Edward Morse
Nuclear Fusion
Paperback Engels 2018 9783030074623
Verwachte levertijd ongeveer 9 werkdagen
Samenvatting
The pursuit of nuclear fusion as an energy source requires a broad knowledge of several disciplines. These include plasma physics, atomic physics, electromagnetics, materials science, computational modeling, superconducting magnet technology, accelerators, lasers, and health physics. Nuclear Fusion distills and combines these disparate subjects to create a concise and coherent foundation to both fusion science and technology. It examines all aspects of physics and technology underlying the major magnetic and inertial confinement approaches to developing nuclear fusion energy. It further chronicles latest developments in the field, and reflects the multi-faceted nature of fusion research, preparing advanced undergraduate and graduate students in physics and engineering to launch into successful and diverse fusion-related research.
Nuclear Fusion reflects Dr. Morse’s research in both magnetic and inertial confinement fusion, working with the world’s top laboratories, and embodies his extensive thirty-five year career in teaching three courses in fusion plasma physics and fusion technology at University of California, Berkeley.
Specificaties
ISBN13:9783030074623
Taal:Engels
Bindwijze:paperback
Uitgever:Springer International Publishing
Lezersrecensies
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Inhoudsopgave
<div>Chapter 1 Introduction</div><div>Fusion as an energy source</div><div>World energy supply and demand</div><div>Availability of fusion fuel</div><div>Risk factors for energy sources:</div><div>Comparative risks of fusion to other energy technologies</div><div>Prospects for a fusion energy technology</div><div>Historical background</div><div><br></div><div></div><div>Chapter 2 Fusion nuclear reactions</div><div>Cross sections and reactivity</div><div>Resonant and non-resonant fusion reactions</div><div>Reactivity models for maxwellian distributions</div><div>Reactivity in beam-maxwellian systems</div><div><br></div><div>Chapter 3 Energy gain and loss mechanisms in plasmas and reactors</div><div>Charged particle heating</div><div>Ohmic heating</div><div>External heating methods</div><div>Radiation loss:</div><div>Charge Exchange</div><div>Reactor energy balance</div><div>Lawson criterion and Q</div><div>Pulsed vs. steady state energy balance</div><div>Thermal conversion efficiency</div><div>Blankets</div><div><br></div><div></div><div>Chapter 4 Magnetic Confinement</div><div>MHD fluid equations</div><div>Pressure balance</div><div>Magnetic pressure concept and </div><div>Z pinch: Bennett pinch theorem</div><div>Instabilities in Z pinch</div><div>Perhapsatron</div><div>Tokamak configuration</div><div>Grad-Shafranov equation</div><div>Numerical solutions<div>Effect of flow on equilibrium</div><div><br></div><div>Chapter 5 MHD instabilities </div><div>Ideal MHD</div><div>Energy Principle</div><div>Interchange instability</div><div>Kink and sausage instability</div><div>Wesson diagram for tokamak stability</div><div>Ballooning modes</div><div>Numerical solutions</div><div>Resistive MHD</div><div>Magnetic Islands</div><div>’ and Rutherford growth</div><div>Magnetic stochasticity</div><div><br></div>" theory="" and="" transport<div>Vlasov equation</div><div>Collision operators </div><div>Braginskii transport equations</div><div>Timescale hierarchy for electrons and ions</div><div>Beam slowing down </div><div><br></div><div>Chapter 7 Neoclassical effects</div><div>Pfirsch-Schluter regime</div><div>Trapped particles<div>Bootstrap current</div><div>Neoclassical tearing mode</div><div>ELMs and MARFEs</div><div><br></div><div>Chapter 8 Waves in plasma</div><div>Cold plasma dispersion relation: CMA diagram</div><div>Cutoffs and resonances</div><div>Warm plasma waves</div><div>WKB approximation</div><div>Ray tracing and accessibility</div><div>Laser-plasma interactions</div><div><br></div><div>Chapter 9 RF heating in magnetic fusion devices</div><div>Ion cyclotron heating: sources, antennas, transmission lines</div><div>Lower hybrid heating: sources, antennas, transmission lines</div><div>Electron cyclotron heating: sources, antennas, transmission linesIon Bernstein waves and high harmonic fast waves</div><div>RF current drive</div><div>Runaway electrons</div><div><br></div><div>Chapter 10 Neutral beam injection</div><div>Positive and negative ion sources</div><div>Neutralization efficiency</div><div>Child-Langmuir law</div><div>Beam optics calculations</div><div>High voltage breakdown issues</div><div><br></div><div>Chapter 11 Inertial confinement </div><div>Direct vs. indirect drive</div><div>Lasers, optics, frequency doubling and tripling</div><div>Hohlraum design</div><div>Capsule hydrodynamics</div><div>Rayleigh-Taylor instability</div><div>Electron preheat and mix</div><div>Heavy ion drivers</div><div>Fast ignition</div><div>Numerical simulations</div><div><br></div><div>Chapter 12 Magnets</div><div>Superconductivity</div><div>Thermal stability</div><div>Stress calculations</div><div>Bending moments and torsional stability</div><div>Radiation damage</div><br></div><div>Chapter 13 Tritium</div><div>Health issues: HTO vs. HT</div><div>Sievert’s law and leakage calculations</div><div>H-D-T separation processes</div><div>Availability and cost</div><div>He-3 recovery</div><div><br></div><div>Chapter 14 Materials issues</div><div>First wall: MFE vs. IFE</div><div>Thermal shock and fatigue</div><div>Thermal stress calculations</div><div>Coolant compatibility</div><div>Plasma-wall interaction</div><div>Radiation damage: dpa cross sections and He production</div><div>Embrittlement, void swelling, and creep</div><div>Composite materials</div><div>Divertor and limiter design</div><div><br></div><div>Chapter 15 Vacuum systems</div><div>Cryogenics</div><div>Cryopumps</div><div>Scroll pumps</div><div>Conductance calculations</div><div>Transient response of vacuum systems</div><div><br></div><div>Chapter 16 Blankets</div><div>Li vs. LiPb vs. LiO </div><div>Tritium removal</div><div>Fire safety</div>ressure<div>Fission hybrid decay heat issues</div><div><br><div><div>Chapter 17 Economics and Sustainability</div><div>The cost of money</div><div>Material availability</div><div>Plant lifetime consideration</div><div>Site licenses</div><div>Accident mitigation <div>Is it “Green?”</div><div><br></div></div></div></div></div>
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