Products related to Biofuel:
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Microbial Biofuel : A Sustainable Source of Renewable Energy
Microbial Biofuel: A Sustainable Source of Renewable Energy explores microbial biofuel production from a technical standpoint addressing a wide range of topics including bio alcohol, biodiesel, biohydrogen, biomethane, biohythane, jet fuel, drop-in fuel, bioelectricity, bio-oil, biomass to biofuel, carbon capture, and more. Each chapter provides an in-depth examination of a specific biofuel type, discussing the underlying science, production processes, challenges, and its potential applications.The title draws examples from the latest research and advancements in the field, including cutting-edge technologies, methodologies, and case studies.It covers advances in fermentation strategies and commercial scale implementation of microbial technology for biofuel production along with comprehensive information on bio alcohol, biodiesel, biohydrogen, biomethane etc.The book explores practical applications of microbial biofuels and uses real life examples and case studies.Moreover, the book addresses sustainability and environmental benefits of using renewable energy. The title is an ideal read for graduate students and researchers specialising in bioenergy and chemical engineering.
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Algal Biofuel : Sustainable Solution
Algal Biofuel: Sustainable Solution primarily focuses on the different aspects of bioenergy production using algal biomass as microalgae are considered the optimum feedstock for bioenergy production.The major aim is to thoroughly review the available bioenergy options, challenges in bioenergy production, availability of bioenergy feedstock, and biomass to bioenergy conversion process.This book also highlights the feasibility of lignocellulosic biomass, crop residues, and non-edible oil seeds for generation of different bioenergy products.It will be helpful for researchers and other stakeholders working in the area of bioenergy production for development of innovative concepts in emerging areas of bioenergy. Print edition not for sale in South Asia (India, Sri Lanka, Nepal, Bangladesh, Pakistan and Bhutan).
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Biofuel Technologies for a Sustainable Future: India and Beyond
This book examines the key aspects that will define future sustainable energy systems: biofuels, green nanomaterials and the production of bioethanol and bio-hydrogen from bio-waste.Bio-based fuels are the future energy carriers for internal combustion engines as they have lower environmental impact and higher efficiency.The book clearly illustrates the requirement for a unified engineering approach based on solid mathematical and engineering principles.Aside from the ecological advantages, support for sustainable energy can help the socioeconomic situation of developing countries by providing a consistent supply of new energy along with the generation of new job opportunities.The sustainable energy applications and existing contextual investigations provide useful guidance for the broad comprehension of the significance of sustainable energy. Technical topics discussed in the book include: Thermochemical Conversion process;Catalytic conversion process;Rankine cycle;Nanomaterials;
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Biofuel Production Using Anaerobic Digestion
This book provides lucid and instructive information about waste biomass, its potential, and the methods employed in energy generation.Topics covered include the basic principles, applications, recent advances, and the technical and economic considerations of waste-to-energy (WTE) technology.It highlights and elucidates essential concepts, mechanisms, applications, and useful outcomes of WTE technologies.In addition, it also provides a few example problems with design data for energy generation from waste biomass which will help the readers to understand the basics of WTE technologies.The book is structured with an overview at the start of each chapter presenting an outline of its content and a list of relevant discussions targeted toward readers.To illustrate the types of waste biomass, principles, and process of various thermal and biochemical process technologies, over 90 illustrations including graphs, diagrams, and photographs are provided.To help the readers improve their knowledge of the subject and to increase the utility of this book, the characteristics of waste biomass, operation conditions of different processes, and global status of WTE technologies are provided in tabular format.For that purpose, over 50 tables are provided. Selected references are also provided for this book.This book is primarily intended for researchers and professionals working in the area of bioenergy.It can also be used as a primary or secondary text for graduate courses and professional training programs.
Price: 99.99 £ | Shipping*: 0.00 £
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What are the production costs of biofuel?
The production costs of biofuel can vary depending on the feedstock used and the production process. Generally, the main costs involved in biofuel production include the cost of feedstock, processing equipment, labor, transportation, and maintenance. Additionally, factors such as government subsidies, economies of scale, and technological advancements can also impact the overall production costs of biofuels. Overall, biofuel production costs are typically higher than those of traditional fossil fuels, but they are expected to decrease as the industry continues to grow and innovate.
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What is the difference between biofuel and regular fuel?
Biofuel is derived from organic materials such as plants or animal waste, while regular fuel is derived from fossil fuels like oil, coal, or natural gas. Biofuels are considered more environmentally friendly as they produce lower levels of greenhouse gas emissions compared to regular fuel. Additionally, biofuels are renewable resources, whereas regular fuel is a finite resource that takes millions of years to form.
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How can biofuel be produced from wine and cheese?
Biofuel can be produced from wine and cheese through a process called anaerobic digestion. In this process, the organic materials from wine and cheese, such as grape pomace and whey, are broken down by microorganisms in the absence of oxygen to produce biogas. This biogas can then be processed to produce biofuel, such as ethanol or biodiesel, which can be used as a renewable energy source. This process not only helps to reduce waste from the wine and cheese production process, but also provides a sustainable alternative to traditional fossil fuels.
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Would the production of biofuel work without enzymes? If not, why?
