def check_NPS(self, value): if (xisBlank(value)): return vd.xNumber(value) nps_options = [ "0.125", "0.25", "0.375", "0.5", "0.75", "1", "1.25", "1.5", "2", "2.5", "3", "3.5", "4", "5", "6", "8", "10", "12", "14", "16", "18", "20", "22", "24", "26", "28", "30", "32", "34", "36" ] vd.xChoice(value, nps_options)
def check_roughness(self, value): if (xisBlank(value)): return vd.xNumber(value) vd.xGrtThan(value, 0) vd.xDim(value, ['length', 'length_mili', 'length_micro'])
def check_h(self, value): if (xisBlank(value)): return vd.xNumber(value) vd.xDim(value, ['specificEnergy'])
def check_Tdp(self, value): if (xisBlank(value)): return vd.xNumber(value) vd.xDim(value, ['temperature'])
def check_P(self, value): if (xisBlank(value)): return vd.xNumber(value) vd.xGrtThan(value, 0) vd.xDim(value, ['pressure'])
def check_Kc_manual(self, value): if (xisBlank(value)): return vd.xNumber(value) vd.xGrtThan(value, 0) vd.xLessThanEq(value, 1)
def check_radius(self, value): if (xisBlank(value)): return vd.xNumber(value) vd.xGrtThanEq(value, 0) vd.xDim(value, 'length')
def check_h_outlet(self, value): if (xisBlank(value)): return vd.xNumber(value) vd.xGrtThanEq(value, 0) vd.xDim(value, ['specificEnergy'])
def check_backgroundNoise(self, value): if (xisBlank(value)): return vd.xNumber(value) vd.xGrtThanEq(value, 0)
def check_isentropic_efficiency(self, value): if (xisBlank(value)): return vd.xNumber(value) vd.xGrtThanEq(value, 0) vd.xLessThanEq(value, 100)
def check_distance(self, value): if (xisBlank(value)): return vd.xNumber(value) vd.xGrtThan(value, 0) vd.xDim(value,'length')
def check_rho(self, value): if (xisBlank(value)): return vd.xNumber(value) vd.xGrtThanEq(value, 0) vd.xDim(value, ['density'])
def check_mu(self, value): if (xisBlank(value)): return vd.xNumber(value) vd.xGrtThan(value, 0) vd.xDim(value, ['dynViscosity'])
def check_angle(self, value): if (xisBlank(value)): return vd.xNumber(value) vd.xGrtThan(value, 0) vd.xDim(value, ['angle'])
def check_s_inlet(self, value): if (xisBlank(value)): return vd.xNumber(value) vd.xGrtThanEq(value, 0) vd.xDim(value, ['specificHeat'])
def check_wall_thickness(self, value): if (xisBlank(value)): return vd.xNumber(value) vd.xGrtThan(value, 0) vd.xDim(value, ['length', 'length_mili'])
def check_mass_flow(self, value): if (xisBlank(value)): return vd.xNumber(value) vd.xGrtThanEq(value, 0) vd.xDim(value, ['massflow'])
def check_Dia_inner(self, value): if (xisBlank(value)): return vd.xNumber(value) vd.xGrtThan(value, 0) vd.xDim(value, ['length', 'length_mili'])
def check_power_output(self, value): if (xisBlank(value)): return vd.xNumber(value) vd.xGrtThanEq(value, 0) vd.xDim(value, ['power'])
def check_area(self, value): if (xisBlank(value)): return vd.xNumber(value) vd.xGrtThanEq(value, 0) vd.xDim(value, 'area')
def check_fuel_flow_rate(self, value): if (xisBlank(value)): return vd.xNumber(value) vd.xGrtThanEq(value, 0) vd.xDim(value, ['flow'])
def check_lux(self, value): if (xisBlank(value)): return vd.xNumber(value) vd.xGrtThanEq(value, 0)
def check_height(self, value): if (xisBlank(value)): return vd.xNumber(value) vd.xDim(value, 'length')