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Thursday, August 26, 2021 | History

1 edition of Preliminary design study of the tandem mirror reactor (TMR) found in the catalog.

Preliminary design study of the tandem mirror reactor (TMR)

Preliminary design study of the tandem mirror reactor (TMR)

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Published by Dept. of Energy, for sale by the National Technical Information Service in [Washington], Springfield, Va .
Written in English

    Subjects:
  • Nuclear reactors -- Design and construction.

  • Edition Notes

    StatementR. W. Moir ... [et al.]
    SeriesUCRL ; 52302
    ContributionsMoir, R. W., United States. Dept. of Energy., Lawrence Livermore Laboratory.
    The Physical Object
    Paginationiii, 220 p. :
    Number of Pages220
    ID Numbers
    Open LibraryOL15225847M

    1 Mole Balances TheMoleBalance Thevariabler j shallrepresenttherateofformationofspeciesjperunitvolume – Alternativelyphrased,r. Chemical Reactor Design and Control uses process simulators like Matlab, Aspen Plus, and Aspen Dynamics to study the design of chemical reactors and their dynamic control. There are numerous books that focus on steady-state reactor design. There are no books that consider practical control systems for real industrial reactors.


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Preliminary design study of the tandem mirror reactor (TMR) Download PDF EPUB FB2

Technical Report: Preliminary design study of the Tandem Mirror Reactor (TMR) Title: Preliminary design study of the Tandem Mirror Reactor (TMR) Full Record. Preliminary design study of the Tandem Mirror Reactor (TMR) Technical Report Moir, R W ; Barr, W L ; Carlson, G A This report describes work done in Fiscal Year by the Fusion Reactor Studies Group of LLL on the conceptual design of a MW(e) Tandem Mirror Reactor (TMR).

The initial phase of a 2-year design study of a tandem mirror fusion reactor Preliminary design study of the tandem mirror reactor book presented. The following chapters are included: (1) mechanical design of the plant; (2) plasma physics; (3) blanket design; (4) magnet design; (5) injector design; (6) direct convertor design; (7) balance of plant design; (8) fission burner reactor; (9) environment and safety; and (10) economic analysis.

The initial phase of a 2-year design study of a tandem mirror fusion reactor is presented. The following chapters are included: (1) mechanical design of the plant; (2) plasma physics; (3) blanket design; (4) magnet design; (5) injector design; (6) direct convertor design; (7) balance of plant design.

TANDEM MIRROR REACTORS G. Carlson Lawrence Livermore Laboratory Abstract Preliminary fusion reactor designs have been developed based on the tandem mirror confinement concept.

These have included a MWe fusion power reactor and a nearer term fusion-fission hybrid reactor with reduced plasma confinement and technology by: 6. A preliminary design study of a MWe tandem mirror fusion reactor is discussed.

Work on the reactor concept including development of a more detailed computer model for tandem mirror physics, the investigation of possible Preliminary design study of the tandem mirror reactor book to higher Q tandem mirror reactors, design of less expensive central cells for tandem mirror reactors, and component design for the 1 MeV neutral beam injectors Author: G.

Carlson, R. Devoto, J. Erickson, J. Fink, B. Logan, W. Neef. Preliminary fusion reactor designs based on the tandem mirror confinement concept have been developed.

These include a MWe fusion power reactor and a nearer-term fusion-fission hybrid reactor with reduced plasma confinement and technology requirements.

The design and basic characteristics of these reactors are by: 6. THERMAL-HYDRAULICS DESIGN COMPARISONS FOR THE TANDEM MIRROR HYBRID REACTOR BLANKET by C. WONG, Y. YANG and K. SCHULTZ This is a prepriirt of a paper to be presented at the Foorth ANS Topical Meeting on.

the Technology of Controlled Nuclear Fusion, October, King of Prussia, Pennsylvania. Preliminary design of a tandem mirror reactor. Full text ( Pages, MB); Abstract. Note: Also published as PSFC Report PFCRR Print copy available in the Library.

T: A |B |C |D |E |F |G |H |I |J |K |L |M |N |O |P |Q|R |S |T |U |V |W |X|Y |Z: Takase, Yuichi: PHD Thesis, Moir, R. and TMR Group, Preliminary Design Study of the Tandem Mirror Reactor (TMR), Lawrence Livermore Laboratory Technical Report UCRL, Google Scholar the hybrid fusionfission power reactor design.

