Tokamak ======= - This is characterized by a continuous blanket that goes around the inboard and outboard sides of the plasma. Tokamak ------- - The spherical_tokamak function provides a parametric tokamak shaped reactor. - This is characterized by a blanket that only goes around the outboard sides of the plasma. - This reactor allows for a separate vertical and radial build which allows different thickness layers in the blanket. .. cadquery:: :gridsize: 0 :select: result :color: #00cd00 :width: 100% :height: 600px import paramak result = paramak.tokamak( radial_build=[ (paramak.LayerType.GAP, 10), (paramak.LayerType.SOLID, 30), (paramak.LayerType.SOLID, 50), (paramak.LayerType.SOLID, 10), (paramak.LayerType.SOLID, 120), (paramak.LayerType.SOLID, 20), (paramak.LayerType.GAP, 60), (paramak.LayerType.PLASMA, 300), (paramak.LayerType.GAP, 60), (paramak.LayerType.SOLID, 20), (paramak.LayerType.SOLID, 120), (paramak.LayerType.SOLID, 10), ], vertical_build=[ (paramak.LayerType.SOLID, 15), (paramak.LayerType.SOLID, 80), (paramak.LayerType.SOLID, 10), (paramak.LayerType.GAP, 50), (paramak.LayerType.PLASMA, 700), (paramak.LayerType.GAP, 60), (paramak.LayerType.SOLID, 10), (paramak.LayerType.SOLID, 40), (paramak.LayerType.SOLID, 15), ], triangularity=0.55, rotation_angle=180, ).toCompound() .. code-block:: python import paramak result = paramak.tokamak( radial_build=[ (paramak.LayerType.GAP, 10), (paramak.LayerType.SOLID, 30), (paramak.LayerType.SOLID, 50), (paramak.LayerType.SOLID, 10), (paramak.LayerType.SOLID, 120), (paramak.LayerType.SOLID, 20), (paramak.LayerType.GAP, 60), (paramak.LayerType.PLASMA, 300), (paramak.LayerType.GAP, 60), (paramak.LayerType.SOLID, 20), (paramak.LayerType.SOLID, 120), (paramak.LayerType.SOLID, 10), ], vertical_build=[ (paramak.LayerType.SOLID, 15), (paramak.LayerType.SOLID, 80), (paramak.LayerType.SOLID, 10), (paramak.LayerType.GAP, 50), (paramak.LayerType.PLASMA, 700), (paramak.LayerType.GAP, 60), (paramak.LayerType.SOLID, 10), (paramak.LayerType.SOLID, 40), (paramak.LayerType.SOLID, 15), ], triangularity=0.55, rotation_angle=180, ) result.save(f"tokamak_minimal.step") Tokamak from plasma ------------------- - The tokamak_from_plasma function provides a parametric tokamak shaped reactor. - This reactor requires few arguments to create as it keeps the vertical build of the blanket layers the same thickness as the radial build. .. cadquery:: :gridsize: 0 :select: result :color: #00cd00 :width: 100% :height: 600px import paramak result = paramak.tokamak_from_plasma( radial_build=[ (paramak.LayerType.GAP, 10), (paramak.LayerType.SOLID, 30), (paramak.LayerType.SOLID, 50), (paramak.LayerType.SOLID, 10), (paramak.LayerType.SOLID, 120), (paramak.LayerType.SOLID, 20), (paramak.LayerType.GAP, 60), (paramak.LayerType.PLASMA, 300), (paramak.LayerType.GAP, 60), (paramak.LayerType.SOLID, 20), (paramak.LayerType.SOLID, 120), (paramak.LayerType.SOLID, 10), ], elongation=2, triangularity=0.55, rotation_angle=90, ).toCompound() .. code-block:: python import paramak result = paramak.tokamak_from_plasma( radial_build=[ (paramak.LayerType.GAP, 10), (paramak.LayerType.SOLID, 30), (paramak.LayerType.SOLID, 50), (paramak.LayerType.SOLID, 10), (paramak.LayerType.SOLID, 120), (paramak.LayerType.SOLID, 20), (paramak.LayerType.GAP, 60), (paramak.LayerType.PLASMA, 300), (paramak.LayerType.GAP, 60), (paramak.LayerType.SOLID, 