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  • Advances in Combustion Technology
    Advances in Combustion Technology

    This edited volume on combustion technology covers recent developments and provides a broad perspective of the key challenges in this emerging field.Divided into two sections, the first one covers micro-combustion systems, hydrogen combustors, combustion systems for gas turbines and IC engines, coal combustors for power plants and gasifier systems.The second section focusses on combustion systems pertaining to aerospace including supersonic combustors, rocket engines and gel propellant combustion.Issues related to energy producing devices in power generation, process industries and aerospace vehicles and efficient and eco-friendly combustion technologies are also explained. Features:Provides comprehensive coverage of recent advances in combustion technologyExplains definite concepts about the design and development in combustion systemsCaptures developments relevant for the aerospace area including gel propellant, aluminium-based propellants, gasification and gas turbinesAims to introduce the combustion system in different industriesExpounds novel combustion systems with reference to pertinent renewable technologiesThis book is aimed at researchers and graduate students in chemical, mechanical and aerospace engineering, energy and environmental engineering, and thermal engineering.This book is also aimed at practicing engineers and decision makers in industry and research labs, and petroleum utilization.

    Price: 115.00 £ | Shipping*: 0.00 £
  • Spontaneous Combustion
    Spontaneous Combustion


    Price: 43.99 £ | Shipping*: 0.00 £
  • Innovation and Development of Knowledge Societies : Artificial Intelligence and Knowledge-Based Socioeconomic Growth
    Innovation and Development of Knowledge Societies : Artificial Intelligence and Knowledge-Based Socioeconomic Growth

    This book examines the role that intellectual property plays in fostering innovation within knowledge societies, with a particular focus on the role of emerging technologies such as Artificial Intelligence tools. Creativity and the generation of new knowledge across the broad spectrum of intellectual property are essential sources of growth for knowledge societies.This includes the major areas of copyright, inventions and patents, trademarks and geographical indications.This book acknowledges the societal and cultural character of knowledge societies, discussing how Intellectual Property (IP) Law plays a pivotal role in safeguarding innovation, thereby fostering evolution.As emerging technologies and artificial intelligence redefine the landscape, the book identifies both new challenges and opportunities in enhancing innovation prowess and nurturing knowledge societies.Suggesting regulations which prioritise copyright, trademarks, and patents as fundamental instruments in international commerce, the book presents a framework for IP Law through which knowledge societies can thrive. The book will appeal to researchers in the field of Intellectual Property Law, international law, business law and emerging technologies such as AI.

    Price: 135.00 £ | Shipping*: 0.00 £
  • Gas-Phase Combustion Chemistry
    Gas-Phase Combustion Chemistry

    This book differs from its out of print 1984 predecessorl primarily by lacking theoretical chapters on combustion modeling and elementary reaction rate coeffi­ cients.While noteworthy advances in these subjects have been made since 1984, it was decided to mention theory in this book only where appropriate in chap­ ters describing combustion chemistry itself.Otherwise, space limitation would have forced us to discuss only new developments in theoretical areas, thereby abandoning our goal of keeping this book readable by newcomers to the field of combustion modeling.Contemporary modeling and rate coefficient theory as applied to combustion deserve a book of their own.A second omission is a chapter devoted to reviewing the elementary reactions that contribute to the combustion chemistry of hydrogen, carbon monoxide, and hydrocarbon or alternate fuels.Readers looking for guidance to the current knowledge we have in this area will find a broad outline and extensive references to the review and archival literature in Chapter 1, where the essential features of combustion chemistry modeling are surveyed.

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  • How much development potential is still in combustion engine cars?

    While combustion engine cars have been the dominant technology for decades, there is still some development potential left in them. Manufacturers are continuously working on improving the efficiency and reducing emissions of combustion engines through advancements in technology such as turbocharging, direct injection, and variable valve timing. However, the long-term future of combustion engine cars is uncertain due to the increasing focus on electric vehicles and stricter emissions regulations. As a result, the development potential for combustion engine cars may be limited compared to electric vehicles.

  • How much development potential is still left in combustion engine cars?

    There is still some development potential left in combustion engine cars, particularly in improving fuel efficiency and reducing emissions. Advances in technology such as turbocharging, direct fuel injection, and variable valve timing have already helped to make combustion engines more efficient. However, further improvements can be made in optimizing engine design, enhancing combustion processes, and incorporating hybrid technology to increase overall efficiency and reduce environmental impact. Despite the potential for further development, the shift towards electric vehicles is gaining momentum as a more sustainable long-term solution.

  • What is combustion?

    Combustion is a chemical reaction that occurs when a substance reacts with oxygen to produce heat and light. This reaction typically involves the rapid oxidation of a fuel source, such as wood, gasoline, or natural gas. Combustion is a key process in many everyday activities, such as burning fuel for transportation, heating homes, and cooking food. It is also a major source of energy production in power plants and engines.

  • What is the difference between combustion energy and combustion enthalpy?

    Combustion energy refers to the total energy released during a combustion reaction, including both the heat and light energy. It is the total amount of energy released when a substance undergoes combustion. On the other hand, combustion enthalpy refers to the heat energy released during a combustion reaction at constant pressure. It is the heat change that occurs during the combustion process. In summary, combustion energy includes all forms of energy released during combustion, while combustion enthalpy specifically refers to the heat energy released at constant pressure.

