Magnetic Confinement Fusion Driven Thermonuclear Energy
Home > Technology & Engineering > Energy technology & engineering > Heat transfer processes > Magnetic Confinement Fusion Driven Thermonuclear Energy
Magnetic Confinement Fusion Driven Thermonuclear Energy

Magnetic Confinement Fusion Driven Thermonuclear Energy


     0     
5
4
3
2
1



International Edition


About the Book

About the AuthorPrefaceAcknowledgmentCHAPTER ONE: Foundation of Electromagnetic Theory1.1 Introduction1.2 Vector Analysis1.2.1 Vector Algebra1.2.2 Vector Gradient1.2.3 Vector Integration1.2.4 Vector Divergence1.2.5 Vector Curl1.2.6 Vector Differential Operator1.3 Further Developments1.4 Electrostatics1.4.1 The Coulomb's Law1.4.2 The Electric Field1.4.3 The Gauss's Law1.5 Solution of Electrostatic Problems1.5.1 Poisson's Equation1.5.2 Laplace's Equation1.6 Electrostatic Energy1.6.1 Potential Energy of a Group of Point Charges1.6.2 Electrostatic Energy of a Charge Distribution1.6.3 Forces and Torques1.7 Maxwell's Equations1.8 Debye Length1.9 Physics of Plasmas1.10 Fluid Description of Plasma1.11 MHD1.12 Plasma Stability1.13 Kink Stability1.14 ReferencesCHAPTER TWO: Principles of Plasma Physics2.1 Introduction2.2 Barrier Penetration2.3 Calculation of Coulomb Barrier2.4 Thermonuclear Fusion Reactions2.5 Rates of Thermonuclear Reactions2.6 Thermonuclear Fusion Reactions2.7 Critical Ignition Temperature for Fusion2.8 Controlled Thermonuclear Ideal Ignition Temperature2.9 Bremsstrahlung Radiation2.10 Bremsstrahlung Plasma Radiation Losses2.11 Bremsstrahlung Emission Rate2.12 Additional Radiation Losses2.13 Inverse Bremsstrahlung in Controlled Thermonuclear ICF and MCF2.14 ReferencesCHAPTER THREE: Confinement Systems for Controlled Thermonuclear Fusion3.3 Introduction3.4 Magnetic Confinement Fusion3.5 Summary of Guiding Center Drift3.6 Motion of Plasma Particles in a Magnetic Field3.7 Stabilization of the Pinched Discharge3.8 Linear Pinched Discharge3.9 Magnetic Confinement Fusion Reactors3.9.1 The Tokamak3.9.1.1 Plasma Diffusion3.9.2 The Reversed Field Pinch3.9.2.1 Theory3.9.2.2 Experiment3.9.2.3 Low Beta Pinch3.9.2.4 High Beta Pinch3.9.2.5 Reversed Field Pinch as a Fusion Reactor3.9.3 The Stellarator3.9.4 The Field Reversed Configuration3.9.5 The Levitated Dipole3.10 ReferencesIndex
About the Author:

Dr. Bahman Zohuri currently works for Galaxy Advanced Engineering, Inc., a consulting firm that he started in 1991 when he left both the semiconductor and defense industries after many years working as a chief scientist. After graduating from the University of Illinois in the field of physics, applied mathematics, then he went to the University of New Mexico, where he studied nuclear engineering and mechanical engineering. He joined Westinghouse Electric Corporation, where he performed thermal hydraulic analysis and studied natural circulation in an inherent shutdown, heat removal system (ISHRS) in the core of a liquid metal fast breeder reactor (LMFBR) as a secondary fully inherent shutdown system for secondary loop heat exchange. All these designs were used in nuclear safety and reliability engineering for a self-actuated shutdown system. He designed a mercury heat pipe and electromagnetic pumps for large pool concepts of a LMFBR for heat rejection purposes for this reactor around 1978, when he received a patent for it. He was subsequently, transferred to the defense division of Westinghouse, where he oversaw dynamic analysis and methods of launching and controlling MX missiles from canisters. The results were applied to MX launch seal performance and muzzle blast phenomena analysis (i.e., missile vibration and hydrodynamic shock formation). Dr. Zohuri was also involved in analytical calculations and computations in the study of nonlinear ion waves in rarefying plasma. The results were applied to the propagation of so-called soliton waves and the resulting charge collector traces in the rarefaction characterization of the corona of laser-irradiated target pellets. As part of his graduate research work at Argonne National Laboratory, he performed computations and programming of multi-exchange integrals in surface physics and solid-state physics. He earned various patents in areas such as diffusion processes and diffusion furnace design while working as a senior process engineer at various semiconductor companies, such as Intel Corp., Varian Medical Systems, and National Semiconductor Corporation. He later joined Lockheed Martin Missile and Aerospace Corporation as Senior Chief Scientist and oversaw research and development (R&D) and the study of the vulnerability, survivability, and both radiation and laser hardening of different components of the Strategic Defense Initiative, known as Star Wars.


This included payloads (i.e., IR sensor) for the Defense Support Program, the Boost Surveillance and Tracking System, and Space Surveillance and Tracking Satellite against laser and nuclear threats. While at Lockheed Martin, he also performed analyses of laser beam characteristics and nuclear radiation interactions with materials, transient radiation effects in electronics, electromagnetic pulses, system-generated electromagnetic pulses, single-event upset, blast, thermo-mechanical, hardness assurance, maintenance, and device technology.

He spent several years as a consultant at Galaxy Advanced Engineering serving Sandia National Laboratories, where he supported the development of operational hazard assessments for the Air Force Safety Center in collaboration with other researchers and third parties. Ultimately, the results were included in Air Force Instructions issued specifically for directed energy weapons operational safety. He completed the first version of a comprehensive library of detailed laser tools for airborne lasers, advanced tactical lasers, tactical high-energy lasers, and mobile/ tactical high-energy lasers, for example.

