Some factors that are important for determining the overhaul intervals include the following considerations:
- Performance of preventive maintenance
- Use of recommended lubricants
- Use of recommended fuels
- Proper installation
- Operating conditions
- Operation within acceptable limits
- Engine load
- Engine speed
Generally, engines that are operated at a reduced load and/or speed achieve more service life before an overhaul. However, this observation is for engines that are properly operated and maintained.
Other factors must also be considered for determining a major overhaul:
- The total amount of fuel consumption
- The service hours of the engine
- An increase of oil consumption
- An increase of crankcase blowby
- The wear metal analysis of the lube oil
- An increase in the levels of noise and vibration
An increase of wear metals in the lube oil indicates that the bearings and the surfaces that wear should be serviced. An increase in the levels of noise and vibration indicates that rotating parts require service.
Note: Oil analysis that indicates a decrease of wear metals in the lube oil is possible. The cylinder liners may be worn so that polishing of the bore occurs. Also, the increased use of lube oil will dilute the wear metals.
Monitor the engine as the engine accumulates service hours. Consult your Cat dealer about scheduling a major overhaul.
Note: The driven equipment may also require service when the engine is overhauled. Refer to the literature that is provided by the OEM of the driven equipment.
Using Fuel Consumption For Calculating the Overhaul Intervals
Experience has shown that maintenance intervals are most accurately based on fuel consumption. Fuel consumption corresponds more accurately to the engine load. The tables below lists average ranges of fuel consumption and service hours for a load factor of approximately 60 percent.
| 3512E 1800 RPM | |
| Interval | Fuel Consumption and Service Hours |
| Major Overhaul | |
| 10000 | |
Use the actual records of fuel consumption, when possible. If the actual records are not available, use the following procedure to estimate the fuel consumption.
- Estimate the average percent of the load for the operation of the engine.
- Refer to the fuel consumption data in the Technical Marketing Information (TMI) for your engine. This data will determine the fuel consumption for the percent of the load that was estimated in Step 1. Use this figure as variable "F" for the equation in Table 2. For more information about the Technical Marketing Information (TMI) for your engine, consult your Cat dealer.
| Equation For Calculating Overhaul Intervals |
| F/R = H |
| “F” is the estimated total amount of fuel consumption of the engine. |
| “R” is the rate of fuel consumption in liters per hour or gallons per hour. |
| “H” is the number of estimated hours until the overhaul interval. |
Oil Consumption as an Overhaul Indicator
Oil consumption, fuel consumption, and maintenance information can be used to estimate the total operating cost for your Cat engine. Oil consumption can also be used to estimate the required capacity of a makeup oil tank that is suitable for the maintenance intervals.
Oil consumption is in proportion to the percentage of the rated engine load. As the percentage of the engine load is increased, the amount of oil that is consumed per hour also increases.
The oil consumption rate (brake-specific oil consumption) is measured in grams per kW/h (lb per bhp). The brake-specific oil consumption (BSOC) depends on the engine load. Consult your Cat dealer for assistance in determining the typical oil consumption rate for your engine.
When an engine oil consumption has risen to three times the original oil consumption rate due to normal wear, an engine overhaul should be scheduled. There may be a corresponding increase in blowby and a slight increase in fuel consumption.
Severe operation is the use of an engine that exceeds current published standards for that engine. Caterpillar maintains standards for the following engine parameters:
- Horsepower
- Range of rpm
- Fuel consumption
- Fuel quality
- Altitude
- Maintenance intervals
- Selection of oil
- Selection of coolant
- Environmental qualities
- Installation
- Average starts
Refer to the standards for your engine or consult your Cat dealer to determine if your engine is operating within the defined parameters.
Severe operation can accelerate component wear. Engines that are operating under severe conditions may need more frequent maintenance intervals for the following reasons:
- Maximum reliability
Because of individual applications, identifying all the factors which can contribute to severe operation is not possible. Consult your Cat dealer about the maintenance that is needed for your specific engine.
The following factors can contribute to severe operation: environment, improper operating procedures, and improper maintenance practices.
Extended operation in environments that are cold or hot can damage components. Valve components can be damaged by carbon buildup if the engine is frequently started and stopped in cold temperatures. Hot inlet air reduces the performance capabilities of the engine.
Note: See this Operation and Maintenance Manual, "Cold-Weather Operation" topic (Operation Section), or see Supplement, SEBU5898, "Cold-Weather Recommendations".
Unless the equipment is cleaned regularly, extended operation in a dirty environment and in a dusty environment can damage components. Built up mud, dirt, and dust can encase components. This condition can make maintenance difficult. The buildup can contain corrosive chemicals. Corrosive chemicals and salt can damage some components.
Fuel system cleanliness for a high-pressure common rail system is critical. Cap all fittings to protect from dirt and debris.
- Extended operation at low idle
- Minimum cool down period after high load factor operation
- Operating the engine beyond the guidelines for the engine rating
- Operating the engine at loads that are greater than the rated load
- Operating the engine at speeds that are greater than the rated speed
- Use of the engine for an application that is not approved
Reducing engine idle time with a manual or automated strategy will increase the number of starts over the lifetime of an engine. Using a non-Caterpillar approved system to reduce idle time can result in higher engine component wear that is associated with severe operation. Some components that would be included are camshafts and bearings. Engines installed in pressure pumping applications typically average less than one start for every 4 hours of operation. Exceeding this average over the lifetime of the engine is considered severe operation.
Cat engines equipped with Cat Engine Idle Reduction Systems are validated to reduce fuel costs associated with engine idle and to maintain Overhaul service intervals outlined in this Operation and Maintenance Manual for pressure pumping applications.
Improper Maintenance Practices
- Extension of maintenance intervals
- Not using recommended fuel, lubricants, and coolant