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  • Innovation in Music: Technology and Creativity
    Innovation in Music: Technology and Creativity

    Innovation in Music: Technology and Creativity is a groundbreaking collection bringing together contributions from instructors, researchers, and professionals.Split into two sections, covering composition and performance, and technology and innovation, this volume offers truly international perspectives on ever-evolving practices. Including chapters on audience interaction, dynamic music methods, AI, and live electronic performances, this is recommended reading for professionals, students, and researchers looking for global insights into the fields of music production, music business, and music technology.

    Price: 53.99 £ | Shipping*: 0.00 £
  • Internal Combustion Engines : Applied Thermosciences
    Internal Combustion Engines : Applied Thermosciences

    A comprehensive resource covering the foundational thermal-fluid sciences and engineering analysis techniques used to design and develop internal combustion engines Internal Combustion Engines: Applied Thermosciences, Fourth Edition combines foundational thermal-fluid sciences with engineering analysis techniques for modeling and predicting the performance of internal combustion engines. This new 4th edition includes brand new material on: New engine technologies and conceptsEffects of engine speed on performance and emissionsFluid mechanics of intake and exhaust flow in enginesTurbocharger and supercharger performance analysisChemical kinetic modeling, reaction mechanisms, and emissionsAdvanced combustion processes including low temperature combustionPiston, ring and journal bearing friction analysis The 4th Edition expands on the combined analytical and numerical approaches used successfully in previous editions.Students and engineers are provided with several new tools for applying the fundamental principles of thermodynamics, fluid mechanics, and heat transfer to internal combustion engines. Each chapter includes MATLAB programs and examples showing how to perform detailed engineering computations.The chapters also have an increased number of homework problems with which the reader can gauge their progress and retention.All the software is ‘open source’ so that readers can see in detail how computational analysis and the design of engines is performed.A companion website is also provided, offering access to the MATLAB computer programs.

    Price: 92.95 £ | Shipping*: 0.00 £
  • Internal Combustion Engine Fundamentals 2E
    Internal Combustion Engine Fundamentals 2E

    The long-awaited revision of the most respected resource on Internal Combustion Engines --covering the basics through advanced operation of spark-ignition and diesel engines. Written by one of the most recognized and highly regarded names in internal combustion engines this trusted educational resource and professional reference covers the key physical and chemical processes that govern internal combustion engine operation and design.Internal Combustion Engine Fundamentals, Second Edition, has been thoroughly revised to cover recent advances, including performance enhancement, efficiency improvements, and emission reduction technologies.Highly illustrated and cross referenced, the book includes discussions of these engines’ environmental impacts and requirements.You will get complete explanations of spark-ignition and compression-ignition (diesel) engine operating characteristics as well as of engine flow and combustion phenomena and fuel requirements.Coverage includes:•Engine types and their operation•Engine design and operating parameters•Thermochemistry of fuel-air mixtures•Properties of working fluids•Ideal models of engine cycles•Gas exchange processes•Mixture preparation in spark-ignition engines•Charge motion within the cylinder•Combustion in spark-ignition engines•Combustion in compression-ignition engines•Pollutant formation and control•Engine heat transfer•Engine friction and lubrication•Modeling real engine flow and combustion processes•Engine operating characteristics

    Price: 148.99 £ | Shipping*: 0.00 £
  • Sealey Combustion Leak Detector Fluid
    Sealey Combustion Leak Detector Fluid

    Suitable for use with Model No's VS0061 and VS0062 Combustion Leak Detectors and other leading brands of detector. Fluid changes colour on detection of CO2 gas. Features and Benefits • Suitable for use with Model No's VS0061 and VS0062 Combustion Leak Detectors and other leading brands of detector. • Fluid changes colour on detection of CO2 gas. • Model No. VS0061F Specifications Model No VS0061F Brand: Sealey Nett Weight: 0.19kg

    Price: 30.95 € | Shipping*: 4.95 €
  • What is produced during the combustion of a combustion engine?

    During the combustion of a combustion engine, the primary products produced are carbon dioxide (CO2) and water (H2O). Additionally, small amounts of other gases such as carbon monoxide (CO), nitrogen oxides (NOx), and unburned hydrocarbons may also be produced. These emissions contribute to air pollution and have environmental impacts. Efforts are being made to reduce these emissions through the use of cleaner fuels and more efficient engine designs.

  • What is the difference between complete combustion and incomplete combustion?

    Complete combustion occurs when a fuel burns in the presence of sufficient oxygen, resulting in the production of carbon dioxide and water as the only byproducts. In contrast, incomplete combustion happens when there is insufficient oxygen present during the burning process, leading to the formation of carbon monoxide, carbon particles, and other harmful pollutants in addition to carbon dioxide and water. Complete combustion is more efficient and cleaner, while incomplete combustion is less efficient and produces more pollutants.

  • How much development potential is still left in internal combustion engine cars?

    There is still some development potential left in internal combustion engine (ICE) cars, particularly in improving fuel efficiency and reducing emissions. Advances in materials, design, and engineering can help make ICE cars more efficient and environmentally friendly. However, the long-term future of ICE cars is uncertain as the automotive industry is increasingly shifting towards electric vehicles to meet stricter emissions regulations and address climate change concerns. As a result, the focus of research and development in the automotive industry is shifting towards electric and hybrid vehicles.

  • What is spontaneous combustion?

    Spontaneous combustion is a phenomenon where a material self-ignites without an external heat source. This can occur when certain materials reach a critical temperature and combine with oxygen in the air, causing them to ignite. Common examples of materials that can undergo spontaneous combustion include oily rags, hay, and coal dust. Spontaneous combustion can be dangerous as it can lead to fires without any obvious ignition source.

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