He also oversaw SDI computer programs, in connection with Battle Management C3I and artificial intelligence, and autonomous systems. He is the author of several publications and holds several patents, such as for a laser-activated radioactive decay and results of a through-bulkhead initiator. He has published the following works: Heat Pipe Design and Technology: A Practical Approach (CRC Press); Dimensional Analysis and Self-Similarity Methods for Engineering and Scientists (Springer); High Energy Laser (HEL): Tomorrow's Weapon in Directed Energy Weapons Volume I (Trafford Publishing Company); and recently the book on the subject Directed Energy Weapons and Physics of High Energy Laser with Springer. He has other books with Springer Publishing Company; Thermodynamics in Nuclear Power Plant Systems (Springer); and Thermal-Hydraulic Analysis of Nuclear Reactors (Springer).


Best Sellers



Product Details
  • ISBN-13: 9783319511764
  • Publisher: Springer
  • Publisher Imprint: Springer
  • Edition: 1st ed. 2017
  • Language: English
  • Returnable: Y
  • Spine Width: 13 mm
  • Width: 156 mm
  • ISBN-10: 3319511769
  • Publisher Date: 06 Mar 2017
  • Binding: Hardback
  • Height: 234 mm
  • No of Pages: 185
  • Series Title: English
  • Weight: 517 gr


Similar Products

Add Photo
Add Photo

Customer Reviews

REVIEWS      0     
Click Here To Be The First to Review this Product
Magnetic Confinement Fusion Driven Thermonuclear Energy
Springer -
Magnetic Confinement Fusion Driven Thermonuclear Energy
Writing guidlines
We want to publish your review, so please:
  • keep your review on the product. Review's that defame author's character will be rejected.
  • Keep your review focused on the product.
  • Avoid writing about customer service. contact us instead if you have issue requiring immediate attention.
  • Refrain from mentioning competitors or the specific price you paid for the product.
  • Do not include any personally identifiable information, such as full names.

Magnetic Confinement Fusion Driven Thermonuclear Energy

Required fields are marked with *

Review Title*
Review
    Add Photo Add up to 6 photos
    Would you recommend this product to a friend?
    Tag this Book Read more
    Does your review contain spoilers?
    What type of reader best describes you?
    I agree to the terms & conditions
    You may receive emails regarding this submission. Any emails will include the ability to opt-out of future communications.

    CUSTOMER RATINGS AND REVIEWS AND QUESTIONS AND ANSWERS TERMS OF USE

    These Terms of Use govern your conduct associated with the Customer Ratings and Reviews and/or Questions and Answers service offered by Bookswagon (the "CRR Service").


    By submitting any content to Bookswagon, you guarantee that:
    • You are the sole author and owner of the intellectual property rights in the content;
    • All "moral rights" that you may have in such content have been voluntarily waived by you;
    • All content that you post is accurate;
    • You are at least 13 years old;
    • Use of the content you supply does not violate these Terms of Use and will not cause injury to any person or entity.
    You further agree that you may not submit any content:
    • That is known by you to be false, inaccurate or misleading;
    • That infringes any third party's copyright, patent, trademark, trade secret or other proprietary rights or rights of publicity or privacy;
    • That violates any law, statute, ordinance or regulation (including, but not limited to, those governing, consumer protection, unfair competition, anti-discrimination or false advertising);
    • That is, or may reasonably be considered to be, defamatory, libelous, hateful, racially or religiously biased or offensive, unlawfully threatening or unlawfully harassing to any individual, partnership or corporation;
    • For which you were compensated or granted any consideration by any unapproved third party;
    • That includes any information that references other websites, addresses, email addresses, contact information or phone numbers;
    • That contains any computer viruses, worms or other potentially damaging computer programs or files.
    You agree to indemnify and hold Bookswagon (and its officers, directors, agents, subsidiaries, joint ventures, employees and third-party service providers, including but not limited to Bazaarvoice, Inc.), harmless from all claims, demands, and damages (actual and consequential) of every kind and nature, known and unknown including reasonable attorneys' fees, arising out of a breach of your representations and warranties set forth above, or your violation of any law or the rights of a third party.


    For any content that you submit, you grant Bookswagon a perpetual, irrevocable, royalty-free, transferable right and license to use, copy, modify, delete in its entirety, adapt, publish, translate, create derivative works from and/or sell, transfer, and/or distribute such content and/or incorporate such content into any form, medium or technology throughout the world without compensation to you. Additionally,  Bookswagon may transfer or share any personal information that you submit with its third-party service providers, including but not limited to Bazaarvoice, Inc. in accordance with  Privacy Policy


    All content that you submit may be used at Bookswagon's sole discretion. Bookswagon reserves the right to change, condense, withhold publication, remove or delete any content on Bookswagon's website that Bookswagon deems, in its sole discretion, to violate the content guidelines or any other provision of these Terms of Use.  Bookswagon does not guarantee that you will have any recourse through Bookswagon to edit or delete any content you have submitted. Ratings and written comments are generally posted within two to four business days. However, Bookswagon reserves the right to remove or to refuse to post any submission to the extent authorized by law. You acknowledge that you, not Bookswagon, are responsible for the contents of your submission. None of the content that you submit shall be subject to any obligation of confidence on the part of Bookswagon, its agents, subsidiaries, affiliates, partners or third party service providers (including but not limited to Bazaarvoice, Inc.)and their respective directors, officers and employees.

    Accept

    New Arrivals



    Inspired by your browsing history


    Your review has been submitted!

    You've already reviewed this product!