SirRobyn0
Full Access Member
- Joined
- Dec 6, 2019
- Posts
- 6,755
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- Location
- In the woods in Western Washington
- First Name
- Rob
- Truck Year
- 1984
- Truck Model
- C20
- Engine Size
- 305
Ok so lets discuss what is the same about the EFE & the traditional heat riser. They are both located in the passenger side between the exhaust manifold and the down pipe. When the engine is cold the valve shuts which diverts the exhaust though the intake manifold cross over into the drivers side manifold. The purpose is to get fuel to vaporize better and faster. This improves cold engine emissions and drivability. This has nothing to do with the EGR valve, other than the EGR happens to draw exhaust from the same chamber.
The traditional heat riser simply has a thermostatic spring on the outside of the valve. When the engine starts cold the valve is shut, as the exhaust manifold gets hot the spring relaxes and the valve open.
In the EFE system, is essentially a traditional heat riser, but instead of having a thermostatic spring it's vacuum operated. So starting at the heat riser there is a piece of metal linkage to the vacuum diaphragm which is mounted around maybe a foot from the heat riser, it has a bracket to the passenger side head to keep it in place. This was done so the diaphragm wouldn't be damaged by the heat from the exhaust manifold. From there a vacuum line runs to the TVS in the manifold. The TVS is screwed into the manifold and reaches into coolant. There is a vacuum line from there that runs to manifold vacuum.
So obviously the traditional heat riser operates by exhaust manifold temperature, where as the EFE operates based on coolant temperature with is obviously a much better indicator of engine temp, than the exhaust is. My assumption is that this change was made so the intake would warm to a more predictable temperature even if the truck was being operated in extreme heat or extreme cold.
The EFE or traditional heat riser, will help the engine to run better during the warm up period, and the choke will come off faster. Without the EFE or traditional heat riser, the engine may tend to run a little rougher or hesitate during the warmup period. This can be compensated for by keeping the choke on longer and reducing the amount the choke pull off, pulls off, but obviously this will lead to a reduction in fuel economy, and increased amount of unburned fuel in the combustion chamber, and for longer periods, in there washing down the cylinder walls which may lead to increased engine wear, and last but not least an increase in emissions.
The thermac system is located on air snorkel for the air cleaner. There is a flapper valve inside the air snorkel which is vacuum operated. From the bottom of the air cleaner is a round tube that looks something like drier vent, but much smaller, which extends to a metal housing or surround on the passenger side intake. NO exhaust gas is brought into the engine from here, what is happening is hot air is being brought in from around the manifold. On the vacuum side, there is a vacuum line attached to the thermac which runs to a temperature sensor located on the air filter housing, generally speaking it is usually on the inside of the air filter, but not always. And another vacuum line off the temp sensor which leads to manifold vacuum.
Now here is where people go wrong with the thermac. They expect that when the engine warms up the valve will open. That's not how it works. The temp sensor is set to maintain an incoming air temperature of about 90F. So your thermac needs to have the plastic air tube from the snorkel to the cold air intake at the core support to work properly. If it's cold out the valve may only open part way even when the engine is fully warmed up. This was done to somewhat stabilize incoming air temps which again helps with fuel vaporization when it's cold out, but also helps to keep incoming air temps stable, which meant that the factory could set the carb and timing for a known incoming air temperature. Most modern cars have a intake air temperature sensor, so that the PCM can make real time adjustments for air temps, this, the thermac system is the next best thing.
But fear not, if you hammer down on the gas and the volume of air needed is to great for the thermac to handle, the valve will open up all the way.
with stabilized air intake temps of 90F from the thermac system, comes the ability to run just a little leaner, and have more stable smoother idle as well as an improvement in idle speed consistency in varying outside temps. The thermac will also help the engine during the warm up period by delivering the warmest air it can to the carburetor.
So why not remove the EFE or the traditional heat riser. Because the engine will run better during the warm up period, and the choke will come off faster. If you remove the EFE or traditional heat riser, the engine may tend to run a little rougher or hesitate during the warmup period. This can be compensated for by keeping the choke on longer and reducing the amount the choke pull off, pulls off, but obviously this will lead to a reduction in fuel economy, and increased amount of unburned fuel in the combustion chamber, and for longer periods, in there washing down the cylinder walls which may lead to increased engine wear, and last but not least an increase in emissions.
