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  • Nuclear Structural Engineering
    Nuclear Structural Engineering

    This book is designed to help for developing the general understanding of all the knowledge essential to ensure the reactor’s structural integrity.For this purpose, it not only explains basic knowledge of nuclear reactor structure engineering but also allows readers to learn how to systematize this knowledge as they study structural standards.This book first defines structural integrity and explains the concept of structural standards that is used for ensuring integrity, and then describes strength of materials (or mechanics of materials), which is vital as a means of designing components’ dimensions and other elements, and the finite element analysis, which has been developed on the basis of strength of materials and has been going mainstream in recent years.Subsequently, the book explains how components are designed, fabricated and examined in practice.In particular, with respect to design, the book places emphasis on what should be considered insizing of components, and provides a description of practical activities of sizing and other elements.This is an open access book.

    Price: 44.99 £ | Shipping*: 0.00 £
  • Nuclear Engineering : A Conceptual Introduction to Nuclear Power
    Nuclear Engineering : A Conceptual Introduction to Nuclear Power

    Nuclear Engineering: A Conceptual Introduction to Nuclear Power provides coverage of the introductory, salient principles of nuclear engineering in a comprehensive manner for those entering the profession at the end of their degree.The nuclear power industry is undergoing a renaissance because of the desire for low-carbon baseload electricity, the growing population, and environmental concerns about shale gas, so this book is a welcomed addition to the science.In addition, users will find a great deal of information on the change in the industry, along with other topical areas of interest that are uniquely covered. Intended for undergraduate students or early postgraduate students studying nuclear engineering, this new text will also be appealing to scientifically-literate non-experts wishing to be better informed about the ‘nuclear option'.

    Price: 49.99 £ | Shipping*: 0.00 £
  • Nuclear Engineering : Mathematical Modeling and Simulation
    Nuclear Engineering : Mathematical Modeling and Simulation

    Nuclear Engineering Mathematical Modeling and Simulation presents the mathematical modeling of neutron diffusion and transport.Aimed at students and early career engineers, this highly practical and visual resource guides the reader through computer simulations using the Monte Carlo Method which can be applied to a variety of applications, including power generation, criticality assemblies, nuclear detection systems, and nuclear medicine to name a few.The book covers optimization in both the traditional deterministic framework of variational methods and the stochastic framework of Monte Carlo methods. Specific sections cover the fundamentals of nuclear physics, computer codes used for neutron and photon radiation transport simulations, applications of analyses and simulations, optimization techniques for both fixed-source and multiplying systems, and various simulations in the medical area where radioisotopes are used in cancer treatment.

    Price: 138.00 £ | Shipping*: 0.00 £
  • Fundamentals of Nuclear Science and Engineering
    Fundamentals of Nuclear Science and Engineering

    Fundamentals of Nuclear Science and Engineering, Third Edition, presents the nuclear science concepts needed to understand and quantify the whole range of nuclear phenomena.Noted for its accessible level and approach, the Third Edition of this long-time bestselling textbook provides overviews of nuclear physics, nuclear power, medicine, propulsion, and radiation detection.Its flexible organization allows for use with Nuclear Engineering majors and those in other disciplines.The Third Edition features updated coverage of the newest nuclear reactor designs, fusion reactors, radiation health risks, and expanded discussion of basic reactor physics with added examples.A complete Solutions Manual and figure slides for classroom projection are available for instructors adopting the text.

    Price: 135.00 £ | Shipping*: 0.00 £
  • What is nuclear fusion and what is nuclear mass?

    Nuclear fusion is a process in which two atomic nuclei combine to form a heavier nucleus, releasing a large amount of energy in the process. This process is the same reaction that powers the sun and other stars. Nuclear mass, on the other hand, refers to the total mass of an atomic nucleus, which is composed of protons and neutrons. The mass of a nucleus is slightly less than the sum of the masses of its individual protons and neutrons, due to the binding energy that holds the nucleus together.

  • Why would nuclear waste be produced in nuclear fusion?

    Nuclear waste is not produced in nuclear fusion. Unlike nuclear fission, which produces radioactive waste, nuclear fusion does not produce long-lived radioactive waste. In a fusion reaction, the fuel is typically isotopes of hydrogen, such as deuterium and tritium, and the main byproduct is helium. This makes nuclear fusion a much cleaner and safer form of nuclear energy production compared to nuclear fission.

  • What are your arguments against nuclear energy or nuclear power?

    There are several arguments against nuclear energy or nuclear power. Firstly, there are concerns about the safety of nuclear power plants, as accidents like the Chernobyl and Fukushima disasters have shown the devastating consequences of nuclear meltdowns. Additionally, the issue of nuclear waste disposal remains a major challenge, as radioactive waste can remain hazardous for thousands of years. Furthermore, the high cost of building and maintaining nuclear power plants, as well as the potential for nuclear proliferation and the risk of terrorist attacks on nuclear facilities, are also significant concerns.

