using nanomaterials. At the outset of new nanobiotechnology applications in biofuel production, there is a need for a new resource in the bioenergy field. This book delivers an overview of the contributions of biofuel production and the most up-to-date advances in nanobiotechnology to a diverse audience ranging from post-graduate students to researchers in biochemical engineering, biotechnology, bioremediation and environmental studies and pharmaceutical professionals. Key Features • Outlines the most recent nanobiotechnological advances in biofuels and bioenergy for biofuels productions • Covers biodiesel, bioethanol, biomethane, biohydrogen, biorefineries and biofuel harvesting using nanomaterials • Explains the scale-up nanobiotechnological study of biofuel production at the bioreactor level




Biodiesel Fuels


Book Description

This first volume of the Handbook of Biodiesel and Petrodiesel Fuels presents a representative sample of the population papers in the field of biodiesel fuels in general. Part I provides an overview of the research field on both biodiesel and petrodiesel fuels highlighting primary and secondary research fronts in these fields. Part II presents a representative sample of the population papers in the field of biooils covering major research fronts. The research on the biooils is a fundamental part of the research on the biodiesel fuels. The research in this field has intensified in recent years with the application of advanced catalytic technologies and nanotechnologies in both production and upgrading of biooils. It covers pyrolysis, hydrothermal liquefaction, and upgrading, and characterization and properties of biooils besides an overview of the research field. Part III presents a representative sample of the population papers in the field of biodiesel fuels in general covering major research fronts. The research in this field has progressed in the lines of production, properties, and emissions of biodiesel fuels. As in the case of biooils, catalysts and additives play a crucial role for the biodiesel fuels. It covers biomass-based catalyst-assisted biodiesel production, enzymatic biodiesel production, additives in biodiesel production, properties, characterization, performance, and policies of biodiesel fuels besides an overview of the research field. Part IV presents a representative sample of the population papers in the field of glycerol, biodiesel waste, covering major research fronts. The research in this field has intensified in recent years with the increasing volume of biodiesel fuels, creating eco-friendly solutions for these wastes of biodiesel fuels for producing valuable biofuels and biochemicals from glycerol. It covers biohydrogen and propanediol production from glycerol as a case study for bioenergy and biochemicals, respectively. This book will be useful to academics and professionals in the fields of Energy Fuels, Chemical Engineering, Physical Chemistry, Biotechnology and Applied Microbiology, Environmental Sciences, and Thermodynamics. Ozcan Konur is both a materials scientist and social scientist by training. He has published around 200 journal papers, book chapters, and conference papers. He has focused on the bioenergy and biofuels in recent years. In 2018, he edited Bioenergy and Biofuels, which brought together the work of over 30 experts in their respective field. He also edited the Handbook of Algal Science, Technology, and Medicine with a strong section on the algal biofuels in 2020.




Nanooptics and Photonics, Nanochemistry and Nanobiotechnology, and Their Applications


Book Description

This book highlights some of the latest advances in nanotechnology and nanomaterials from leading researchers in Ukraine, Europe and beyond. It features contributions presented at the 9th International Science and Practice Conference Nanotechnology and Nanomaterials (NANO2021), which was held on August 25–28, 2021 at Lviv Polytechnic National University, and was jointly organized by the Institute of Physics, the National Academy of Sciences of Ukraine, Lviv Polytechnic National University, University of Tartu (Estonia), University of Turin (Italy), Pierre and Marie Curie University (France), European Profiles S.A. (Greece), Representation of the Polish Academy of Sciences in Kyiv, University of Angers (France), Ruprecht Karl University of Heidelberg (Germany). Internationally recognized experts from a wide range of universities and research institutions share their knowledge and key findings on material properties, behavior, and synthesis. This book’s companion volume also addresses topics such as nano-optics, energy storage, and biomedical applications.




