Black smoke is generated when the engine is under load, idling, or hot, or when starting the engine in a cold state.
Check if any problem exists in the vehicle.
Remove the air cleaner and inspect for contamination, collapsing in the air duct, or any condition that restricts the flow.
Ensure that the ground of the ECM is free of dirt and is fixed securely in the correct position.
Inspect the fuel quality.
Inspect the engine oil level and oil quality.
Verify the Injector ID Code of each cylinder.
Check the scan tool data list.
Check for related Service Bulletins.
Compare the Engine Coolant Temperature (ECT), Intake Air Temperature (IAT), and Fuel Temperature parameters while the engine is cold. If the difference between the temperature values is 5°C {9°F} or more when the engine is cold, inspect for high resistance in each circuit and for a sensor malfunction.
{When the ignition switch is turned ON, the MAF sensor is heated, and as a result, the IAT shows a higher value than the normal intake air temperature.}
Observe the Mass Air Flow (MAF) parameter on the scan tool, and check for a MAF sensor malfunction or slow reaction.
Observe the Fuel Rail Pressure (FRP) Sensor parameter on the scan tool. It is normal if the Fuel Rail Pressure (FRP) Sensor parameter shows approximately 20 MPa or more when the ignition switch is turned ON without starting the engine after the engine operation is stopped. If not, inspect for high resistance in each circuit and for a sensor malfunction.
Observe the Fuel Rail Pressure (FRP) parameter and Desired Fuel Rail Pressure (FRP) parameter while fully depressing the accelerator pedal from idling with the vehicle in neutral. The difference between the displays should always be within 5 MPa {725 psi}.
Observe the Boost Pressure parameter and Barometric Pressure (BARO) parameter when the ignition switch is ON and the engine is OFF. It is normal if the difference between both parameters is within 7.0 kPa {1.0 psi}.
Remove the injector, and visually inspect.
Perform the Injector Cutoff with a scan tool.
Observe the Fuel Compensation parameter for each cylinder on the scan tool while idling.
Inspect the air cleaner, air intake duct, and intercooler for clogging, holes, or leakage.
Inspect for any condition that restricts flow within the turbocharger intake duct.
Inspect for a stuck intake throttle valve.
Inspect for clogging or air leakage of the inlet manifold.
Inspect the MAF sensor for dirt or damage.
Inspect the turbocharger turbine wheel, shaft, or compressor wheel for wear or damage.
Inspect the turbocharger oil seal for oil leakage.
Inspect the actuator for breakage.
Inspect whether the exhaust system flow is restricted.
Inspect the compression pressure of the engine.
Inspect for poor timing of the idle gear and timing chain.
Inspect the valve clearance.
Inspect for a stuck valve stem.
Inspect the valve seat for wear.
Inspect the valve spring for breakage and fatigue.
Inspect the camshaft for wear.
Inspect for pressure leakage due to piston ring damage.
Inspect the gasket for defects.
Inspect the piston for seizure.
Inspect for oil intrusion into the combustion chamber.
Inspect whether the EGR system is operating properly.
Perform the EGR control system check.
Inspect for excessive blow-by gas.