diff --git a/examples/00-fluent/exhaust_system.py b/examples/00-fluent/exhaust_system.py
index ea2380b53457..7163f8ebfd6a 100644
--- a/examples/00-fluent/exhaust_system.py
+++ b/examples/00-fluent/exhaust_system.py
@@ -43,11 +43,6 @@
 import ansys.fluent.core as pyfluent
 from ansys.fluent.core import examples
 
-# from ansys.fluent.post import set_config
-# from ansys.fluent.post.pyvista import Graphics
-
-# set_config(blocking=True, set_view_on_display="isometric")
-
 import_filename = examples.download_file(
     "exhaust_system.fmd", "pyfluent/exhaust_system"
 )
@@ -594,7 +589,6 @@
     "()",
     "quit",
 )
-# session.solver.tui.display.objects.display("pathlines-1")
 
 ###############################################################################
 # Create an iso-surface through the manifold geometry.
@@ -630,7 +624,6 @@
     "quit",
     "quit",
 )
-# session.solver.tui.display.objects.display("contour-velocity")
 
 session.solver.tui.display.objects.create(
     "mesh", "mesh-1", "surfaces-list", "*", "()", "quit"
@@ -654,30 +647,6 @@
     "quit",
     "quit",
 )
-# session.solver.tui.display.objects.display("scene-1")
-
-###############################################################################
-# Mesh display using PyVista
-
-# graphics_session = Graphics(session)
-# mesh_1 = graphics_session.Meshes["mesh-1"]
-# mesh_1.show_edges = True
-# mesh_1.surfaces_list = [
-#    "inlet-1",
-#    "inlet-2",
-#    "inlet-3",
-#    "outlet-1",
-#    "flow-pipe",
-#    "main.1",
-#    "object1.1",
-#    "object2.1",
-#    "outpipe3.1",
-# ]
-
-# mesh_1.display()
-###############################################################################
-# Save case, data.
-# session.solver.tui.file.write_case_data("exhaust_system.cas.h5")
 
 #########################################################################
 # Close Fluent
diff --git a/examples/00-fluent/mixing_elbow.py b/examples/00-fluent/mixing_elbow.py
index d84fb705989e..533afdfaa31a 100644
--- a/examples/00-fluent/mixing_elbow.py
+++ b/examples/00-fluent/mixing_elbow.py
@@ -369,7 +369,6 @@
     "banded",
     "quit",
 )
-# session.solver.tui.display.objects.display("contour-vel")
 
 ###############################################################################
 # Create and display a definition for temperature contours on the symmetry
@@ -393,7 +392,6 @@
     "smooth",
     "quit",
 )
-# session.solver.tui.display.objects.display("contour-temp")
 
 ###############################################################################
 # Create and display velocity vectors on the symmetry-xyplane plane:
@@ -417,7 +415,6 @@
     "2",
     "quit",
 )
-# session.solver.tui.display.objects.display("vector")
 
 ###############################################################################
 # Create an iso-surface representing the intersection of the plane z=0 and the
diff --git a/examples/00-fluent/mixing_elbow_settings_api.py b/examples/00-fluent/mixing_elbow_settings_api.py
index 58b966182dee..c0c8ff268bc2 100644
--- a/examples/00-fluent/mixing_elbow_settings_api.py
+++ b/examples/00-fluent/mixing_elbow_settings_api.py
@@ -173,7 +173,6 @@
     "velocity_vector_symmetry"
 ].scale.scale_f = 4
 session.solver.root.results.graphics.vector["velocity_vector_symmetry"].style = "arrow"
-# session.solver.root.results.graphics.vector["velocity_vector_symmetry"].display()
 
 ###############################################################################
 # Compute mass flow rate
@@ -190,10 +189,6 @@
 session.solver.root.solution.report_definitions.flux["mass_flow_rate"].print_state()
 session.solver.root.solution.report_definitions.compute(report_defs=["mass_flow_rate"])
 
-###############################################################################
-# Write final case and data.
-# session.solver.tui.file.write_case_data('mixing_elbow2_set.cas.h5')
-
 #########################################################################
 # Close Fluent