So why not remove the thermac system (often done with the installation of an aftermarket air filter housing or the tube from the exhaust manifold is damaged and not repaired / replaced). Because with stabilized air intake temps of 90F comes the ability to run just a little leaner, and have more stable smoother idle as well as an improvement in idle speed consistency in varying outside temps. The thermac will also help the engine during the warm up period by delivering the warmest air it can to the carburetor
I'm sure someone will come along and
The traditional heat riser simply has a thermostatic spring on the outside of the valve. When the engine starts cold the valve is shut, as the exhaust manifold gets hot the spring relaxes and the valve open.
In the EFE system, is essentially a traditional heat riser, but instead of having a thermostatic spring it's vacuum operated. So starting at the heat riser there is a piece of metal linkage to the vacuum diaphragm which is mounted around maybe a foot from the heat riser, it has a bracket to the passenger side head to keep it in place. This was done so the diaphragm wouldn't be damaged by the heat from the exhaust manifold. From there a vacuum line runs to the TVS in the manifold. The TVS is screwed into the manifold and reaches into coolant. There is a vacuum line from there that runs to manifold vacuum.
So obviously the traditional heat riser operates by exhaust manifold temperature, where as the EFE operates based on coolant temperature with is obviously a much better indicator of engine temp, than the exhaust is. My assumption is that this change was made so the intake would warm to a more predictable temperature even if the truck was being operated in extreme heat or extreme cold.
The EFE or traditional heat riser, will help the engine to run better during the warm up period, and the choke will come off faster. Without the EFE or traditional heat riser, the engine may tend to run a little rougher or hesitate during the warmup period. This can be compensated for by keeping the choke on longer and reducing the amount the choke pull off, pulls off, but obviously this will lead to a reduction in fuel economy, and increased amount of unburned fuel in the combustion chamber, and for longer periods, in there washing down the cylinder walls which may lead to increased engine wear, and last but not least an increase in emissions.
The thermac system is located on air snorkel for the air cleaner. There is a flapper valve inside the air snorkel which is vacuum operated. From the bottom of the air cleaner is a round tube that looks something like drier vent, but much smaller, which extends to a metal housing or surround on the passenger side intake. NO exhaust gas is brought into the engine from here, what is happening is hot air is being brought in from around the manifold. On the vacuum side, there is a vacuum line attached to the thermac which runs to a temperature sensor located on the air filter housing, generally speaking it is usually on the inside of the air filter, but not always. And another vacuum line off the temp sensor which leads to manifold vacuum.
Now here is where people go wrong with the thermac. They expect that when the engine warms up the valve will open. That's not how it works. The temp sensor is set to maintain an incoming air temperature of about 90F. So your thermac needs to have the plastic air tube from the snorkel to the cold air intake at the core support to work properly. If it's cold out the valve may only open part way even when the engine is fully warmed up. This was done to somewhat stabilize incoming air temps which again helps with fuel vaporization when it's cold out, but also helps to keep incoming air temps stable, which meant that the factory could set the carb and timing for a known incoming air temperature. Most modern cars have a intake air temperature sensor, so that the PCM can make real time adjustments for air temps, this, the thermac system is the next best thing.
But fear not, if you hammer down on the gas and the volume of air needed is to great for the thermac to handle, the valve will open up all the way.
with stabilized air intake temps of 90F from the thermac system, comes the ability to run just a little leaner, and have more stable smoother idle as well as an improvement in idle speed consistency in varying outside temps. The thermac will also help the engine during the warm up period by delivering the warmest air it can to the carburetor.
So why not remove the EFE or the traditional heat riser. Because the engine will run better during the warm up period, and the choke will come off faster. If you remove the EFE or traditional heat riser, the engine may tend to run a little rougher or hesitate during the warmup period. This can be compensated for by keeping the choke on longer and reducing the amount the choke pull off, pulls off, but obviously this will lead to a reduction in fuel economy, and increased amount of unburned fuel in the combustion chamber, and for longer periods, in there washing down the cylinder walls which may lead to increased engine wear, and last but not least an increase in emissions.
So why not remove the thermac system (often done with the installation of an aftermarket air filter housing or the tube from the exhaust manifold is damaged and not repaired / replaced). Because with stabilized air intake temps of 90F comes the ability to run just a little leaner, and have more stable smoother idle as well as an improvement in idle speed consistency in varying outside temps. The thermac will also help the engine during the warm up period by delivering the warmest air it can to the carburetor
I'm sure someone will come along and