No, the production of biofuel would not work without enzymes. Enzymes are essential for breaking down the complex carbohydrates found in plant materials into simple sugars that can be fermented into biofuels. Without enzymes, the process of converting biomass into biofuels would be extremely slow and inefficient. Enzymes act as catalysts, speeding up the chemical reactions necessary for biofuel production, and without them, the process would not be economically viable. Therefore, enzymes are crucial for the successful production of biofuels.
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Biofuel Cells and Energy Generation
Biofuel Cells and Energy Generation analyzes the current state-of-the-art and offers solutions to key challenges in developing carbohydrate-based biofuel cell technology.The book provides a critical review of biofuel cell technology, including principles, components, applications, obstacles, and prospects, and assesses the economic, safety, health, and environmental implications.Sections focus on the diversity of biomass resources, the fundamental characteristics of biomass, the major effects of biomass composition variations on biofuel cell technology, and a thorough review of the research literature on approaches for decreasing the detrimental impacts of biomass variability on fuel cells. In addition, a comprehensive examination of biofuel cell technology's current state and applications is presented that is supported by an explanation of the fundamentals, concepts, mechanisms, characteristics, optimal parameters, analytical characterization techniques, diverse types, all-category materials, catalysts, engineering designs, implantable biofuel cells, applications, and critical criteria.A variety of applications are addressed, including power implanted devices in biomedical applications, biosensors for smart communities, and nanomaterials for biofuel cells, among others.For each application, unresolved issues are identified, and solutions proposed.
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Biofuel container with TÜV 0,5 l
A biofireplace with TÜV has an reinforced special chamber that prevents pouring fuel as a result of accidental overflow. It also has a indicator of maximum biofuel rate and the absorbing insert, that reduces consumption and protects against spills as a result of tilting the device (even with burning fuel in a container). Biofuel container: absorbing insert placed in container provides safety of the biofireplace and eliminates any risk of spillage of fuel, even in case of biocontainer`s overturning. Biocontainer is made of stainless steel. Extinguishing the flame in biofireplace is realized through the use of movable cursor, which can be locked by using a special handle supplied with the unit.
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Biofuel container with TÜV 0,2 l
A biofireplace with TÜV has an reinforced special chamber that prevents pouring fuel as a result of accidental overflow. It also has a indicator of maximum biofuel rate and the absorbing insert, that reduces consumption and protects against spills as a result of tilting the device (even with burning fuel in a container). Biofuel container: absorbing insert placed in container provides safety of the biofireplace and eliminates any risk of spillage of fuel, even in case of biocontainer`s overturning. Biocontainer is made of stainless steel. Extinguishing the flame in biofireplace is realized through the use of movable cursor, which can be locked by using a special handle supplied with the unit.
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Box of 8 biofuel auto-starters Uco
Box of 8 automatic biofuel fire starters Long live fire! In the rain, in the snow, in the wind, on Midsummer's Day, start all your fires without any problem with an eco-friendly fuel and a foolproof ignition. Characteristics: Dimensions: 6.5 x 5 x 3.3 cm Weight: 60 g Made of sugar cane and vegetable wax Scraper in the box and on the sides of the box
Price: 13.91 £ | Shipping*: 16.7900 £
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Are renewable resources the same as sustainable resources?
Renewable resources and sustainable resources are related concepts but not exactly the same. Renewable resources are those that can be replenished naturally over time, such as sunlight, wind, and water. Sustainable resources, on the other hand, refer to resources that are managed in a way that meets current needs without compromising the ability of future generations to meet their own needs. While renewable resources are often considered sustainable, not all sustainable resources are necessarily renewable, as some non-renewable resources can be managed in a way that ensures their long-term availability.
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Are smart home systems sustainable?
Smart home systems have the potential to be sustainable, as they can help reduce energy consumption and waste. For example, smart thermostats can optimize heating and cooling, reducing energy usage. Additionally, smart lighting systems can be programmed to turn off when not in use, saving electricity. However, the production and disposal of smart home devices can contribute to electronic waste, so it's important to consider the lifecycle impact of these systems. Overall, with proper use and disposal, smart home systems can contribute to sustainability efforts.
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What are some ideas for an innovative and sustainable product that does not exist yet?
One innovative and sustainable product idea could be a biodegradable and compostable alternative to single-use plastic packaging, such as a food wrap or container made from plant-based materials. Another idea could be a solar-powered water purification system that can provide clean drinking water in remote or disaster-stricken areas. Additionally, a wearable technology that uses kinetic energy from movement to generate electricity for charging electronic devices could be a sustainable and innovative product.
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How did the product concept of Smart UI become an innovative idea?
The product concept of Smart UI became an innovative idea by recognizing the need for a more intuitive and user-friendly interface in the rapidly evolving technology landscape. The idea stemmed from the understanding that traditional user interfaces were becoming outdated and cumbersome, and there was a growing demand for a smarter, more responsive UI. By leveraging advanced technologies such as artificial intelligence, machine learning, and natural language processing, the Smart UI concept aimed to revolutionize the way users interact with technology, making it more seamless and efficient. This innovative approach to UI design has the potential to significantly enhance user experiences across various devices and platforms.
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