Patent Number: 043495060
Section: claims

1. In a fusion reactor which includes a plurality of spaced field coils that each extend around a plasma region, to generate a magnetic field at the plasma region, the improvement of means for controlling magnetic field ripple comprising: a magnetic shield structure formed of ferrormagnetic material which has a temperature-dependent saturation magnetization, said structure lying between the plasma region and field coils;  means for controlling the temperature of said shield structure, to thereby cause the magnetic field ripple and therefore the heat loss from said plasma; and  means responsive to the state of said plasma for operating said temperature controlling means.  said temperature controlling means includes a conduit for carrying a cooling fluid to and from said shield structure and means for controlling the flow of fluid through said conduit, and wherein said means responsive to the state of said plasma for operating said temperature controlling means functions to increase the flow of cooling fluid when the plasma energy level increases above a predetermined energy state, thereby permitting increased magnetic field ripple and therefore increased heat losses from the plasma to decrease the plasma activity.  a magnetic shield structure which includes a plurality of primary shield sectors which are each located between the plasma region and a field coil, and a plurality of secondary shield sectors lying between pairs of said primary shield sectors each of said primary and secondary shield sectors constructed of ferromagnetic material having a temperature-dependent saturation magnetization; and  said plasma region extends in a toroid, and said primary and secondary shield sectors extend along the outside of said toroid and mechanically support one another to resist the large magnetic forces produced by the field coils.  a plurality of field coils encircling a toroidal plasma region;  a magnetic shield structure constructed of magnetic material having a temperature-dependent saturation magnetization, and located outside said plasma region but inside the region encircled by the field coils;  means for sensing the energy state of a plasma lying in said plasma region; and  means responsive to said sensing means for controlling the temperature of said magnetic material.  monitoring the energy state of the plasma; and  controlling in response to the energy state of the plasma the temperatures of magnetic shield sectors that lie at a radial position which is outside the plasma region but inside the field coils, and that are constructed of magnetic material having a temperature-dependent saturation magnetization, to vary the degree of magnetic field ripple in the region which contains the plasma.  said magnetic shields include a set of primary shield sectors lying directly inside said field coils and a set of secondary shield sectors lying between said primary shield sectors; and  said step of controlling includes changing the temperatures of both said primary and secondary shield sectors in directions to increase the saturation magnetization of one set of shield sectors and decrease the saturation magnetization of the other set of shield sectors. 2. The improvement described in claim 1 wherein: 3. In a fusion reactor which includes a plurality of spaced field coils that each extend around a plasma region, to generate a magnetic field at the plasma region, the improvement of means for controlling magnetic field ripple comprising: 4. The improvement described in claim 3 wherein: 5. A fusion reactor comprising: 6. A method for operating a fusion reactor of the tokamak type to control the energy state of the plasma therein, comprising: 7. The method described in claim 6 wherein said step of controlling includes increasing and decreasing the flow of coolant to said shield sectors when the energy state of said plasma lies respectively below and above a predetermined energy state. 8. The method described in claim 6 wherein: