Making contact with a running engine can cause burns from hot parts and can cause injury from rotating parts. When working on an engine that is running, avoid contact with hot parts and rotating parts. |
This engine has a pressurized cooling system. A pressurized cooling system has two advantages. The cooling system can be operated in a safe manner at a temperature higher than the normal boiling point (steam) of water.
This type of system prevents cavitation in the water pump. Cavitation is the forming of low-pressure bubbles in liquids that are caused by mechanical forces. It is more difficult to create an air pocket or a steam pocket with this type of cooling system.
Illustration 1 | g00921815 |
Boiling point of water |
Remember that temperature and pressure work together. When a diagnosis is made of a cooling system problem, temperature and pressure must be checked. Cooling system pressure will have an effect on the cooling system temperature. For an example, refer to Illustration 1. This will show the effect of pressure on the boiling point (steam) of water. This will also show the effect of height above sea level.
The coolant level must be to the correct level in order to check the coolant system. The engine must be cold and the engine must not be running.
Note: At operating temperature, the engine coolant is hot and the coolant is under pressure. Use caution when you work on a hot engine.
After the engine is cool, loosen the pressure cap in order to relieve the pressure out of the cooling system. Then remove the pressure cap.
The level of the coolant should not be more than 13 mm (0.5 inch) from the bottom of the filler pipe. If the cooling system is equipped with a sight glass, the coolant should be to the proper level in the sight glass.
Test Tools For Cooling System
Tools Needed     | ||
Part Number     | Part Name     | Quantity     |
4C-6500     | Digital Thermometer     | 1     |
9S-8140     | Pressurizing Pump     | 1     |
9U-7400     | Multitach Tool Group     | 1     |
1U-7297 or 1U-7298     |
Coolant/Battery Tester     | 1     |
Making contact with a running engine can cause burns from hot parts and can cause injury from rotating parts. When working on an engine that is running, avoid contact with hot parts and rotating parts. |
Illustration 2 | g00876179 |
4C-6500 Digital Thermometer |
The 4C-6500 Digital Thermometer is used in the diagnosis of overheating conditions and in the diagnosis of overcooling conditions. This group can be used to check temperatures in several different parts of the cooling system. Refer to Operating Manual, NEHS0554, " 4C-6500 Digital Thermometer Group" for the testing procedure.
Illustration 3 | g00286276 |
9U-7400 Multitach |
The 9U-7400 Multitach Tool Group is used to check the fan speed. Refer to Operating Manual, NEHS0605, " 9U-7400 Multitach Tool Group " for the testing procedure.
Illustration 4 | g00286369 |
9S-8140 Pressurizing Pump |
The 9S-8140 Pressurizing Pump is used to test the pressure caps. This pressurizing pump is also used to pressure test the cooling system for leaks.
Illustration 5 | g00439083 |
1U-7297 Coolant/Battery Tester or 1U-7298 Coolant/Battery Tester |
Check the coolant frequently in cold weather for the proper glycol concentration. Use either the 1U-7297 Coolant/Battery Tester or the 1U-7298 Coolant/Battery Tester in order to ensure adequate freeze protection. The testers are identical except for the temperature scale. The testers give immediate, accurate readings. The testers can be used for coolants that contain ethylene or propylene glycol.
Making the Correct Antifreeze Mixtures
Adding pure antifreeze as a makeup solution for the cooling system top-off is an unacceptable practice. Adding pure antifreeze increases the concentration of antifreeze in the cooling system. This increases the concentration of the dissolved solids and the undissolved chemical inhibitors in the cooling system. Add the coolant/water mixture to the same freeze protection as your cooling system. The following chart assists in determining the concentration of antifreeze to use. Refer to Operation and Maintenance Manual, "General Coolant Information".
Antifreeze Concentrations     | |
Temperature     | Concentration     |
Protection to −15 °C (5 °F)     |
30% antifreeze and 70% water     |
Protection to −23 °C (−10 °F)     |
40% antifreeze and 60% water     |
Protection to −37 °C (−34 °F)     |
50% antifreeze and 50% water     |
Protection to −51 °C (−60 °F)     |
60% antifreeze and 40% water     |
Checking the Pressure Cap
Tools Needed     | ||
Part Number     | Part Name     | Quantity     |
9S-8140     | Pressurizing Pump     | 1     |
To check for the amount of pressure that opens the pressure cap, use the following procedure:
After the engine cools, carefully loosen the pressure cap. Slowly release the pressure from the cooling system. Then, remove the pressure cap from the expansion tank.