  • How is nuclear fission initiated in a nuclear power plant?

    Nuclear fission is initiated in a nuclear power plant by bombarding uranium-235 or plutonium-239 atoms with neutrons. When a neutron strikes the nucleus of a uranium-235 or plutonium-239 atom, it causes the nucleus to become unstable and split into two smaller nuclei, releasing a large amount of energy in the form of heat. This process also releases additional neutrons, which can then go on to strike other uranium-235 or plutonium-239 atoms, leading to a chain reaction that produces a continuous release of energy. This heat is then used to produce steam, which drives turbines to generate electricity.

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  • Introduction to Nuclear Engineering : A Study Guide
    Introduction to Nuclear Engineering : A Study Guide

    Introduction to Nuclear Engineering serves as an accompanying study guide for a complete, introductory single-semester course in nuclear engineering.It is structured for general class use, alongside fundamental nuclear physics and engineering textbooks, and it is equally suited for individual self-study. The book begins with basic modern physics with atomic and nuclear models.It goes on to cover nuclear energetics, radioactivity and decays, and binary nuclear reactions and basic fusion.Exploring basic radiation interactions with matter, the book finishes by discussing nuclear reactor physics, nuclear fuel cycles, and radiation doses and hazard assessment.Each chapter highlights basic concepts, examples, problems with answers, and a final assessment. The book is intended for first-year undergraduate and graduate engineering students taking Nuclear Engineering and Nuclear Energy courses.

    Price: 84.99 £ | Shipping*: 0.00 £
  • Introduction to Nuclear Engineering : Pearson New International Edition
    Introduction to Nuclear Engineering : Pearson New International Edition

    The text is designed for junior and senior level Nuclear Engineering students.The third edition of this highly respected text offers the most current and complete introduction to nuclear engineering available.Introduction to Nuclear Engineering has been thoroughly updated with new information on French, Russian, and Japanese nuclear reactors.All units have been revised to reflect current standards.In addition to the numerous end-of-chapter problems, computer exercises have been added.

    Price: 80.99 £ | Shipping*: 0.00 £
  • Nuclear Reactor Lantern Gift Nuclear Reaction Push Reduction Handheld Lantern Nuclear Apocalypse
    Nuclear Reactor Lantern Gift Nuclear Reaction Push Reduction Handheld Lantern Nuclear Apocalypse

    Nuclear Reactor Lantern Gift Nuclear Reaction Push Reduction Handheld Lantern Nuclear Apocalypse

    Price: 5.79 £ | Shipping*: 1.99 £
  • Nuclear Reactor Lantern Gift Nuclear Reaction Push Reduction Handheld Lantern Nuclear Apocalypse
    Nuclear Reactor Lantern Gift Nuclear Reaction Push Reduction Handheld Lantern Nuclear Apocalypse

    Nuclear Reactor Lantern Gift Nuclear Reaction Push Reduction Handheld Lantern Nuclear Apocalypse

    Price: 5.79 € | Shipping*: 1.99 €
  • In automation, which software is it?

    In automation, the software used is typically referred to as automation software or automation tools. These tools are designed to automate repetitive tasks, streamline processes, and increase efficiency in various industries. Some popular examples of automation software include UiPath, Blue Prism, Automation Anywhere, and Selenium. These tools often use technologies such as robotic process automation (RPA) and artificial intelligence to mimic human actions and perform tasks with minimal human intervention.

  • How is the nuclear reaction started in a nuclear power plant?

    In a nuclear power plant, the nuclear reaction is started by bombarding the fuel, usually uranium-235 or plutonium-239, with neutrons. When the fuel atoms absorb these neutrons, they become unstable and split into two smaller atoms, releasing a large amount of energy in the form of heat. This heat is used to produce steam, which then drives turbines to generate electricity. This process is known as nuclear fission and is controlled by using control rods to absorb excess neutrons and regulate the reaction.

  • Software or hardware?

    When deciding between software and hardware, it ultimately depends on the specific needs and goals of the user. Software provides flexibility, scalability, and ease of updates, making it ideal for tasks that require frequent changes or updates. On the other hand, hardware offers reliability, security, and performance for tasks that require high processing power or data storage. It is important to carefully evaluate the requirements of the project or task at hand to determine whether software or hardware is the best solution.

  • 'Software or hardware?'

    The choice between software and hardware depends on the specific needs and goals of the user. Software provides flexibility and can be easily updated or customized, while hardware offers physical components that may be more reliable and provide better performance for certain tasks. Ultimately, the decision between software and hardware should be based on the specific requirements of the user and the intended use of the technology.

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