Petroleum Nanobiotechnology


Book Description

This book, Petroleum Nanobiotechnology: Modern Applications for a Sustainable Future, explores the unique fusion of biotechnology and nanotechnology as applied to the different sectors of the oil and gas industry. It is a concise resource on the most recent and most up-to-date bottom-up fabrication techniques in petroleum nanobiotechnology, covering the advantages of biofabrication over chemical or physical techniques from the point of being more cost-effective, ecofriendly, biocompatibly superior, and highly stable. The volume covers the important topic of microbial and phytosynthesis of metal and metal oxide nanoparticles. The key applications discussed here include the application of these nanoparticles in different sectors of the oil and gas industry, with special emphasis on antimicrobial applications, reduction of environmental pollutants, and bio-upgrading of petroleum and its fractions. The discussion of each application is augmented with a critical review of the potential for continued development. The book first provides an overview of petroleum microbiology and nanotechnology and proceeds to consider phytosynthesis of metal nanoparticles, microbial synthesis of metal nanoparticles, biosynthesis of metal oxide nanoparticles, nanobiotechnology and mitigation of microbial-influenced corrosion in petroleum industry, applications of nanobiotechnology in petroleum refining, and how nanobiotechnology can be used for petroleum wastewater treatment. This book covers the very important principle of nanobiotechnology as applied in the petroleum industry and how it can be used for: Oil recovery Microbial enhanced oil recovery Petroleum refinery, such as, for example, desulfurization, denitrogenation, demetallization, biotransformation, and bio-upgrading Bioremediation of oil polluted soil and water Mitigation of microbial corrosion and bio-fouling Toxicity of nano-materials and its obstacles upon application Nanobiotechnology in petroleum industry and the 17 goals of sustainable development The advantages of the application of nanobiotechnology in the oil industries are enormous and clearly outweigh any negligible cons. The success can have a huge impact on the exploration, production, refining, mitigation of corrosion, waste management, and economics. This informative volume will be valuable for petroleum engineers and petroleum microbiologists, scientists, and researchers concerned with nanotechnology, environmental pollution, petroleum biotechnology, petroleum microbiology, petroleum refining, and the petroleum industry in general.




Hydrotreating and Hydrocracking Processes in Refining Technology


Book Description

Written by an industry expert with over 50 years of experience, this book details the various solvent processes that are used in crude oil refineries. Providing an in-depth exploration of the different types of processes, as well as the types of feedstocks that can be used with them, this book prepares readers for changes as the industry evolves. Key Features: Describes feedstock evaluation and the effects of elemental, chemical, and fractional composition. Contains an extensive glossary of all related concepts in hydrotreating and hydrocracking processes. Considers next-generation processes and developments. This book is an essential guide for engineers, scientists, and students in the field of petroleum processing and refining technology, including professionals, technicians, management personnel, and academics.




Microbial Nanobiotechnology


Book Description

This edited book serves as a vital resource on the contributions of microorganisms to advances in nanotechnology, establishing their applications in diverse areas of biomedicine, environment, biocatalysis, food and nutrition, and renewable energy. It documents the impacts of microorganisms in nanotechnology leading to further developments in microbial nanobiotechnology. This book appeals to researchers and scholars of microbiology, biochemistry and nanotechnology.




Nanobiotechnology: Principles and Applications


Book Description

Nanobiotechnology is the application of nanotechnology in biological fields. Nanobiotechnology is a multidisciplinary field that currently engages researchers in conventional as well as advanced avenues of engineering and natural sciences.The recent developments in nanobiotechnology have impacted various socio-economic sectors, including medical, agriculture, food, textile, and other industries. Although the integration of nanomaterials with biology has led to the development of diagnostic devices, contrast agents, analytical tools, therapy, and drug-delivery vehicles, bionanotechnology research is still in its infancy. The full potential of developments in this field have yet to be realized. This book discusses various nano-engineered materials or nanocarriers that are used in different situations. It presents 8 chapters that cover the application of nanobiomaterials in environmental remediation, nanofertilisers, nanobiotics against antimicrobial resistance, nanobiosensors in pathogen detection, and nanotoxicity assessments. Each chapter is structured into easy-to-read sections that explain fundamental and applied concepts of nanobiomaterials. Readers will gain a current view of the biotechnological application of modern nanomaterials and nanoparticles. The book is intended to be a primer for students and researchers in agriculture, biotechnology, and biomedical engineering courses.




Nanobiotechnology for Bioremediation


Book Description

Nanobiotechnology for Bioremediation: Fundamentals and Mechanisms provides detailed information on nanomaterial applications for the bioremediation of a heavily contaminated environment. Relevant information is provided on the application of nanofibers, nanoscale zero-valent iron (nZVI), nanocomposites, and carbon nanotubes to rejuvenate the environment from different pollutants, such as heavy metals, chlorinated compounds, organic compounds, polyaromatic hydrocarbon, and hydrocarbons. The book also explores the application of nanomaterials as a sustainable green solution that helps prevent various high levels of contamination in the environment. Each chapter addresses the application of nanomaterials as a sustainable tool for managing innumerable environmental challenges. This helps readers translate their research findings into sustainable innovations to resolve their immediate environmental challenges. - Provides information on nanomaterial utilization for bioremediation of soil and water heavily polluted with pesticides and heavy metals - Outlines novel nanomaterials that could serve as adsorbents, especially in managing heavy metal–polluted wastewater - Explores nanomaterial applications derived from microorganisms via immobilizing or through novel remediating microbial enzymes