20), (paramak.LayerType.SOLID, 120), (paramak.LayerType.SOLID, 10), ], elongation=2, triangularity=0.55, rotation_angle=90, ) Tokamak with divertor --------------------- TODO Tokamak with poloidal field coils --------------------------------- TODO Tokamak with toroidal field coils --------------------------------- TODO Tokamak with negative triangularity ----------------------------------- - The triangularity argument can be set to a negative value to make a plasma with a negative triangularity. - This example makes a tokamak with a negative but this would work on any reactor. .. cadquery:: :gridsize: 0 :select: result :color: #00cd00 :width: 100% :height: 600px import paramak result = paramak.tokamak( radial_build=[ (paramak.LayerType.GAP, 10), (paramak.LayerType.SOLID, 30), (paramak.LayerType.SOLID, 50), (paramak.LayerType.SOLID, 10), (paramak.LayerType.SOLID, 120), (paramak.LayerType.SOLID, 20), (paramak.LayerType.GAP, 60), (paramak.LayerType.PLASMA, 300), (paramak.LayerType.GAP, 60), (paramak.LayerType.SOLID, 20), (paramak.LayerType.SOLID, 120), (paramak.LayerType.SOLID, 10), ], vertical_build=[ (paramak.LayerType.SOLID, 15), (paramak.LayerType.SOLID, 80), (paramak.LayerType.SOLID, 10), (paramak.LayerType.GAP, 50), (paramak.LayerType.PLASMA, 700), (paramak.LayerType.GAP, 60), (paramak.LayerType.SOLID, 10), (paramak.LayerType.SOLID, 40), (paramak.LayerType.SOLID, 15), ], triangularity=-0.55, rotation_angle=180, ).toCompound() .. code-block:: python import paramak result = paramak.tokamak( radial_build=[ (paramak.LayerType.GAP, 10), (paramak.LayerType.SOLID, 30), (paramak.LayerType.SOLID, 50), (paramak.LayerType.SOLID, 10), (paramak.LayerType.SOLID, 120), (paramak.LayerType.SOLID, 20), (paramak.LayerType.GAP, 60), (paramak.LayerType.PLASMA, 300), (paramak.LayerType.GAP, 60), (paramak.LayerType.SOLID, 20), (paramak.LayerType.SOLID, 120), (paramak.LayerType.SOLID, 10), ], vertical_build=[ (paramak.LayerType.SOLID, 15), (paramak.LayerType.SOLID, 80), (paramak.LayerType.SOLID, 10), (paramak.LayerType.GAP, 50), (paramak.LayerType.PLASMA, 700), (paramak.LayerType.GAP, 60), (paramak.LayerType.SOLID, 10), (paramak.LayerType.SOLID, 40), (paramak.LayerType.SOLID, 15), ], triangularity=-0.55, rotation_angle=180, ) result.save(f"tokamak_minimal.step") Tokamak with several customizations ----------------------------------- - Combining many of the examples together to produce a Tokamak with extra blanket layers, a lower divertor, PF and TF coils. .. cadquery:: :gridsize: 0 :select: result :color: #00cd00 :width: 100% :height: 600px import paramak from cadquery import vis, Workplane # makes a rectangle that overlaps the lower blanket under the plasma # the intersection of this and the layers will form the lower divertor points = [(300, -700), (300, 0), (400, 0), (400, -700)] divertor_lower = Workplane('XZ', origin=(0,0,0)).polyline(points).close().revolve(180) # creates a toroidal tf = paramak.toroidal_field_coil_rectangle( horizontal_start_point = (10, 520), vertical_mid_point = (860, 0), thickness = 50, distance = 40, with_inner_leg = True, rotation_angle = 180, azimuthal_placement_angles = [0, 30, 60, 90, 120, 150, 180], ) extra_cut_shapes = [tf] # creates pf coil for case_thickness, height, width, center_point in zip( [10, 15, 15, 10], [20, 50, 50, 20], [20, 50, 50, 20], [(730, 370), (810, 