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Monday, July 13, 2020 | 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

    This paper summarizes the Fusion Power Demonstration (FPD) design study. Three major configurations were investigated. Two were based on the Mirror Advanced Reactor Study (MARS) end cells, which use “C” coil magnets in Yin-Yang pairs to help stabilize the plasma. The third configuration utilized an octopole in the end cell. @article{osti_, title = {Mirror Advanced Reactor Study interim design report}, author = {}, abstractNote = {The status of the design of a tenth-of-a-kind commercial tandem-mirror fusion reactor is described at the midpoint of a two-year study. When completed, the design is to serve as a strategic goal for the mirror fusion program. The main objectives of the Mirror Advanced Reactor.

    @article{osti_, title = {Improved tandem mirror fusion reactor}, author = {Baldwin, D E and Logan, B G and Fowler, T K}, abstractNote = {An improved version of the tandem mirror fusion reactor is presented in which a power gain factor Q approx. 10 to 20 can be obtained at a few MWe electrical output with much simpler technology in the end plugs. Preliminary studies of the systems integration of NET/INTOR 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.

    Reactor thermal hydraulic design (MAE) A. Thermal hydraulic design of various nuclear power reactor concepts. B. Power cycles. C. Power generation and heat removal. D. Thermal and hydraulic and component design. E. Overall plant design. F. Startup, steady-state, and transient operation. XV. @article{osti_, title = {Tandem mirror reactor with thermal barriers}, author = {Carlson, G A and Arfin, B and Barr, W L and Boghosian, B M and Erickson, J L and Fink, J H and Hamilton, G W and Logan, B G and Myall, J O and Neef, Jr, W S}, abstractNote = {This report gives detailed information in the form of the following chapters: (1) overview, (2) plasma physics, (3) magnets, (4) end.


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

Get this from a library. Preliminary design study of the tandem mirror reactor (TMR). [R W Moir; United States. Department of Energy.; Lawrence Livermore Laboratory.;]. 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 routes to higher Q tandem mirror reactors, design of less expensive central cells for tandem mirror reactors, and component design for the 1 MeV neutral Author: G.

Carlson, R. Devoto, J. Erickson, J. Fink, B. Logan, W. Neef. 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. The Mirror Advanced Reactor Study (MARS) was the first comprehensive conceptual design of a commercial tandem mirror reactor with thermal barriers. The design exploited the inherent attractive features of a tandem mirror: steady state operation, linear central cell, simple high performance blankets, low first wall heat fluxes, natural impurity.

Preliminary R. Moir / Tandem mirror hybrid reactor study shows great benefits from the thermal barrier: a high Q ("15) and relatively low technology. The Q values lie above all of those in the Q versus F plot of fig. by: 4. 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.S. Neef, Jr. and G.A. 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. Badger et al., Preliminary information on the University of Wisconsin tandem mirror reactor design, University of Wisconsin, Fusion Engineering Program, UWFDM (November ).

Moir et al., Preliminary design study of the tandem mirror reactor (TMR), Lawrence Livermore Laboratory, UCRL (July ). Design Study and Supporting Experiments for an Axially Symmetric Anchor for a Tandem Mirror.

Jay F. Kunze, Mark A. Prelas, Thomas J. Dolan, Phil Bennett, John M. Freeman, Laramee Haynes, Jan Li Hwang, Steve D.

McGhee, Rosemary Roberts. 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.

As part of a study for a mirror fusion-fission hybrid reactor, a preliminary design for a MW neutral beam injector of fast deuteriu m atoms at kV and fast tritium atoms at kV was prepared. A preliminary design concept for a commercial size Tokamak fusion breeder with a suppressed fission blanket and emphasis on U breeding were formulated.

The design is based upon a similar tandem mirror hybrid concept and addresses particular concerns relating to the use of a Tokamak for the suppressed fission blanket application. The single most important departure from the tandem mirror.

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. anchor. The study estimates the Q values and they range from 10 to InLivermore started a more ambitious study called the Mirror Advanced Reactor Study (MARS).

This study was initiated to look at the various mirror configurations and design a reactor based on the most promising concept. Abstract. 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; (8) fission burner reactor; (9) environment and safety; and (10) economic analysis.

The two-year Mirror Advanced Reactor Study (MARS) has resulted in the conceptual design of a commercial, electricity-producing fusion reactor based on tandem mirror confinement.

Design Study and Supporting Experiments for an Axially Symmetric Anchor for a Tandem Mirror Article (PDF Available) in Fusion Science and Technology 10(3) November with 28 Reads.

Moir et al., Preliminary Design Study of the Tandem Mirror (TMR), LLL, UCRL (). Moir, R. and TMR Group, “Preliminary Design Study of the Tandem Mirror Reactor (TMR),” Lawrence Livermore Laboratory Technical Report UCRL, Google Scholar 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 high Q (defined as the ratio of fusion power to injection power. The mechanical aspects of tandem mirror and tokamak concepts for the tritium production mission are compared and a proposed breeding blanket configuration for each type of reactor is presented in detail, along with a design outline of the complete fusion reactor system.

In both cases, the reactor design is developed sufficiently to permit preliminary cost estimates of all components. A recently completed 2‐year 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 lithium‐lead blankets, 24T hybrid coils.This paper describes the blanket for the MINIMARS compact tandem mirror fusion power reactor. The blanket which utilizes HT-9 ferritic steel structure, LiPb breeder, Be multiplier/moderator and He gas cooling is only 17 cm thick and is backed up by a steel reflector.A thermal-hydraulic design study of the proposed ESPRESSO blanket for the Tandem Mirror Fusion Reactor is presented.

Two solid breeder/multiplier configurations have been selected for the study: one with natural Li 2 O as solid breeder and no neutron multiplier and the other with 30% enriched gamma-LiAlO 2 as solid breeder and Be as multiplier.

A systematic procedure has been developed which.