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iEA (EMISSFIRE) TRAINING
Hidden Pressure Hunt
James Garrido - Have Scanner Will Travel
This month we will use our in cylinder pressure transducer to take a look at a defect that many shops have trouble nailing down even by other more time consuming methods. This defect is a clogged catalyst on only ONE bank of a 2 bank engine equipped with a dual catalyst system.
When only one catalyst on one bank has become restricted the typical complaint is a lack of overall engine power. And if the restriction is severe enough miss firing on only one bank and not necessarily on the bank with the defect! This bank isolated miss fire is due to the effects on airflow through the engine with one side of the engine restricted. When one bank is flow restricted the result is less than 50% of the total air entering the engine ends up being passed through the restricted bank. Yet 50% of the fuel mass is still delivered via the injectors to that restricted bank. As a result one bank ends up very lean and the other bank over rich. The first telling sign of an unequal airflow due to restriction on a V-type engine are the fuel trims. If the fuel trims are moving in increasingly opposite directions bank to bank as engine speed and load increase you need to check for a restriction.
Figure 1 is a P0300 Failure Record captured on code set from a 2003 Chevrolet pick up with a 4.8L cam in block V8. Notice the fuel trims in the capture. Bank one is the side with the clogged catalyst and as such has a negative total fuel trim (STFT+LTFT) correction of -21% while bank 2 is showing a positive total fuel trim correction of +25%.
How would you diagnose this condition to be a clogged exhaust before purchasing that expensive catalyst? Drop the exhaust and test drive with an open system? And risk needless broken bolts, not a great idea in the rust belt states. A vacuum gauge reading at idle and 2500 RPMs is only useful on severely restricted catalyst systems and will not show a partial restriction on only one bank. You could install a back pressure gauge in place of the front oxygen sensor and then power brake the engine under load at a specific RPM. Then move the back pressure gauge to the other side and compare at the same load. My experience with this is unless the catalyst is severely restricted the gauge bounces around so quickly it is difficult to see if the average needle movement is higher side to side. Pulling hard to get at O2 sensors on a hot engine is no picnic either.
I prefer removing one spark plug from each bank in turn and installing a pressure transducer. Then look at the saved pressure waveforms so that you can get an easily acquired and highly accurate comparison of in cylinder conditions bank to bank.
To do this test start at idle speed so that you have a relatively slow crankshaft speed and a plenty of engine vacuum. Then snap the throttle open. The engine vacuum drops as outside air rushes in to fill the low pressure area in the intake. Initially the crankshaft has not yet begun to spin faster so the extra air has lots of time to fill the cylinders before it attempts to exit the exhaust ports.
In figure 2 I have captured bank 2, cylinder 6, the good side of this engine. Compare these pressures waves seen from the good side to the clogged bank 1, cylinder 7 shown in figure 3. In the zoomed out capture shown in the lower right corner of the images you can see that the cylinder from the restricted bank built up more pressure on average than the cylinder from the unrestricted bank.
. If we zoom in on the highest in cylinder pressure peak section of the wave we can actually see the cycle by cycle difference between the cylinders on the different banks. On the bad cylinder you can see that the end of the exhaust stroke pressure wave plateau peaks at a high of 0.78V even after the pressure drops slightly as the intake valve opens during the overlap period. On the good cylinder you can see the exhaust stroke pressure wave plateau peaks at only 0.53V and then permanently drops off as the intake valve opens during the overlap period. The scaling on this sensor is 1.0V = 75 PSI so the variation between the restricted and unrestricted cylinders is 0.25V or 18.75 PSI! It is impossible to get this kind of accuracy and detail using older methods for testing for back pressure. Even a slightly clogged catalyst will show up by using in cylinder pressure measurements.
Automotive Test Solutions is a multi-national award winning company for innovative thinking that produces patented tool solutions for the automotive industries. ATS currently holds 22 patents with over 25 patents pending. All of the tools produced at ATS are designed to allow technicians to quickly and accurately diagnose the modern vehicle. ATS tools offer unique solutions to help technicians where it counts, in your service bays. Established in 2001, ATS manufactures; oscilloscopes, ignition analyzers, OBD II scan tools for advance engine diagnostics, misfire detection systems, advanced engine mechanical testing using pressure transducers, pressure transducers, advanced leak detection systems, tailpipe emission gas analyzers, fully articulating borescopes, engine simulators, carbon removal solutions for induction systems, oil and fuel pour-ins to serve the automotive technician.
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