235), (810, -235), (730, -370)] ): extra_cut_shapes.append( paramak.poloidal_field_coil( height=height, width=width, center_point=center_point, rotation_angle=180 ) ) extra_cut_shapes.append( paramak.poloidal_field_coil_case( coil_height=height, coil_width=width, casing_thickness=case_thickness, rotation_angle=180, center_point=center_point, ) ) result = paramak.tokamak( radial_build=[ (paramak.LayerType.GAP, 10), (paramak.LayerType.SOLID, 30), (paramak.LayerType.SOLID, 50), (paramak.LayerType.SOLID, 10), (paramak.LayerType.SOLID, 60), (paramak.LayerType.SOLID, 60), (paramak.LayerType.SOLID, 20), (paramak.LayerType.GAP, 60), (paramak.LayerType.PLASMA, 300), (paramak.LayerType.GAP, 60), (paramak.LayerType.SOLID, 20), (paramak.LayerType.SOLID, 60), (paramak.LayerType.SOLID, 60), (paramak.LayerType.SOLID, 10), ], vertical_build=[ (paramak.LayerType.SOLID, 10), (paramak.LayerType.SOLID, 50), (paramak.LayerType.SOLID, 50), (paramak.LayerType.SOLID, 20), (paramak.LayerType.GAP, 60), (paramak.LayerType.PLASMA, 650), (paramak.LayerType.GAP, 60), (paramak.LayerType.SOLID, 20), (paramak.LayerType.SOLID, 50), (paramak.LayerType.SOLID, 50), (paramak.LayerType.SOLID, 10), ], triangularity=0.55, rotation_angle=180, extra_cut_shapes=extra_cut_shapes, extra_intersect_shapes=[divertor_lower] ).toCompound() .. code-block:: python import paramak from cadquery import Workplane # makes a rectangle that overlaps the lower blanket under the plasma # the intersection of this and the layers will form the lower divertor points = [(300, -700), (300, 0), (400, 0), (400, -700)] divertor_lower = Workplane('XZ', origin=(0,0,0)).polyline(points).close().revolve(180) # creates a toroidal tf = paramak.toroidal_field_coil_rectangle( horizontal_start_point = (10, 520), vertical_mid_point = (860, 0), thickness = 50, distance = 40, with_inner_leg = True, rotation_angle = 180, azimuthal_placement_angles = [0, 30, 60, 90, 120, 150, 180], ) extra_cut_shapes = [tf] # creates pf coil for case_thickness, height, width, center_point in zip( [10, 15, 15, 10], [20, 50, 50, 20], [20, 50, 50, 20], [(730, 370), (810, 235), (810, -235), (730, -370)] ): extra_cut_shapes.append( paramak.poloidal_field_coil( height=height, width=width, center_point=center_point, rotation_angle=180 ) ) extra_cut_shapes.append( paramak.poloidal_field_coil_case( coil_height=height, coil_width=width, casing_thickness=case_thickness, rotation_angle=180, center_point=center_point, ) ) my_reactor = paramak.tokamak( radial_build=[ (paramak.LayerType.GAP, 10), (paramak.LayerType.SOLID, 30), (paramak.LayerType.SOLID, 50), (paramak.LayerType.SOLID, 10), (paramak.LayerType.SOLID, 60), (paramak.LayerType.SOLID, 60), (paramak.LayerType.SOLID, 20), (paramak.LayerType.GAP, 60), (paramak.LayerType.PLASMA, 300), (paramak.LayerType.GAP, 60), (paramak.LayerType.SOLID, 20), (paramak.LayerType.SOLID, 60), (paramak.LayerType.SOLID, 60), (paramak.LayerType.SOLID, 10), ], vertical_build=[ (paramak.LayerType.SOLID, 10), (paramak.LayerType.SOLID, 50), (paramak.LayerType.SOLID, 50), (paramak.LayerType.SOLID, 20), (paramak.LayerType.GAP, 60), (paramak.LayerType.PLASMA, 650), (paramak.LayerType.GAP, 60), (paramak.LayerType.SOLID, 20), (paramak.LayerType.SOLID, 50), (paramak.LayerType.SOLID, 50), (paramak.LayerType.SOLID, 10), ], triangularity=0.55, rotation_angle=180, extra_cut_shapes=extra_cut_shapes, extra_intersect_shapes=[divertor_lower] ) my_reactor.save(f"tokamak_with_customizations.step")