The linear mirror confinement machine is relatively simple and - easily built compared with toroidal systems. There is agreement that the time is right to start a university -indus - try collaborative program based on an Axisymmetric Tandem Mirror (ATM).

Descriptions of various end-plug configurations and the design of the power-producing central cell for a typical tandem mirror reactor are presented. Publication: Presented at 4th ANS Topical Meeting on the Technol.

of Controlled by: 1. The search for enhanced-Q mirror machines has thus led to work on two new concepts: the tandem mirror and the field-reversed mirror. 17 18 W. Neef, Jr. and G. Carlson I Mirror fusion reactor design By tandem mirror confinement, we mean three mirror cells on a common axis: two standard mirror cells are placed at either end of a series of Cited by: 2.

The plasma had a mean ion energy of 10 keV and a density of 5e19m If successful, the axisymmetric tandem mirror extension of the GDT idea could lead to a Q (almost equal to) 10 power plant of modest size and would yield important applications at lower Q.

Inutake et al.Tandem mirror GAMMA 10 and its contribution to reactor design. Proceedings, 3rd IAEA Technical Committee Meeting and Workshop of Fusion Reactor Design and Technology, 516 OctoberTokyo. Yatsu et al.Experimental observation on enhancement of the ambipolar potential by injection of neutral beams in a tandem mirror.

A preliminary conceptual design of a power reac- tor based on the tandem mirror with thermal barriers was presented in ref. [5]. An overall view of the reactor is shown in fig. The DT fusion plasma is contained in the m-long central cell and produces MW of fusion power.

Abstract. Ina preliminary design study of a MWe tandem mirror fusion reactor was completed. In FYcontinuing work on this reactor concept included development of a more detailed computer model for tandem mirror physics, the investigation of possible routes to higher Q tandem mirror reactors, design of less expensive central cells for tandem mirror reactors, and component.

The Mirror Advanced Reactor Study (MARS) was the first comprehensive conceptual design of a commercial tandem mirror reactor with thermal barriers.

A recently completed 2year study of a commercial tandem mirror reactor design [Mirror Advanced Reactor Study (MARS)] is briefly reviewed. The end plugs are designed for trapped particle stability, stability against MHD ballooning modes, balanced geodesic curvature, and small radial electric fields in the central cell.

New technologies such as lithiumlead blankets, 24T hybrid coils. The Tandem Mirror Experiment was a magnetic mirror machine operated from to at the Lawrence Livermore National Laboratory. It was the first large-scale machine to test the "tandem mirror" concept in which two mirrors trapped a large volume of plasma between them in an effort to increase the efficiency of the reactor.

The original TMX was designed and built in a short period between its conception at a major physics meeting in Germany in Octoberits design. Our preliminary conceptual design for the tandem mirror reactor (TMR) used a Yin-Yang plug coil inserted within a solenoidal pair.

The magnetic. The design of tandem mirror reactors with thermal barriers. In the Proceedings of the ANS Topical Meeting on the Technology of Controlled Nuclear Fusion.

The major differences between mirror and toroidal fusion systems are described. Mirror optimization leading to "tandem" and "field reversed" systems results in enhanced plasma efficiency and reactor power balance. Blanket designs are reviewed which depend on a mirror's simple axisymmetric geometry.

Coolants are discussed and pressurized helium favored for mirror reactors. Preliminary studies of the systems integration of NETINTOR Preliminary investigation of burn control in NET-INTOR Neutron wall load, power density and pay-back time WITAMIR-I, a tandem mirror reactor with non-zero nu Fusion Materials Radiation damage simulation experiments on a Mn-Cr austenitic stainless steel in a HVEM.

Applications of Design Equations for Continuous Flow Reactors Reactor Sizing Reactor Sizing Given r A as a function of conversion, -r A f(X), one can size any type of reactor. We do this by constructing a Levenspiel Plot. Here we plot either F A0 -r A or 1 -r A as a function of X. For F A0 -r A vs.

X, the volume of a. Stenstrom, M. Rosso, D. () Fundamentals of Chemical Reactor Theory 3 Fig. reactor Given its volume V, and the initial internal concentration c0, the total mass will be M V the unit time, the concentration will be able to change only in virtue of a chemical reaction.

