<xs:element name="bb_shield"><xs:annotation><xs:documentation>Breeding blanket and relevant shield. CPO. Time-dependent CPO.</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation><xs:complexType><xs:sequence><xs:element ref="datainfo"/><xs:element name="type" type="xs:string"><xs:annotation><xs:documentation>Type of breeding blanket (HCLL, DCLL, HCPB, ...). String</xs:documentation></xs:annotation></xs:element><xs:element name="limits"><xs:annotation><xs:documentation>Limits</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation><xs:complexType><xs:sequence><xs:element name="fw_dpa" type="xs:float"><xs:annotation><xs:documentation>max allowable displacement per atom on FW [dpa]; Scalar.</xs:documentation></xs:annotation></xs:element><xs:element name="he_appm" type="xs:float"><xs:annotation><xs:documentation>He concentration limit in re-welding areas [appm]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="ins_dose" type="xs:float"><xs:annotation><xs:documentation>Integral radiation dose in insulator (Epoxy) [Gy] [J*Kg^-1]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="fn_flu" type="xs:float"><xs:annotation><xs:documentation>Peak fast neutron fluence (E>0.1 MeV) to the Nb3Sn superconductor [m^-2]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="dpa_cu" type="xs:float"><xs:annotation><xs:documentation>Peak displacement damage to copper stabilizer [dpa]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="wp_nh" type="xs:float"><xs:annotation><xs:documentation>Peak nuclear eating in winding pack [W*m^-3]; Scalar</xs:documentation></xs:annotation></xs:element></xs:sequence></xs:complexType></xs:element><xs:element name="li6_enrich" type="xs:float"><xs:annotation><xs:documentation>Lithium 6 enrichement (at%).</xs:documentation></xs:annotation></xs:element><xs:element name="geom"><xs:annotation><xs:documentation>Geometry between components</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation><xs:complexType><xs:sequence><xs:element name="dr_bb_sh_ib" type="xs:float"><xs:annotation><xs:documentation>Gap between the breeding blanket module and the shield (inboard) in the equatorial section [m]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="dr_sh_vv_ib" type="xs:float"><xs:annotation><xs:documentation>Gap between the shield and the vacuum vessel (inboard) in the equatorial section [m]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="dr_bb_sh_ob" type="xs:float"><xs:annotation><xs:documentation>Gap between the breeding blanket module and the shield (outboard) in the equatorial section [m]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="dr_sh_vv_ob" type="xs:float"><xs:annotation><xs:documentation>Gap between the shield and the vacuum vessel (outboard) in the equatorial section [m]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="dr_bb__sh_ib" type="xs:float"><xs:annotation><xs:documentation>Overal radial dimension of the ensemble BB plus shield (inboard) [m]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="dr_bb__sh_ob" type="xs:float"><xs:annotation><xs:documentation>Overal radial dimension of the ensemble BB plus shield (outboard) [m]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="delta_int" type="xs:float"><xs:annotation><xs:documentation>Distance between the inner plasma surface and the plasma facing side of the superconducting winding of the toroidal field coil [m]; Scalar</xs:documentation></xs:annotation></xs:element></xs:sequence></xs:complexType></xs:element><xs:element name="neut_results"><xs:annotation><xs:documentation>Neutronic results</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation><xs:complexType><xs:sequence><xs:element name="tbr_bk" type="xs:float"><xs:annotation><xs:documentation>Resulting global breeding blanket tritium breeding ratio; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="tbr_bk_inb" type="xs:float"><xs:annotation><xs:documentation>Resulting inboard breeding blanket Tritium Breeding Ratio [-]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="tbr_bk_outb" type="xs:float"><xs:annotation><xs:documentation>Resulting outboard breeding blanket Tritium Breeding Ratio [-]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="me_bk" type="xs:float"><xs:annotation><xs:documentation>Energy multiplication factor in breeding blanket; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="me_shield" type="xs:float"><xs:annotation><xs:documentation>Energy multiplication factor in shield; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="he_appm_res" type="xs:float"><xs:annotation><xs:documentation>He production in areas needing to be rewelded; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="ins_dose_max" type="xs:float"><xs:annotation><xs:documentation>Integral radiation dose in insulator (Epoxy) [J*Kg^-1]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="fn_flu_max" type="xs:float"><xs:annotation><xs:documentation>Peak fast neutron fluence (E>0.1 MeV) to the Nb3Sn superconductor [m^-2]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="dpa_cu_max" type="xs:float"><xs:annotation><xs:documentation>Peak displacement damage to copper stabilizer [dpa]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="fn_flux_bz" type="xs:float"><xs:annotation><xs:documentation>Fast neutron flux in breeding zone inboard [m^2.s^-1]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="fn_flux_bp" type="xs:float"><xs:annotation><xs:documentation>Fast neutron flux in backplate inboard [m^2.s^-1]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="fn_flux_man" type="xs:float"><xs:annotation><xs:documentation>Fast neutron flux in manifold inboard [m^2.s^-1]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="fn_flux_sh" type="xs:float"><xs:annotation><xs:documentation>Fast neutron flux in shield inboard [m^2.s^-1]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="p_nh_bk" type="xs:float"><xs:annotation><xs:documentation>Total nuclear heating in blanket [W]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="p_nh_sh" type="xs:float"><xs:annotation><xs:documentation>Total nuclear heating in shield [W]; Scalar</xs:documentation></xs:annotation></xs:element></xs:sequence></xs:complexType></xs:element><xs:element name="shield"><xs:annotation><xs:documentation>Shield</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation><xs:complexType><xs:sequence><xs:element name="inboard" type="shield_specs"><xs:annotation><xs:documentation>Inboard</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation></xs:element><xs:element name="outboard" type="shield_specs"><xs:annotation><xs:documentation>Outboard</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation></xs:element></xs:sequence></xs:complexType></xs:element><xs:element name="bb"><xs:annotation><xs:documentation>Breeding blanket</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation><xs:complexType><xs:sequence><xs:element name="nb_bb" type="xs:float"><xs:annotation><xs:documentation>Total (in the reactor) number of breeding blanket module; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="nb_bb_polcut" type="xs:float"><xs:annotation><xs:documentation>Number of bb modules on a poloidal cut; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="teta_bb" type="xs:float"><xs:annotation><xs:documentation>Angle (0 for equatorial outboard, then in anti-clokwise direction) of bb module; [deg]</xs:documentation></xs:annotation></xs:element><xs:element name="tbr" type="xs:float"><xs:annotation><xs:documentation>Tritium breeding ratio of the blanket [-]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="neutro_resul"><xs:annotation><xs:documentation>Neutronic results</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation><xs:complexType><xs:sequence><xs:element name="nwl_max" type="xs:float"><xs:annotation><xs:documentation>Maximum neutron wall load (on equatorial outboard module) [W*m^-2]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="nwl_pol_prof" type="vecflt_type"><xs:annotation><xs:documentation>NWL scaling factor coefficient for each bb module; Vector(nmodules)</xs:documentation></xs:annotation></xs:element></xs:sequence></xs:complexType></xs:element><xs:element name="inboard" type="bb_specs"><xs:annotation><xs:documentation>Inboard</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation></xs:element><xs:element name="outboard" type="bb_specs"><xs:annotation><xs:documentation>Outboard</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation></xs:element></xs:sequence></xs:complexType></xs:element><xs:element name="hcll"><xs:annotation><xs:documentation>Data specific to HCLL blanket concept</xs:documentation></xs:annotation><xs:complexType><xs:sequence><xs:element name="mat_lim"><xs:annotation><xs:documentation>Material limits specific to HCLL breeding blanket</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation><xs:complexType><xs:sequence><xs:element name="cool_t_lim" type="xs:float"><xs:annotation><xs:documentation>Min, max allowable He temperature [K];</xs:documentation></xs:annotation></xs:element><xs:element name="steel_t_lim" type="xs:float"><xs:annotation><xs:documentation>Min, max allowable steel temperature [K];</xs:documentation></xs:annotation></xs:element><xs:element name="lipb_t_lim" type="xs:float"><xs:annotation><xs:documentation>Min, max allowable LiPb temperature [K];</xs:documentation></xs:annotation></xs:element></xs:sequence></xs:complexType></xs:element><xs:element name="hcll_bb"><xs:annotation><xs:documentation>HCLL breeding blanket. Radially, the blanket is divided in 4 layers: 1: First Wall, 2 : breeder zone, 3 : back plates, 4 : manifolds</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation><xs:complexType><xs:sequence><xs:element name="bb_lifetime" type="xs:float"><xs:annotation><xs:documentation>Breeding blanket lifetime [years]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="he_inl_t" type="xs:float"><xs:annotation><xs:documentation>Inlet temperature (to the bb module) [K]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="he_fr" type="xs:float"><xs:annotation><xs:documentation>Coolant mass flow rate in "the" reference bb module (or in each module) [Kg/s];</xs:documentation></xs:annotation></xs:element><xs:element name="he_inl_p" type="xs:float"><xs:annotation><xs:documentation>Helium inlet pressure [Pa]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="loca_des_p" type="xs:float"><xs:annotation><xs:documentation>Box design pressure (coincident He circuit design pressure) [Pa]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="he_dp" type="xs:float"><xs:annotation><xs:documentation>Coolant pressure drops in the breeding blankets [Pa]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="lipb_dp" type="xs:float"><xs:annotation><xs:documentation>Pb-15.7Li pressure drops in the bb [Pa]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="react"><xs:annotation><xs:documentation>In the reactor region</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation><xs:complexType><xs:sequence><xs:element name="he_fr" type="xs:float"><xs:annotation><xs:documentation>Coolant mass flow rate in the whole reactor [Kg/s]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="lp_fr" type="xs:float"><xs:annotation><xs:documentation>Pb-15.7Li mass flow rate in the whole reactor [Kg/s]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="he_dp" type="xs:float"><xs:annotation><xs:documentation>Coolant pressure drops in the reactor (compressing pipelines) [Pa]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="lipb_dp" type="xs:float"><xs:annotation><xs:documentation>Pb-15.7Li pressure drops in the reactor [Pa]; Scalar</xs:documentation></xs:annotation></xs:element></xs:sequence></xs:complexType></xs:element><xs:element name="inboard" type="hcllbb_specs"><xs:annotation><xs:documentation>Inboard</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation></xs:element><xs:element name="outboard" type="hcllbb_specs"><xs:annotation><xs:documentation>Outboard</xs:documentation></xs:annotation></xs:element></xs:sequence></xs:complexType></xs:element></xs:sequence></xs:complexType></xs:element><xs:element ref="codeparam"/><xs:element name="time" type="xs:float" default="0.0"><xs:annotation><xs:documentation>Time [s]; Time-dependent; Scalar</xs:documentation></xs:annotation></xs:element></xs:sequence></xs:complexType></xs:element>
max allowable displacement per atom on FW [dpa]; Scalar.
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="fw_dpa" type="xs:float"><xs:annotation><xs:documentation>max allowable displacement per atom on FW [dpa]; Scalar.</xs:documentation></xs:annotation></xs:element>
He concentration limit in re-welding areas [appm]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="he_appm" type="xs:float"><xs:annotation><xs:documentation>He concentration limit in re-welding areas [appm]; Scalar</xs:documentation></xs:annotation></xs:element>
Peak fast neutron fluence (E>0.1 MeV) to the Nb3Sn superconductor [m^-2]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="fn_flu" type="xs:float"><xs:annotation><xs:documentation>Peak fast neutron fluence (E>0.1 MeV) to the Nb3Sn superconductor [m^-2]; Scalar</xs:documentation></xs:annotation></xs:element>
<xs:element name="geom"><xs:annotation><xs:documentation>Geometry between components</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation><xs:complexType><xs:sequence><xs:element name="dr_bb_sh_ib" type="xs:float"><xs:annotation><xs:documentation>Gap between the breeding blanket module and the shield (inboard) in the equatorial section [m]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="dr_sh_vv_ib" type="xs:float"><xs:annotation><xs:documentation>Gap between the shield and the vacuum vessel (inboard) in the equatorial section [m]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="dr_bb_sh_ob" type="xs:float"><xs:annotation><xs:documentation>Gap between the breeding blanket module and the shield (outboard) in the equatorial section [m]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="dr_sh_vv_ob" type="xs:float"><xs:annotation><xs:documentation>Gap between the shield and the vacuum vessel (outboard) in the equatorial section [m]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="dr_bb__sh_ib" type="xs:float"><xs:annotation><xs:documentation>Overal radial dimension of the ensemble BB plus shield (inboard) [m]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="dr_bb__sh_ob" type="xs:float"><xs:annotation><xs:documentation>Overal radial dimension of the ensemble BB plus shield (outboard) [m]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="delta_int" type="xs:float"><xs:annotation><xs:documentation>Distance between the inner plasma surface and the plasma facing side of the superconducting winding of the toroidal field coil [m]; Scalar</xs:documentation></xs:annotation></xs:element></xs:sequence></xs:complexType></xs:element>