- Carefully inspect the pressure cap. Look for any damage to the seals and to the sealing surface. Inspect the following components for any foreign substances:
- Pressure cap
- Seal
- Surface for seal
Note: Remove any deposits that are found on these items.
- Pressure cap
- Reinstall the pressure cap onto the expansion tank.
- Remove the 2P-2329 Adapter As (1) from the swivel end of the 3R-3810 Hose As (2) .
Illustration 6 | g02521416 |
- Remove 1/8 inch NPT plug (3) from the coolant fill line.
Illustration 7 | g02521417 |
- Connect the swivel (4) on the 3R-3810 Hose As (2) to the port in the coolant fill line.
Illustration 8 | g02521418 |
- Slowly increase the pressure with the 9S-8140 pressurizing pump. Make a note of the pressure when the pressure cap opens.
- Compare the gauge's reading with the opening pressure that is listed on the pressure cap.
- If the pressure cap is damaged, replace the pressure cap.
- Ensure that the pressure in the cooling system has been released.
- Remove the 9S-8140 pump assembly from the coolant fill line.
- Reinstall the 1/8 inch NPT plug into the port in the coolant fill line.
- Check the expansion tank for the correct level of coolant. Fill the expansion tank as needed.
Testing The Heat Exchanger And Cooling System For Leaks
Tools Needed     | ||
Part Number     | Part Name     | Quantity     |
9S-8140     | Pressurizing Pump     | 1     |
127-6880     | Cap-Pressure (14 psi)     | 1     |
Use the following procedure in order to check the cooling system for leaks:
- After the engine is cool, loosen the pressure cap slowly and allow pressure out of the cooling system. Then remove the pressure cap from the expansion tank.
- Ensure that the coolant level in the expansion tank is full.
- Install the 127-8660 pressure cap onto the expansion tank.
- Remove the 2P-2329 Adapter As (1) from the swivel end of the 3R-3810 Hose As (2) .
Illustration 9 | g02521416 |
- Remove 1/8 inch NPT plug (3) from the coolant fill line.
Illustration 10 | g02521417 |
- Connect the swivel (4) on the 3R-3810 Hose As to the port in the coolant fill line.
Illustration 11 | g02521418 |
- Increase the pressure on the gauge on the pump to 69 kPa (10 psi).
- Check expansion tank for leakage.
- Check all connection points for leakage, and check the hoses for leakage.
The cooling system does not have leakage only if the following conditions exist:
- You do NOT observe any outside leakage.
- The pressure reading remains steady after 5 minutes.
Note: Check the engine oil for evidence of coolant leakage.
The inside of the engine cooling system has leakage only if the following conditions exist:
- The reading on the gauge goes down.
- You do NOT observe any outside leakage.
- Evidence of coolant on the engine oil gauge.
Note: Make any repairs, as required.
- You do NOT observe any outside leakage.
- Carefully remove the 127-8660 pressure cap.
- Reinstall the original pressure cap.
- Ensure that the pressure in the cooling system has been released.
- Remove the 9S-8140 pump assembly from the coolant fill line.
- Reinstall the 1/8 inch NPT plug into the port in the coolant fill line.
- Check the expansion tank for the correct level of coolant. Fill the expansion tank as needed.
Test For The Water Temperature Gauge
Tools Needed     | ||
Part Number     | Part Name     | Quantity     |
4C-6500 or 2F-7112     |
Digital Thermometer or Thermometer     |
1     |
Making contact with a running engine can cause burns from hot parts and can cause injury from rotating parts. When working on an engine that is running, avoid contact with hot parts and rotating parts. |
Check the accuracy of the coolant temperature indicator or coolant temperature sensor if you find either of the following conditions:
- The engine runs at a temperature that is too hot, but a normal temperature is indicated. A loss of coolant is found.
- The engine runs at a normal temperature, but a hot temperature is indicated. No loss of coolant is found.
Coolant temperature can also be read on the display screens of the Caterpillar Electronic Technician (ET).
Illustration 12 | g01040299 |
Typical example (1) Port (2) Coolant temperature sensor |
Remove the plug from port (1). Install one of the following thermometers in the open port:
A temperature indicator of known accuracy can also be used to make this check.
Start the engine. Run the engine until the temperature reaches the desired range according to the test thermometer. The reading on the water temperature indicator should agree with the test thermometer within the tolerance range of the coolant temperature indicator.