Source code for armi.materials.leadBismuth

# Copyright 2019 TerraPower, LLC
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
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#     http://www.apache.org/licenses/LICENSE-2.0
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"""
Lead-Bismuth eutectic.

This is a great coolant for superfast neutron reactors. It's heavy though.
"""

import math

from armi.materials import material
from armi.utils.units import getTk


[docs]class LeadBismuth(material.Fluid): """Lead bismuth eutectic.""" propertyValidTemperature = { "density": ((400, 1300), "K"), "dynamic visc": ((400, 1100), "K"), "heat capacity": ((400, 1100), "K"), "thermal conductivity": ((400, 1100), "K"), "volumetric expansion": ((400, 1300), "K"), }
[docs] def setDefaultMassFracs(self): r"""Mass fractions.""" self.setMassFrac("PB", 0.445) self.setMassFrac("BI209", 0.555)
[docs] def pseudoDensity(self, Tk=None, Tc=None): r"""Density in g/cc from V. sobolev/ J Nucl Mat 362 (2007) 235-247.""" Tk = getTk(Tc, Tk) self.checkPropertyTempRange("density", Tk) return 11.096 - 0.0013236 * Tk # pre-converted from kg/m^3 to g/cc
[docs] def dynamicVisc(self, Tk=None, Tc=None): r"""Dynamic viscosity in Pa-s from Sobolev. Accessed online at: http://www.oecd-nea.org/science/reports/2007/nea6195-handbook.html on 11/9/12 """ Tk = getTk(Tc, Tk) self.checkPropertyTempRange("dynamic visc", Tk) return 4.94e-4 * math.exp(754.1 / Tk)
[docs] def heatCapacity(self, Tk=None, Tc=None): r"""Heat ccapacity in J/kg/K from Sobolev. Expected accuracy 5%.""" Tk = getTk(Tc, Tk) self.checkPropertyTempRange("heat capacity", Tk) return 159 - 2.72e-2 * Tk + 7.12e-6 * Tk**2
[docs] def thermalConductivity(self, Tk=None, Tc=None): r"""Thermal conductivity in W/m/K from Sobolev. Accessed online at: http://www.oecd-nea.org/science/reports/2007/nea6195-handbook.html on 11/9/12 """ Tk = getTk(Tc, Tk) self.checkPropertyTempRange("thermal conductivity", Tk) return 2.45 * Tk / (86.334 + 0.0511 * Tk)
[docs] def volumetricExpansion(self, Tk=None, Tc=None): r"""Volumetric expansion inferred from density. NOT BASED ON MEASUREMENT. Done by V. sobolev/ J Nucl Mat 362 (2007) 235-247 """ Tk = getTk(Tc, Tk) self.checkPropertyTempRange("volumetric expansion", Tk) return 1.0 / (8383.2 - Tk)