Gap between the breeding blanket module and the shield (inboard) in the equatorial section [m]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="dr_bb_sh_ib" type="xs:float"><xs:annotation><xs:documentation>Gap between the breeding blanket module and the shield (inboard) in the equatorial section [m]; Scalar</xs:documentation></xs:annotation></xs:element>
Gap between the shield and the vacuum vessel (inboard) in the equatorial section [m]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="dr_sh_vv_ib" type="xs:float"><xs:annotation><xs:documentation>Gap between the shield and the vacuum vessel (inboard) in the equatorial section [m]; Scalar</xs:documentation></xs:annotation></xs:element>
Gap between the breeding blanket module and the shield (outboard) in the equatorial section [m]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="dr_bb_sh_ob" type="xs:float"><xs:annotation><xs:documentation>Gap between the breeding blanket module and the shield (outboard) in the equatorial section [m]; Scalar</xs:documentation></xs:annotation></xs:element>
Gap between the shield and the vacuum vessel (outboard) in the equatorial section [m]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="dr_sh_vv_ob" type="xs:float"><xs:annotation><xs:documentation>Gap between the shield and the vacuum vessel (outboard) in the equatorial section [m]; Scalar</xs:documentation></xs:annotation></xs:element>
Overal radial dimension of the ensemble BB plus shield (inboard) [m]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="dr_bb__sh_ib" type="xs:float"><xs:annotation><xs:documentation>Overal radial dimension of the ensemble BB plus shield (inboard) [m]; Scalar</xs:documentation></xs:annotation></xs:element>
Overal radial dimension of the ensemble BB plus shield (outboard) [m]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="dr_bb__sh_ob" type="xs:float"><xs:annotation><xs:documentation>Overal radial dimension of the ensemble BB plus shield (outboard) [m]; Scalar</xs:documentation></xs:annotation></xs:element>
Distance between the inner plasma surface and the plasma facing side of the superconducting winding of the toroidal field coil [m]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="delta_int" type="xs:float"><xs:annotation><xs:documentation>Distance between the inner plasma surface and the plasma facing side of the superconducting winding of the toroidal field coil [m]; Scalar</xs:documentation></xs:annotation></xs:element>
He production in areas needing to be rewelded; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="he_appm_res" type="xs:float"><xs:annotation><xs:documentation>He production in areas needing to be rewelded; Scalar</xs:documentation></xs:annotation></xs:element>
Peak fast neutron fluence (E>0.1 MeV) to the Nb3Sn superconductor [m^-2]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="fn_flu_max" type="xs:float"><xs:annotation><xs:documentation>Peak fast neutron fluence (E>0.1 MeV) to the Nb3Sn superconductor [m^-2]; Scalar</xs:documentation></xs:annotation></xs:element>
Inboard or outboard shield radial build the percentage of each material respectively (Meaning of the material index 1: Eurofer, 2: Pb-15.7Li, 3: He, 4: Water, 5: Tungsten Carbide, 6: Boron, 7: Tungsten, 8: Stainless Steel 316) in %vol; Vector(nmat).
<xs:element name="composition" type="vecflt_type"><xs:annotation><xs:documentation>Inboard or outboard shield radial build the percentage of each material respectively (Meaning of the material index 1: Eurofer, 2: Pb-15.7Li, 3: He, 4: Water, 5: Tungsten Carbide, 6: Boron, 7: Tungsten, 8: Stainless Steel 316) in %vol; Vector(nmat).</xs:documentation></xs:annotation></xs:element>
Inner radius (nearest to the plasma), in the global tokamak coordinate system of the inboard or outboard shield located at the equatorial plane [m]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="r1" type="xs:float"><xs:annotation><xs:documentation>Inner radius (nearest to the plasma), in the global tokamak coordinate system of the inboard or outboard shield located at the equatorial plane [m]; Scalar</xs:documentation></xs:annotation></xs:element>
Outer radius (farest to the plasma), in the global tokamak coordinate system of the inboard or outboard shield located at the equatorial plane [m]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="r2" type="xs:float"><xs:annotation><xs:documentation>Outer radius (farest to the plasma), in the global tokamak coordinate system of the inboard or outboard shield located at the equatorial plane [m]; Scalar</xs:documentation></xs:annotation></xs:element>
<xs:element name="mass" type="xs:float"><xs:annotation><xs:documentation>Mass of inboard or outboard shield [Kg]; Scalar</xs:documentation></xs:annotation></xs:element>
<xs:element name="bb"><xs:annotation><xs:documentation>Breeding blanket</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation><xs:complexType><xs:sequence><xs:element name="nb_bb" type="xs:float"><xs:annotation><xs:documentation>Total (in the reactor) number of breeding blanket module; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="nb_bb_polcut" type="xs:float"><xs:annotation><xs:documentation>Number of bb modules on a poloidal cut; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="teta_bb" type="xs:float"><xs:annotation><xs:documentation>Angle (0 for equatorial outboard, then in anti-clokwise direction) of bb module; [deg]</xs:documentation></xs:annotation></xs:element><xs:element name="tbr" type="xs:float"><xs:annotation><xs:documentation>Tritium breeding ratio of the blanket [-]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="neutro_resul"><xs:annotation><xs:documentation>Neutronic results</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation><xs:complexType><xs:sequence><xs:element name="nwl_max" type="xs:float"><xs:annotation><xs:documentation>Maximum neutron wall load (on equatorial outboard module) [W*m^-2]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="nwl_pol_prof" type="vecflt_type"><xs:annotation><xs:documentation>NWL scaling factor coefficient for each bb module; Vector(nmodules)</xs:documentation></xs:annotation></xs:element></xs:sequence></xs:complexType></xs:element><xs:element name="inboard" type="bb_specs"><xs:annotation><xs:documentation>Inboard</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation></xs:element><xs:element name="outboard" type="bb_specs"><xs:annotation><xs:documentation>Outboard</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation></xs:element></xs:sequence></xs:complexType></xs:element>
Total (in the reactor) number of breeding blanket module; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="nb_bb" type="xs:float"><xs:annotation><xs:documentation>Total (in the reactor) number of breeding blanket module; Scalar</xs:documentation></xs:annotation></xs:element>
<xs:element name="nb_bb_polcut" type="xs:float"><xs:annotation><xs:documentation>Number of bb modules on a poloidal cut; Scalar</xs:documentation></xs:annotation></xs:element>
Angle (0 for equatorial outboard, then in anti-clokwise direction) of bb module; [deg]
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="teta_bb" type="xs:float"><xs:annotation><xs:documentation>Angle (0 for equatorial outboard, then in anti-clokwise direction) of bb module; [deg]</xs:documentation></xs:annotation></xs:element>
<xs:element name="tbr" type="xs:float"><xs:annotation><xs:documentation>Tritium breeding ratio of the blanket [-]; Scalar</xs:documentation></xs:annotation></xs:element>
Number of inboard or outboard bb modules (in a poloidal cut), Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="nbb" type="xs:float"><xs:annotation><xs:documentation>Number of inboard or outboard bb modules (in a poloidal cut), Scalar</xs:documentation></xs:annotation></xs:element>
Inner radius (nearest to the plasma), in the global tokamak coordinate system of the inboard or outboard bb located at the equatorial plane [m]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="r1" type="xs:float"><xs:annotation><xs:documentation>Inner radius (nearest to the plasma), in the global tokamak coordinate system of the inboard or outboard bb located at the equatorial plane [m]; Scalar</xs:documentation></xs:annotation></xs:element>
Outer radius (farest to the plasma), in the global tokamak coordinate system of the inboard or outboard bb located at the equatorial plane [m]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="r2" type="xs:float"><xs:annotation><xs:documentation>Outer radius (farest to the plasma), in the global tokamak coordinate system of the inboard or outboard bb located at the equatorial plane [m]; Scalar</xs:documentation></xs:annotation></xs:element>
<xs:element name="dimension" type="bb_dimension"><xs:annotation><xs:documentation>dimension of the various modules</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation></xs:element>
<xs:element name="hcll"><xs:annotation><xs:documentation>Data specific to HCLL blanket concept</xs:documentation></xs:annotation><xs:complexType><xs:sequence><xs:element name="mat_lim"><xs:annotation><xs:documentation>Material limits specific to HCLL breeding blanket</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation><xs:complexType><xs:sequence><xs:element name="cool_t_lim" type="xs:float"><xs:annotation><xs:documentation>Min, max allowable He temperature [K];</xs:documentation></xs:annotation></xs:element><xs:element name="steel_t_lim" type="xs:float"><xs:annotation><xs:documentation>Min, max allowable steel temperature [K];</xs:documentation></xs:annotation></xs:element><xs:element name="lipb_t_lim" type="xs:float"><xs:annotation><xs:documentation>Min, max allowable LiPb temperature [K];</xs:documentation></xs:annotation></xs:element></xs:sequence></xs:complexType></xs:element><xs:element name="hcll_bb"><xs:annotation><xs:documentation>HCLL breeding blanket. Radially, the blanket is divided in 4 layers: 1: First Wall, 2 : breeder zone, 3 : back plates, 4 : manifolds</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation><xs:complexType><xs:sequence><xs:element name="bb_lifetime" type="xs:float"><xs:annotation><xs:documentation>Breeding blanket lifetime [years]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="he_inl_t" type="xs:float"><xs:annotation><xs:documentation>Inlet temperature (to the bb module) [K]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="he_fr" type="xs:float"><xs:annotation><xs:documentation>Coolant mass flow rate in "the" reference bb module (or in each module) [Kg/s];</xs:documentation></xs:annotation></xs:element><xs:element name="he_inl_p" type="xs:float"><xs:annotation><xs:documentation>Helium inlet pressure [Pa]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="loca_des_p" type="xs:float"><xs:annotation><xs:documentation>Box design pressure (coincident He circuit design pressure) [Pa]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="he_dp" type="xs:float"><xs:annotation><xs:documentation>Coolant pressure drops in the breeding blankets [Pa]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="lipb_dp" type="xs:float"><xs:annotation><xs:documentation>Pb-15.7Li pressure drops in the bb [Pa]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="react"><xs:annotation><xs:documentation>In the reactor region</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation><xs:complexType><xs:sequence><xs:element name="he_fr" type="xs:float"><xs:annotation><xs:documentation>Coolant mass flow rate in the whole reactor [Kg/s]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="lp_fr" type="xs:float"><xs:annotation><xs:documentation>Pb-15.7Li mass flow rate in the whole reactor [Kg/s]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="he_dp" type="xs:float"><xs:annotation><xs:documentation>Coolant pressure drops in the reactor (compressing pipelines) [Pa]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="lipb_dp" type="xs:float"><xs:annotation><xs:documentation>Pb-15.7Li pressure drops in the reactor [Pa]; Scalar</xs:documentation></xs:annotation></xs:element></xs:sequence></xs:complexType></xs:element><xs:element name="inboard" type="hcllbb_specs"><xs:annotation><xs:documentation>Inboard</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation></xs:element><xs:element name="outboard" type="hcllbb_specs"><xs:annotation><xs:documentation>Outboard</xs:documentation></xs:annotation></xs:element></xs:sequence></xs:complexType></xs:element></xs:sequence></xs:complexType></xs:element>
<xs:element name="mat_lim"><xs:annotation><xs:documentation>Material limits specific to HCLL breeding blanket</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation><xs:complexType><xs:sequence><xs:element name="cool_t_lim" type="xs:float"><xs:annotation><xs:documentation>Min, max allowable He temperature [K];</xs:documentation></xs:annotation></xs:element><xs:element name="steel_t_lim" type="xs:float"><xs:annotation><xs:documentation>Min, max allowable steel temperature [K];</xs:documentation></xs:annotation></xs:element><xs:element name="lipb_t_lim" type="xs:float"><xs:annotation><xs:documentation>Min, max allowable LiPb temperature [K];</xs:documentation></xs:annotation></xs:element></xs:sequence></xs:complexType></xs:element>
<xs:element name="cool_t_lim" type="xs:float"><xs:annotation><xs:documentation>Min, max allowable He temperature [K];</xs:documentation></xs:annotation></xs:element>
<xs:element name="steel_t_lim" type="xs:float"><xs:annotation><xs:documentation>Min, max allowable steel temperature [K];</xs:documentation></xs:annotation></xs:element>
<xs:element name="lipb_t_lim" type="xs:float"><xs:annotation><xs:documentation>Min, max allowable LiPb temperature [K];</xs:documentation></xs:annotation></xs:element>
<xs:element name="he_inl_t" type="xs:float"><xs:annotation><xs:documentation>Inlet temperature (to the bb module) [K]; Scalar</xs:documentation></xs:annotation></xs:element>
Coolant mass flow rate in "the" reference bb module (or in each module) [Kg/s];
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="he_fr" type="xs:float"><xs:annotation><xs:documentation>Coolant mass flow rate in "the" reference bb module (or in each module) [Kg/s];</xs:documentation></xs:annotation></xs:element>
<xs:element name="lipb_dp" type="xs:float"><xs:annotation><xs:documentation>Pb-15.7Li pressure drops in the bb [Pa]; Scalar</xs:documentation></xs:annotation></xs:element>
<xs:element name="react"><xs:annotation><xs:documentation>In the reactor region</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation><xs:complexType><xs:sequence><xs:element name="he_fr" type="xs:float"><xs:annotation><xs:documentation>Coolant mass flow rate in the whole reactor [Kg/s]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="lp_fr" type="xs:float"><xs:annotation><xs:documentation>Pb-15.7Li mass flow rate in the whole reactor [Kg/s]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="he_dp" type="xs:float"><xs:annotation><xs:documentation>Coolant pressure drops in the reactor (compressing pipelines) [Pa]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="lipb_dp" type="xs:float"><xs:annotation><xs:documentation>Pb-15.7Li pressure drops in the reactor [Pa]; Scalar</xs:documentation></xs:annotation></xs:element></xs:sequence></xs:complexType></xs:element>
Coolant mass flow rate in the whole reactor [Kg/s]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="he_fr" type="xs:float"><xs:annotation><xs:documentation>Coolant mass flow rate in the whole reactor [Kg/s]; Scalar</xs:documentation></xs:annotation></xs:element>
Pb-15.7Li mass flow rate in the whole reactor [Kg/s]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="lp_fr" type="xs:float"><xs:annotation><xs:documentation>Pb-15.7Li mass flow rate in the whole reactor [Kg/s]; Scalar</xs:documentation></xs:annotation></xs:element>
Pb-15.7Li pressure drops in the reactor [Pa]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="lipb_dp" type="xs:float"><xs:annotation><xs:documentation>Pb-15.7Li pressure drops in the reactor [Pa]; Scalar</xs:documentation></xs:annotation></xs:element>
<xs:element name="mass" type="vecflt_type"><xs:annotation><xs:documentation>Mass of inboard or outboard breeding blanket modules (located at equatorial midplane if only one considered) [Kg]; Vector(nmodules)</xs:documentation></xs:annotation></xs:element>
<xs:element name="dr" type="vecflt_type"><xs:annotation><xs:documentation>Inboard or outboard breeding blanket radial build giving the thickness of each layer [m]; Vector(nlayers)</xs:documentation></xs:annotation></xs:element>
Inboard or outboard breeding blanket radial build giving for each layer (1: First Wall protective layer, 2: First Wall, 3 : breeder zone, 4 : back plates, 5 : manifolds), the percentage of each material respectively (Meaning of the material index 1: Eurofer, 2: Pb-15.7Li, 3: He, 4: Water, 5: Tungsten Carbide, 6: Boron, 7: Tungsten, 8: Stainless Steel 316) in %vol; Matrix(nlayers(=5), max_nmaterials)
<xs:element name="composition" type="matflt_type"><xs:annotation><xs:documentation>Inboard or outboard breeding blanket radial build giving for each layer (1: First Wall protective layer, 2: First Wall, 3 : breeder zone, 4 : back plates, 5 : manifolds), the percentage of each material respectively (Meaning of the material index 1: Eurofer, 2: Pb-15.7Li, 3: He, 4: Water, 5: Tungsten Carbide, 6: Boron, 7: Tungsten, 8: Stainless Steel 316) in %vol; Matrix(nlayers(=5), max_nmaterials)</xs:documentation></xs:annotation></xs:element>
<xs:element name="dr_fw" type="xs:float"><xs:annotation><xs:documentation>Radial thickness of the FW [m]; Scalar</xs:documentation></xs:annotation></xs:element>
Radial thickness of the BZ (between the FW and the 1st back plate wall) [m]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="dr_bz" type="xs:float"><xs:annotation><xs:documentation>Radial thickness of the BZ (between the FW and the 1st back plate wall) [m]; Scalar</xs:documentation></xs:annotation></xs:element>
Radial thickness of the BPs integrated to the module [m]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="dr_bp" type="xs:float"><xs:annotation><xs:documentation>Radial thickness of the BPs integrated to the module [m]; Scalar</xs:documentation></xs:annotation></xs:element>
<xs:element name="dr_bp_plates" type="vecflt_type"><xs:annotation><xs:documentation>Radial thickness of every BP integrated to the module [m]; Vector(nplates)</xs:documentation></xs:annotation></xs:element>
Radial thickness of the banana manifold common to all modules [m]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="dr_man" type="xs:float"><xs:annotation><xs:documentation>Radial thickness of the banana manifold common to all modules [m]; Scalar</xs:documentation></xs:annotation></xs:element>
Toroidal dimension of the BZ (between the two side walls [m]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="dt_bz" type="xs:float"><xs:annotation><xs:documentation>Toroidal dimension of the BZ (between the two side walls [m]; Scalar</xs:documentation></xs:annotation></xs:element>
Poloidal dimension of the Breeder zone [m]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="dp_bz" type="xs:float"><xs:annotation><xs:documentation>Poloidal dimension of the Breeder zone [m]; Scalar</xs:documentation></xs:annotation></xs:element>
<xs:element name="top_cap_dim" type="bb_dimension"><xs:annotation><xs:documentation>Top cap dimension of bb modules</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation></xs:element>
<xs:element name="bot_cap_dim" type="bb_dimension"><xs:annotation><xs:documentation>Bottom cap dimension of bb modules</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation></xs:element>
<xs:element name="n_fw_ch" type="xs:float"><xs:annotation><xs:documentation>Number of first wall channels; Scalar</xs:documentation></xs:annotation></xs:element>
Number of circulation in channel first wall channels; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="n_fw_circ" type="xs:float"><xs:annotation><xs:documentation>Number of circulation in channel first wall channels; Scalar</xs:documentation></xs:annotation></xs:element>
Number of channels per stiffening plate [m]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="n_sg_ch" type="xs:float"><xs:annotation><xs:documentation>Number of channels per stiffening plate [m]; Scalar</xs:documentation></xs:annotation></xs:element>
Percentage of the cooling plate length [-]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="r_sg_cp" type="xs:float"><xs:annotation><xs:documentation>Percentage of the cooling plate length [-]; Scalar</xs:documentation></xs:annotation></xs:element>
<xs:element name="n_cp_ch" type="xs:float"><xs:annotation><xs:documentation>Number of channels per cooling plates [m]; Scalar</xs:documentation></xs:annotation></xs:element>
<xs:element name="n_cp_bu" type="xs:float"><xs:annotation><xs:documentation>Number of cooling plates per breeder unit; Scalar</xs:documentation></xs:annotation></xs:element>
<xs:element name="he_bptb_od" type="xs:float"><xs:annotation><xs:documentation>Output diameter of He inlet tube [m]; Scalar</xs:documentation></xs:annotation></xs:element>
<xs:element name="he_bptb_id" type="xs:float"><xs:annotation><xs:documentation>Input diameter of He inlet tube [m]; Scalar</xs:documentation></xs:annotation></xs:element>
<xs:element name="r" type="vecflt_type"><xs:annotation><xs:documentation>Major radius position at wich power density is calculated [m]; Vector(nr)</xs:documentation></xs:annotation></xs:element>
<xs:element name="pd_rad" type="vecflt_type"><xs:annotation><xs:documentation>Power density distribution in radial direction [W/m^3]; Vector(nr)</xs:documentation></xs:annotation></xs:element>
<xs:element name="lipb_coef_pd" type="vecflt_type"><xs:annotation><xs:documentation>Pb-15.7Li power density distribution in radial direction: coefficients of bi-exponential law if this one is used [W/m^-3,W/m^-3,m^-1,m^-1]; Matrix</xs:documentation></xs:annotation></xs:element>
<xs:element name="steel_coef_pd" type="vecflt_type"><xs:annotation><xs:documentation>Eurofer power density distribution in radial direction: coefficients of bi-exponential law if this one is used</xs:documentation></xs:annotation></xs:element>
<xs:element name="dep_pow" type="vecflt_type"><xs:annotation><xs:documentation>Power deposited in each bb module (the reference outboard module if only value is given) [W]; Vector(nmodules)</xs:documentation></xs:annotation></xs:element>
Power deposited in the first wall (heat flux + neutrons) [W]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="dep_fw" type="xs:float"><xs:annotation><xs:documentation>Power deposited in the first wall (heat flux + neutrons) [W]; Scalar</xs:documentation></xs:annotation></xs:element>
Power deposited in the Pb-15.7Li (neutrons) [W]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="dep_lp" type="xs:float"><xs:annotation><xs:documentation>Power deposited in the Pb-15.7Li (neutrons) [W]; Scalar</xs:documentation></xs:annotation></xs:element>
Power deposited in the manifolds (neutrons) [W]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="dep_man" type="xs:float"><xs:annotation><xs:documentation>Power deposited in the manifolds (neutrons) [W]; Scalar</xs:documentation></xs:annotation></xs:element>
Power deposited in the protect layer (made of tungsten) (neutrons) [W]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="dep_pl" type="xs:float"><xs:annotation><xs:documentation>Power deposited in the protect layer (made of tungsten) (neutrons) [W]; Scalar</xs:documentation></xs:annotation></xs:element>
Power recovered from He in first wall channels [W]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="rec_fw" type="xs:float"><xs:annotation><xs:documentation>Power recovered from He in first wall channels [W]; Scalar</xs:documentation></xs:annotation></xs:element>
Power recovered from He in stiffening grid channels [W]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="rec_sg" type="xs:float"><xs:annotation><xs:documentation>Power recovered from He in stiffening grid channels [W]; Scalar</xs:documentation></xs:annotation></xs:element>
Power recovered from He in cooling plates channels [W]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="rec_cp" type="xs:float"><xs:annotation><xs:documentation>Power recovered from He in cooling plates channels [W]; Scalar</xs:documentation></xs:annotation></xs:element>
Peak energy depostion in first wall [W.m^-3]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="pow_dens_fw" type="xs:float"><xs:annotation><xs:documentation>Peak energy depostion in first wall [W.m^-3]; Scalar</xs:documentation></xs:annotation></xs:element>
Peak energy depostion in breeding zone [W.m^-3]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="pow_dens_bz" type="xs:float"><xs:annotation><xs:documentation>Peak energy depostion in breeding zone [W.m^-3]; Scalar</xs:documentation></xs:annotation></xs:element>
Peak energy depostion in breeding zone (first ten centimers) [W.m^-3]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="pow_dens_bz10" type="xs:float"><xs:annotation><xs:documentation>Peak energy depostion in breeding zone (first ten centimers) [W.m^-3]; Scalar</xs:documentation></xs:annotation></xs:element>
Peak energy depostion in back plate [W.m^-3]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="pow_dens_bp" type="xs:float"><xs:annotation><xs:documentation>Peak energy depostion in back plate [W.m^-3]; Scalar</xs:documentation></xs:annotation></xs:element>
Peak energy depostion in manifold [W.m^-3]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="pow_dens_man" type="xs:float"><xs:annotation><xs:documentation>Peak energy depostion in manifold [W.m^-3]; Scalar</xs:documentation></xs:annotation></xs:element>
<xs:element name="pow_dens_sh" type="xs:float"><xs:annotation><xs:documentation>Peak energy depostion in shield [W.m^-3]; Scalar</xs:documentation></xs:annotation></xs:element>
% of Helium going through the bypass (set to 0 if not otherwise specified)
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="perc_bp_he" type="xs:float"><xs:annotation><xs:documentation>% of Helium going through the bypass (set to 0 if not otherwise specified)</xs:documentation></xs:annotation></xs:element>
Outlet temperature (from the bb module) [K]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="he_out_t" type="xs:float"><xs:annotation><xs:documentation>Outlet temperature (from the bb module) [K]; Scalar</xs:documentation></xs:annotation></xs:element>
First wall eurofer maximum temperature [K]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="fw_st_max_t" type="xs:float"><xs:annotation><xs:documentation>First wall eurofer maximum temperature [K]; Scalar</xs:documentation></xs:annotation></xs:element>
Stiffening grid eurofer maximum temperature [K]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="sg_st_max_t" type="xs:float"><xs:annotation><xs:documentation>Stiffening grid eurofer maximum temperature [K]; Scalar</xs:documentation></xs:annotation></xs:element>
Cooling plates eurofer maximum temperature [K]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="cp_st_max_t" type="xs:float"><xs:annotation><xs:documentation>Cooling plates eurofer maximum temperature [K]; Scalar</xs:documentation></xs:annotation></xs:element>
<xs:element name="fw_dp_he" type="xs:float"><xs:annotation><xs:documentation>Pressure drops in the first wall [Pa]; Scalar</xs:documentation></xs:annotation></xs:element>
Pressure drops in the stiffening grid [Pa]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="sg_dp_he" type="xs:float"><xs:annotation><xs:documentation>Pressure drops in the stiffening grid [Pa]; Scalar</xs:documentation></xs:annotation></xs:element>
<xs:element name="cp_dp_he" type="xs:float"><xs:annotation><xs:documentation>Pressure drops in the cooling plates [Pa]; Scalar</xs:documentation></xs:annotation></xs:element>
<xs:element name="man_dp_he" type="xs:float"><xs:annotation><xs:documentation>Pressure drops in the manifolds [Pa]; Scalar</xs:documentation></xs:annotation></xs:element>
Total pressure drops in the by pass (if any) [Pa]; ScalarScalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="bp_dp_he" type="xs:float"><xs:annotation><xs:documentation>Total pressure drops in the by pass (if any) [Pa]; ScalarScalar</xs:documentation></xs:annotation></xs:element>
<xs:element name="circ_dp_he" type="xs:float"><xs:annotation><xs:documentation>Pressure drops in one He circuit [Pa]; Scalar</xs:documentation></xs:annotation></xs:element>
Min margin to tensile stress limit in the first wall; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="fw_min_ts_mg" type="xs:float"><xs:annotation><xs:documentation>Min margin to tensile stress limit in the first wall; Scalar</xs:documentation></xs:annotation></xs:element>
Min margin to banding stress limit in the first wall; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="fw_min_bd_mg" type="xs:float"><xs:annotation><xs:documentation>Min margin to banding stress limit in the first wall; Scalar</xs:documentation></xs:annotation></xs:element>
Min margin to tensile stress limit in the stiffening grid; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="sg_min_ts_mg" type="xs:float"><xs:annotation><xs:documentation>Min margin to tensile stress limit in the stiffening grid; Scalar</xs:documentation></xs:annotation></xs:element>
Min margin to bending stress limit in the stiffening grid; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="sg_min_bd_mg" type="xs:float"><xs:annotation><xs:documentation>Min margin to bending stress limit in the stiffening grid; Scalar</xs:documentation></xs:annotation></xs:element>
Min margin to tensile stress limit in the cooling plate; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="cp_min_ts_mg" type="xs:float"><xs:annotation><xs:documentation>Min margin to tensile stress limit in the cooling plate; Scalar</xs:documentation></xs:annotation></xs:element>
Min margin to bending stress limit in the cooling plate; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="cp_min_bd_mg" type="xs:float"><xs:annotation><xs:documentation>Min margin to bending stress limit in the cooling plate; Scalar</xs:documentation></xs:annotation></xs:element>
nb of Pb-15.7Li recirculation per day [Pa]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="lp_rec_day" type="xs:float"><xs:annotation><xs:documentation>nb of Pb-15.7Li recirculation per day [Pa]; Scalar</xs:documentation></xs:annotation></xs:element>
<xs:element name="bb_lp_fr" type="vecflt_type"><xs:annotation><xs:documentation>Pb-15.7Li mass flow rate in "the" bb module (or in each bb module) [Kg/s]; Vector(nmodules)</xs:documentation></xs:annotation></xs:element>
Pb-15.7Li pressure drops in the breeder unit [Pa]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="bu_dp_lp" type="xs:float"><xs:annotation><xs:documentation>Pb-15.7Li pressure drops in the breeder unit [Pa]; Scalar</xs:documentation></xs:annotation></xs:element>
Pb-15.7Li average temperature in a breeder unit [K]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="bu_lp_ave_t" type="xs:float"><xs:annotation><xs:documentation>Pb-15.7Li average temperature in a breeder unit [K]; Scalar</xs:documentation></xs:annotation></xs:element>
Pb-15.7Li max temperature in a breeder unit [K]; Scalar
Diagram
Type
xs:float
Properties
content
simple
Source
<xs:element name="bu_lp_max_t" type="xs:float"><xs:annotation><xs:documentation>Pb-15.7Li max temperature in a breeder unit [K]; Scalar</xs:documentation></xs:annotation></xs:element>
<xs:complexType name="shield_specs"><xs:sequence><xs:element name="nmat" type="xs:integer"><xs:annotation><xs:documentation>Number of materials; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="composition" type="vecflt_type"><xs:annotation><xs:documentation>Inboard or outboard shield radial build the percentage of each material respectively (Meaning of the material index 1: Eurofer, 2: Pb-15.7Li, 3: He, 4: Water, 5: Tungsten Carbide, 6: Boron, 7: Tungsten, 8: Stainless Steel 316) in %vol; Vector(nmat).</xs:documentation></xs:annotation></xs:element><xs:element name="r1" type="xs:float"><xs:annotation><xs:documentation>Inner radius (nearest to the plasma), in the global tokamak coordinate system of the inboard or outboard shield located at the equatorial plane [m]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="r2" type="xs:float"><xs:annotation><xs:documentation>Outer radius (farest to the plasma), in the global tokamak coordinate system of the inboard or outboard shield located at the equatorial plane [m]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="mass" type="xs:float"><xs:annotation><xs:documentation>Mass of inboard or outboard shield [Kg]; Scalar</xs:documentation></xs:annotation></xs:element></xs:sequence></xs:complexType>
<xs:complexType name="bb_specs"><xs:sequence><xs:element name="nbb" type="xs:float"><xs:annotation><xs:documentation>Number of inboard or outboard bb modules (in a poloidal cut), Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="r1" type="xs:float"><xs:annotation><xs:documentation>Inner radius (nearest to the plasma), in the global tokamak coordinate system of the inboard or outboard bb located at the equatorial plane [m]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="r2" type="xs:float"><xs:annotation><xs:documentation>Outer radius (farest to the plasma), in the global tokamak coordinate system of the inboard or outboard bb located at the equatorial plane [m]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="dimension" type="bb_dimension"><xs:annotation><xs:documentation>dimension of the various modules</xs:documentation><xs:appinfo>machine description</xs:appinfo></xs:annotation></xs:element></xs:sequence></xs:complexType>
<xs:complexType name="mode_neutr"><xs:sequence><xs:element name="r" type="vecflt_type"><xs:annotation><xs:documentation>Major radius position at wich power density is calculated [m]; Vector(nr)</xs:documentation></xs:annotation></xs:element><xs:element name="pd_rad" type="vecflt_type"><xs:annotation><xs:documentation>Power density distribution in radial direction [W/m^3]; Vector(nr)</xs:documentation></xs:annotation></xs:element><xs:element name="lipb_coef_pd" type="vecflt_type"><xs:annotation><xs:documentation>Pb-15.7Li power density distribution in radial direction: coefficients of bi-exponential law if this one is used [W/m^-3,W/m^-3,m^-1,m^-1]; Matrix</xs:documentation></xs:annotation></xs:element><xs:element name="steel_coef_pd" type="vecflt_type"><xs:annotation><xs:documentation>Eurofer power density distribution in radial direction: coefficients of bi-exponential law if this one is used</xs:documentation></xs:annotation></xs:element><xs:element name="pow_exchange" type="power_exchange"/></xs:sequence></xs:complexType>
<xs:complexType name="power_exchange"><xs:sequence><xs:element name="dep_pow" type="vecflt_type"><xs:annotation><xs:documentation>Power deposited in each bb module (the reference outboard module if only value is given) [W]; Vector(nmodules)</xs:documentation></xs:annotation></xs:element><xs:element name="dep_fw" type="xs:float"><xs:annotation><xs:documentation>Power deposited in the first wall (heat flux + neutrons) [W]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="dep_sg" type="xs:float"><xs:annotation><xs:documentation>Power deposited in the stiffening grid (neutrons) [W]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="dep_cp" type="xs:float"><xs:annotation><xs:documentation>Power deposited in the cooling plates (neutrons) [W]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="dep_lp" type="xs:float"><xs:annotation><xs:documentation>Power deposited in the Pb-15.7Li (neutrons) [W]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="dep_man" type="xs:float"><xs:annotation><xs:documentation>Power deposited in the manifolds (neutrons) [W]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="dep_pl" type="xs:float"><xs:annotation><xs:documentation>Power deposited in the protect layer (made of tungsten) (neutrons) [W]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="rec_fw" type="xs:float"><xs:annotation><xs:documentation>Power recovered from He in first wall channels [W]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="rec_sg" type="xs:float"><xs:annotation><xs:documentation>Power recovered from He in stiffening grid channels [W]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="rec_cp" type="xs:float"><xs:annotation><xs:documentation>Power recovered from He in cooling plates channels [W]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="pow_dens_fw" type="xs:float"><xs:annotation><xs:documentation>Peak energy depostion in first wall [W.m^-3]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="pow_dens_bz" type="xs:float"><xs:annotation><xs:documentation>Peak energy depostion in breeding zone [W.m^-3]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="pow_dens_bz10" type="xs:float"><xs:annotation><xs:documentation>Peak energy depostion in breeding zone (first ten centimers) [W.m^-3]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="pow_dens_bp" type="xs:float"><xs:annotation><xs:documentation>Peak energy depostion in back plate [W.m^-3]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="pow_dens_man" type="xs:float"><xs:annotation><xs:documentation>Peak energy depostion in manifold [W.m^-3]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="pow_dens_sh" type="xs:float"><xs:annotation><xs:documentation>Peak energy depostion in shield [W.m^-3]; Scalar</xs:documentation></xs:annotation></xs:element></xs:sequence></xs:complexType>
<xs:complexType name="mode_therm"><xs:sequence><xs:element name="he_fr" type="xs:float"><xs:annotation><xs:documentation>Coolant mass flow rate in "the" reference bb (inboard or outboard) module [Kg/s]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="perc_bp_he" type="xs:float"><xs:annotation><xs:documentation>% of Helium going through the bypass (set to 0 if not otherwise specified)</xs:documentation></xs:annotation></xs:element><xs:element name="he_out_t" type="xs:float"><xs:annotation><xs:documentation>Outlet temperature (from the bb module) [K]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="fw_he_out_t" type="xs:float"><xs:annotation><xs:documentation>First wall outlet temperature [K]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="sg_he_out_t" type="xs:float"><xs:annotation><xs:documentation>Stiffening grid outlet temperature [K]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="cp_he_out_t" type="xs:float"><xs:annotation><xs:documentation>Cooling plates outlet temperature [K]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="fw_st_max_t" type="xs:float"><xs:annotation><xs:documentation>First wall eurofer maximum temperature [K]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="sg_st_max_t" type="xs:float"><xs:annotation><xs:documentation>Stiffening grid eurofer maximum temperature [K]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="cp_st_max_t" type="xs:float"><xs:annotation><xs:documentation>Cooling plates eurofer maximum temperature [K]; Scalar</xs:documentation></xs:annotation></xs:element></xs:sequence></xs:complexType>
<xs:complexType name="mode_th_hyd"><xs:sequence><xs:element name="fw_dp_he" type="xs:float"><xs:annotation><xs:documentation>Pressure drops in the first wall [Pa]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="sg_dp_he" type="xs:float"><xs:annotation><xs:documentation>Pressure drops in the stiffening grid [Pa]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="cp_dp_he" type="xs:float"><xs:annotation><xs:documentation>Pressure drops in the cooling plates [Pa]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="man_dp_he" type="xs:float"><xs:annotation><xs:documentation>Pressure drops in the manifolds [Pa]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="tot_dp_he" type="xs:float"><xs:annotation><xs:documentation>Total pressure drops in bb module [Pa]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="bp_dp_he" type="xs:float"><xs:annotation><xs:documentation>Total pressure drops in the by pass (if any) [Pa]; ScalarScalar</xs:documentation></xs:annotation></xs:element><xs:element name="circ_dp_he" type="xs:float"><xs:annotation><xs:documentation>Pressure drops in one He circuit [Pa]; Scalar</xs:documentation></xs:annotation></xs:element></xs:sequence></xs:complexType>
<xs:complexType name="mode_mech"><xs:sequence><xs:element name="fw_min_ts_mg" type="xs:float"><xs:annotation><xs:documentation>Min margin to tensile stress limit in the first wall; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="fw_min_bd_mg" type="xs:float"><xs:annotation><xs:documentation>Min margin to banding stress limit in the first wall; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="sg_min_ts_mg" type="xs:float"><xs:annotation><xs:documentation>Min margin to tensile stress limit in the stiffening grid; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="sg_min_bd_mg" type="xs:float"><xs:annotation><xs:documentation>Min margin to bending stress limit in the stiffening grid; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="cp_min_ts_mg" type="xs:float"><xs:annotation><xs:documentation>Min margin to tensile stress limit in the cooling plate; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="cp_min_bd_mg" type="xs:float"><xs:annotation><xs:documentation>Min margin to bending stress limit in the cooling plate; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="min_ts_mg_ac" type="xs:float"><xs:annotation><xs:documentation>Min tensile margin in accidental conditions; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="min_bd_mg_ac" type="xs:float"><xs:annotation><xs:documentation>Min bending margin in accidental conditions; Scalar</xs:documentation></xs:annotation></xs:element></xs:sequence></xs:complexType>
<xs:complexType name="mode_lipb"><xs:sequence><xs:element name="lp_rec_day" type="xs:float"><xs:annotation><xs:documentation>nb of Pb-15.7Li recirculation per day [Pa]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="bb_lp_fr" type="vecflt_type"><xs:annotation><xs:documentation>Pb-15.7Li mass flow rate in "the" bb module (or in each bb module) [Kg/s]; Vector(nmodules)</xs:documentation></xs:annotation></xs:element><xs:element name="lp_inl_p" type="xs:float"><xs:annotation><xs:documentation>Pb-15.7Li inlet pressure [Pa]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="bu_dp_lp" type="xs:float"><xs:annotation><xs:documentation>Pb-15.7Li pressure drops in the breeder unit [Pa]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="man_dp_lp" type="xs:float"><xs:annotation><xs:documentation>Pb-15.7Li pressure drops in the bb manifolds [Pa]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="tot_dp_lp" type="xs:float"><xs:annotation><xs:documentation>Pb-15.7Li total pressure drops [Pa]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="bu_lp_ave_t" type="xs:float"><xs:annotation><xs:documentation>Pb-15.7Li average temperature in a breeder unit [K]; Scalar</xs:documentation></xs:annotation></xs:element><xs:element name="bu_lp_max_t" type="xs:float"><xs:annotation><xs:documentation>Pb-15.7Li max temperature in a breeder unit [K]; Scalar</xs:documentation></xs:annotation></xs:element></xs:sequence></xs:complexType>
