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Exploratory studies of tokamaks as fusion test reactors (1982)

Mau, T. K. ; Conn, R. W.

Springer

Journal of fusion energy 2 (1982), S. 207-224

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ISSN: 1572-9591

Keywords: tokamaks ; fusion reactors ; plasma physics ; ignition ; transport ; performance

Source: Springer Online Journal Archives 1860-2000

Topics: Energy, Environment Protection, Nuclear Power Engineering

Notes: Abstract Studies have been performed to explore various plasma burn scenarios for a tokamak test reactor which could follow the next generation of large tokamak experiments. Tradeoffs between an ignited burning plasma and a sub-ignited driven plasma are examined in terms of device size and performance as a fusion engineering test facility. It is found that plasma performance levels, measured by ignition margin, amplification factorQ, and fusion power output, increase with device size, more optimistic transport scaling laws, lower magnetic field ripple, and higherΒ. The performance of a generally low stress (B 0=4 T) reference device, with major radiusR=4.5 m and minor radiusa=1.3 m in a D-shaped (κ=1.6) plasma has been evaluated over a wide range of operating parameters. In particular, a moderate fusion power output of 300 MW is obtained, the driven plasma havingQ≅ 10, an edge ripple of 1%, and a density ranging between 1.0 and 1.5×1014 cm−3. The same device operated at a higher general level of stress (B 0=5.3 T) is predicted to achieve ignition, but is not required for the mission of an engineering test facility and would entail greater technical risk.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01050932

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Requirements for D-D tandem mirror reactors (1982)

Kantrowitz, F. ; Conn, R. W.

Springer

Journal of fusion energy 2 (1982), S. 59-70

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ISSN: 1572-9591

Keywords: tandem mirrors ; fusion reactor ; D-D fuel cycle

Source: Springer Online Journal Archives 1860-2000

Topics: Energy, Environment Protection, Nuclear Power Engineering

Notes: Abstract Requirements for D-D barrier tandem mirror reactors are calculated from an equilibrium power balance model. To obtain adequate plasmaQ and reasonable power density, axisymmetric configurations are required to decrease barrier length and radial transport and to increase central cell beta. We find that for a reactor producing 900 MW net electric power from aQ=6.5 plasma, a central cell length of 225 m, maximumB of 15 T, and neutral beam injection energy of 700 keV are necessary. In addition to high central cell beta (∼70%), high barrier beta (∼40%) is needed to allow the ECRH power required to reduce the barrier potential. Using too much barrier ECRH power results in a decrease inQ. Nuclear elastic scattering of fusion products plays an important role in the overall plasma power balance. When nuclear scattering and coulomb scattering are included, the plasmaQ value is increased by more than 40% compared to the case when coulomb scattering alone is considered.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01052390

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