2000StreetRod
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- Year, Model & Trim Level
- 00 Sport FI, 03 Ltd V8
The purpose of this thread is to explain the operation and testing of the EGR system utilized in the generation II Explorers. In the past the EGR system has always been a mystery to me. Since I never was aware of any EGR malfunctions with any of my vehicles, I never bothered to learn how the system was designed to operate. I purchased my 2000 Sport in May 2009 and since then have noticed many EGR system problem related posts on this forum. I assume that with over 150,000 miles on the odometer, it will not be long before I will also experience EGR system problems. I decided to research the system now in preparation for an inevitable malfunction.
The following is from the Ford 2000 MY OBD System Operation Summary:
"Note: EGR normally has large amounts of water vapor that are the result of the engine combustion process. During cold ambient temperatures, under some circumstances, water vapor can freeze in the DPFE sensor, hoses, as well as other components in the EGR system. In order to prevent MIL illumination for temporary freezing, the following logic is used:
If an EGR system malfunction is detected above 32 oF, the EGR system and the EGR monitor is disabled for the current driving cycle. A DTC is stored and the MIL is illuminated if the malfunction has been detected on two consecutive driving cycles.
If an EGR system malfunction is detected below 32 oF, only the EGR system is disabled for the current driving cycle. A DTC is not stored and the I/M readiness status for the EGR monitor will not change. The EGR monitor, however, will continue to operate. If the EGR monitor determined that the malfunction is no longer present (i.e., the ice melts), the EGR system will be enabled and normal system operation will be restored."
The EGR system incorporates three different flow mediums: (1) exhaust gas, (2) vacuum pressure, and (3) electrical current. A significant deviation from norm in any of the flows results in a system malfunction. The OBD attempts to determine proper operation of the EGR system. The PCM is an automotive application specific computer that controls the operation of the engine and transmission. The PCM also executes the software associated with OBD. When the PCM detects a malfunction an associated DTC is stored in the PCM. If the same malfunction is detected on two successive drive cycles the CEL or sometimes called the MIL is illuminated. The PCM has a limited monitoring capability of the EGR system components and consequently can make erroneous determinations of the cause of a detected problem.
The structure of this thread will follow my perceived order of failure probability from highest to lowest. Consequently, following the testing order of the thread should statistically result in the quickest isolation of the failed component. Doing so should also reduce the instances of unnecessary replacement of functional components.
It is my opinion that due to high temperatures and particle content the exhaust gas flow is the most prone to failure. In addition, some of the components involved in the exhaust gas flow rely on mechanical movement that is subject to physical fatigue.
The next least reliable flow medium is the vacuum pressure. While the temperature and particle content occurring in the vacuum is much less than in the exhaust gas, so is the reliability of the flow duct. Vacuum hoses become brittle over time from engine heat and can eventually crack and leak due to continuous vibration. Also, some of the components involved in the vacuum pressure flow rely on mechanical movement.
The most reliable flow medium is the electrical current. The electrical components are designed to operate in temperature extremes that exceed those encountered in the engine compartment. The components are designed to operate properly when encountering shock and vibration extremes that are unlikely to occur. The most likely cause of malfunction is corrosion or physical damage to electrical connectors or shorting or breaking of wires.
You may notice that a specific DTC may be associated with multiple flow paths. An EGR system component such as the EGR valve involves more than one flow (i.e. exhaust and vacuum) directly and electrical current indirectly since it is controlled by the EGR valve regulator which is controlled by the PCM. There is inadequate instrumentation in the EGR system for the PCM to isolate a failure to a single component. That is why it is important to follow an organized test process to avoid unnecessary replacements.
Acronyms
CEL: check engine light
DTC: diagnostic trouble code
EGR: exhaust gas recirculation
MIL: malfunction indicator light
OBD: on-board diagnostics
PCM: powertrain control module
Related corrections and comments subsequently posted (encouraged) by members will be incorporated into the basic posts as deemed appropriate.
The following is from the Ford 2000 MY OBD System Operation Summary:
"Note: EGR normally has large amounts of water vapor that are the result of the engine combustion process. During cold ambient temperatures, under some circumstances, water vapor can freeze in the DPFE sensor, hoses, as well as other components in the EGR system. In order to prevent MIL illumination for temporary freezing, the following logic is used:
If an EGR system malfunction is detected above 32 oF, the EGR system and the EGR monitor is disabled for the current driving cycle. A DTC is stored and the MIL is illuminated if the malfunction has been detected on two consecutive driving cycles.
If an EGR system malfunction is detected below 32 oF, only the EGR system is disabled for the current driving cycle. A DTC is not stored and the I/M readiness status for the EGR monitor will not change. The EGR monitor, however, will continue to operate. If the EGR monitor determined that the malfunction is no longer present (i.e., the ice melts), the EGR system will be enabled and normal system operation will be restored."
The EGR system incorporates three different flow mediums: (1) exhaust gas, (2) vacuum pressure, and (3) electrical current. A significant deviation from norm in any of the flows results in a system malfunction. The OBD attempts to determine proper operation of the EGR system. The PCM is an automotive application specific computer that controls the operation of the engine and transmission. The PCM also executes the software associated with OBD. When the PCM detects a malfunction an associated DTC is stored in the PCM. If the same malfunction is detected on two successive drive cycles the CEL or sometimes called the MIL is illuminated. The PCM has a limited monitoring capability of the EGR system components and consequently can make erroneous determinations of the cause of a detected problem.
The structure of this thread will follow my perceived order of failure probability from highest to lowest. Consequently, following the testing order of the thread should statistically result in the quickest isolation of the failed component. Doing so should also reduce the instances of unnecessary replacement of functional components.
It is my opinion that due to high temperatures and particle content the exhaust gas flow is the most prone to failure. In addition, some of the components involved in the exhaust gas flow rely on mechanical movement that is subject to physical fatigue.
The next least reliable flow medium is the vacuum pressure. While the temperature and particle content occurring in the vacuum is much less than in the exhaust gas, so is the reliability of the flow duct. Vacuum hoses become brittle over time from engine heat and can eventually crack and leak due to continuous vibration. Also, some of the components involved in the vacuum pressure flow rely on mechanical movement.
The most reliable flow medium is the electrical current. The electrical components are designed to operate in temperature extremes that exceed those encountered in the engine compartment. The components are designed to operate properly when encountering shock and vibration extremes that are unlikely to occur. The most likely cause of malfunction is corrosion or physical damage to electrical connectors or shorting or breaking of wires.
You may notice that a specific DTC may be associated with multiple flow paths. An EGR system component such as the EGR valve involves more than one flow (i.e. exhaust and vacuum) directly and electrical current indirectly since it is controlled by the EGR valve regulator which is controlled by the PCM. There is inadequate instrumentation in the EGR system for the PCM to isolate a failure to a single component. That is why it is important to follow an organized test process to avoid unnecessary replacements.
Acronyms
CEL: check engine light
DTC: diagnostic trouble code
EGR: exhaust gas recirculation
MIL: malfunction indicator light
OBD: on-board diagnostics
PCM: powertrain control module
Related corrections and comments subsequently posted (encouraged) by members will be incorporated into the basic posts as deemed appropriate.