diff --git a/src/libslic3r/GCode/SmallAreaInfillFlowCompensator.cpp b/src/libslic3r/GCode/SmallAreaInfillFlowCompensator.cpp
index e4e9694775..20377cfe8d 100644
--- a/src/libslic3r/GCode/SmallAreaInfillFlowCompensator.cpp
+++ b/src/libslic3r/GCode/SmallAreaInfillFlowCompensator.cpp
@@ -46,7 +46,7 @@ SmallAreaInfillFlowCompensator::SmallAreaInfillFlowCompensator(const Slic3r::GCo
                     }
                 } catch (...) {
                     std::stringstream ss;
-                    ss << "Error parsing data point in small area infill compensation model:" << line << std::endl;
+                    ss << "Small Area Flow Compensation: Error parsing data point in small area infill compensation model:" << line << std::endl;
 
                     throw Slic3r::InvalidArgument(ss.str());
                 }
@@ -56,32 +56,33 @@ SmallAreaInfillFlowCompensator::SmallAreaInfillFlowCompensator(const Slic3r::GCo
         for (size_t i = 0; i < eLengths.size(); i++) {
             if (i == 0) {
                 if (!nearly_equal(eLengths[i], 0.0)) {
-                    throw Slic3r::InvalidArgument("First extrusion length for small area infill compensation model must be 0");
+                    throw Slic3r::InvalidArgument("Small Area Flow Compensation: First extrusion length for small area infill compensation model must be 0");
                 }
             } else {
                 if (nearly_equal(eLengths[i], 0.0)) {
-                    throw Slic3r::InvalidArgument("Only the first extrusion length for small area infill compensation model can be 0");
+                    throw Slic3r::InvalidArgument("Small Area Flow Compensation: Only the first extrusion length for small area infill compensation model can be 0");
                 }
                 if (eLengths[i] <= eLengths[i - 1]) {
-                    throw Slic3r::InvalidArgument("Extrusion lengths for subsequent points must be increasing");
+                    throw Slic3r::InvalidArgument("Small Area Flow Compensation: Extrusion lengths for subsequent points must be increasing");
                 }
             }
         }
 
         for (size_t i = 1; i < flowComps.size(); ++i) {
             if (flowComps[i] <= flowComps[i - 1]) {
-                throw Slic3r::InvalidArgument("Flow compensation factors must strictly increase with extrusion length");
+                throw Slic3r::InvalidArgument("Small Area Flow Compensation: Flow compensation factors must strictly increase with extrusion length");
             }
         }
 
         if (!flowComps.empty() && !nearly_equal(flowComps.back(), 1.0)) {
-            throw Slic3r::InvalidArgument("Final compensation factor for small area infill flow compensation model must be 1.0");
+            throw Slic3r::InvalidArgument("Small Area Flow Compensation: Final compensation factor for small area infill flow compensation model must be 1.0");
         }
 
         flowModel = std::make_unique<PchipInterpolatorHelper>(eLengths, flowComps);
 
     } catch (std::exception& e) {
         BOOST_LOG_TRIVIAL(error) << "Error parsing small area infill compensation model: " << e.what();
+        throw;
     }
 }