A code based on a set of coupled-rate equations for tandem-mirror confinement is used to study two time-dependent phenomena: start-up in the Lawrence Livermore Laboratory Tandem-Mirror Experiment (TMX) and alpha-particle build-up in tandem-mirror reactor.

The start-up studies indicate that it is possible to achieve near-steady-state conditions in a TMX discharge, provided the sources are Cited by: Wraps.

Presumed first editionfirst printing. Includes: illustrations, diagrams. Approxinmately pages. This report describes the work done in Fiscal Year by the Fusion Reactor Studies Groul of the Lawrence Livermore Laboratroy on the conceptual designe of a MW(e) Tandem Mirror Reactor (TMR).

Good. No dust jacket as issued. A conceptual vehicle design enabling fast, piloted outer solar system travel was created predicated on a small aspect ratio spherical torus nuclear fusion reactor. alpha-particle heating and the energy balance in a mirror reactor Authors: L.

Kuo-Petravic, M. Petravic, C. Watson Source: Nuclear fusion reactors, 1 Jan (). The outline of an acceptable tandem mirror reactor design was first published inand will be further developed and described in the Mirror Advanced Reactor Study during FY Read. In the preliminary design study, KANUTER-LEU shows comparable characteristics of a competent efficiency, and a compact and lightweight system despite the heavier LEU fuel utilization.

The choice of reactor type is determined not only by practical considerations such as scale of production and propensity for fouling, but also by the specific polymerization kinetics.

A section discusses reactor design and the another one describes strategies for reactor operation. Finally, reactor control and optimization are dealt with. The magnetic mirror approach to fusion is reviewed in depth.

Starting with a brief chronological history of the development of the basic mirror concept, its subsequent evolution into the tandem. see later, the design of a reactor itself can affect the amount of byproducts formed and therefore the size of the separation equipment required.

The design of a reactor and its mode of operation can thus have profound repercussions on the remainder of the plant. Preliminary Appraisal of a Reactor Project. Cheng, Nucleonic Performance of Gas Cooled Blanket Design, p. 5152 of Interim Report on the Tandem Mirror Hybrid Design Study R.

Moir ed.Lawrence Livermore Lab. Report UCID (). Google Scholar. [en] The UCLA tandem mirror reactor, SATYR, was developed around the capability of tandem mirrors with thermal barriers to burn deuterium at reasonable efficiency levels.

The pebble bed concept has been incorporated into our blanket design for the following reasons: 1) Large area-to-volume ratio for purposes of heat removal; 2) Large volume of. Advances in superconducting magnet technology and new results at Novosibirsk point the way to improved tandem mirror fusion reactors burning a variety of fuels - pure DD, D 3 He, p 11 B -- none of which require the breeding of tritium.

Inspired by the demonstration at Novosibirsk of stable plasmas confined by simple circular magnetic mirrors, Richard F. Post at Livermore invented the. The initial phase of a design study of a tandem mirror fusion reactor is presented.

The mechanical design of the plant, plasma physics, blanket design, magnet design, injector design, direct convertor design, balance of plant design, fission burner reactor, and environment and safety of of the reactor. the book Pattern Languages of Program Design ISBNedited by Jim Coplien and Douglas C.

Schmidt and published by Addison-Wesley, 1Intent The Reactor design pattern handles service requests that are delivered concurrently to an application by one or more clients. Each service in an application may consist of. Evolution of the Fusion Power Demonstration Tandem Mirror Reactor Configuration.

Joseph A. O'Toole & David C. Lousteau. A Comparison Study of Toroidal-Field Divertors for a Compact Reversed-Field Pinch Reactor. Light Ion Fusion Target Development Facility Preliminary Design.

R.R. Peterson, G.A. Moses, R.L. Engelstad.Mirror reactor physics; tandem mirror burn dynamics. H. Tokamak reactor physics; β limits, transport, start-up and burn dynamics.

VIII. Plasma engineering and technology (MAEB/EE, MAEC/EE) A. Plasma-surface interactions. B. Physics and technology of limiters, divertors, and direct converters. C. Plasma fueling. D. Technology of plasma.Request PDF | NIF Cryogenic Target Systems Programs Fiscal Year First Half Report | The initial NIF Cryogenic Target Systems (NCTS) major milestone for FY03 was to complete the conceptual.