diff --git a/ProcessLib/TH2M/PhaseTransitionModels/PhaseTransitionEvaporation.cpp b/ProcessLib/TH2M/PhaseTransitionModels/PhaseTransitionEvaporation.cpp
index c06701662531745fc0de2053692207b1826d7b1f..9354dd7a9f85cad4786c4591b3449b345b102f04 100644
--- a/ProcessLib/TH2M/PhaseTransitionModels/PhaseTransitionEvaporation.cpp
+++ b/ProcessLib/TH2M/PhaseTransitionModels/PhaseTransitionEvaporation.cpp
@@ -170,7 +170,7 @@ PhaseTransitionEvaporation::updateConstitutiveVariables(
// copy previous state before modification.
PhaseTransitionModelVariables cv = phase_transition_model_variables;
cv.rhoLR = liquid_phase.property(MaterialPropertyLib::PropertyType::density)
- .template value<double>(variables, pos, t, dt);
+ .template value<double>(variables, pos, t, dt);
cv.rhoWLR = cv.rhoLR;
// Kelvin-Laplace correction for menisci
@@ -192,7 +192,7 @@ PhaseTransitionEvaporation::updateConstitutiveVariables(
// gas phase mixture density
cv.rhoGR = gas_phase.property(MaterialPropertyLib::PropertyType::density)
- .template value<double>(variables, pos, t, dt);
+ .template value<double>(variables, pos, t, dt);
auto const drhoGR_dpGR =
gas_phase.property(MaterialPropertyLib::PropertyType::density)
@@ -261,7 +261,7 @@ PhaseTransitionEvaporation::updateConstitutiveVariables(
// gas phase viscosity
cv.muGR = gas_phase.property(MaterialPropertyLib::PropertyType::viscosity)
- .template value<double>(variables, pos, t, dt);
+ .template value<double>(variables, pos, t, dt);
// gas phase thermal conductivity
cv.lambdaGR =
@@ -270,8 +270,9 @@ PhaseTransitionEvaporation::updateConstitutiveVariables(
.template value<double>(variables, pos, t, dt);
// liquid phase viscosity
- cv.muLR = liquid_phase.property(MaterialPropertyLib::PropertyType::viscosity)
- .template value<double>(variables, pos, t, dt);
+ cv.muLR =
+ liquid_phase.property(MaterialPropertyLib::PropertyType::viscosity)
+ .template value<double>(variables, pos, t, dt);
// liquid phase thermal conductivity
cv.lambdaLR =