AutosNew wave menace: How LSPI threatens modern engines

New wave menace: How LSPI threatens modern engines

This phenomenon primarily affects modern engines, especially those equipped with direct injection. Although it has been known for decades, it has intensified with increasingly stringent emission standards. It slowly but effectively destroys the engine. Why does it occur, and can it be prevented?

Connecting rods and pistons
Connecting rods and pistons
Images source: © Autokult | Marcin Łobodziński

7:07 PM EDT, September 20, 2024

Knock, or pre-ignition of the fuel-air mixture has been known for years and was eliminated through electronic ignition control. However, with the evolution of gasoline engines and the increased load from turbocharging, direct gasoline injection, or high combustion temperatures, the knocking phenomenon has returned to a new, more dangerous form.

The recently discovered phenomenon is termed low-speed pre-ignition (LSPI), also known as super knock.

What is LSPI and where does it come from?

The official response from the industry (mainly oil companies and additive manufacturers) to this question is roughly that LSPI is uncontrolled, accidental detonations resulting from the ignition of oil particles entering the cylinders, carbon deposits, etc. Anything that can ignite and end up in the cylinder is the cause of LSPI. It occurs mainly at low RPMs and high load when the cylinder is filled with the fuel-air mixture and the moment of ignition is approaching. At higher RPMs, the same phenomenon is called SPI.

This response follows a campaign to use better (read: more expensive) oils with even more additives. So-called anti-LSPI oils meet the API SN Plus standard, and these should be used. The problem is that the LSPI phenomenon still occurs even when they are used.

According to Robert Halicki, a mechanic who has been studying engines for LSPI in his workshop for over a decade, the main cause of this phenomenon is oil vapors entering the combustion chambers from the crankcase ventilation system and excess fuel in the combustion chamber, which the engine uses to compensate for losses caused by resistance.

Excess fuel gets into the oil, causing it to degrade faster (worsening its lubricating properties). When it mixes with gasoline, it becomes an even more flammable substance. These increasingly flammable vapors enter the engine through the crankcase ventilation system, and the cycle continues.

The second cause, interconnected with the first, is the excessive engine load due to inadequate lubrication and loads in other areas of the drivetrain. This is most noticeable in units equipped with direct injection, small displacement, or those lubricated with very low-viscosity oil. When the engine cannot generate the required torque, it adds fuel, which, in its unburned form, ends up in the oil. And this was already mentioned earlier because both causes occur simultaneously and are fully dependent on each other.

Another significant issue arises from the previously described phenomena, which generates a lot of soot in the engine and deposits form, contributing to LSPI, mainly according to the oil industry's official version. To use a comparison, it is like a bleeding wound; the oil industry suggests that the cause of blood leakage through the bandage is the poor quality of the bandage. And they may be somewhat correct. However, Robert Halicki points out that the real issue is the wound, which needs stitching.

We propose using a system to separate vapors from the crankcase and apply them to the test car. Without effective separation, many unnecessary substances would have gotten into the engine. Although LSPI doesn’t occur in this engine, it used to happen frequently.

And what about excessive load and inadequate lubrication?

Engines should be lubricated with oil that suits their needs and the needs of the users, not a universal one that often meets standards only on paper. Everyone drives differently, and the engine oil must be matched accordingly. However, the oil in the drivetrain is equally important, which generates significant losses and burdens the engine, forcing it to add excessive fuel.

Is ecology to blame?

LSPI and SPI phenomena are intensifying and appearing more frequently on the problem list alongside the increasing CO2 emission requirements and Euro standards. Modern engines must ensure low fuel consumption and adequate dynamics by operating at low RPMs with high loads.

Designers aim for engines to produce high torque at low RPMs. However, engine load is highest at such speeds. Without reducing losses, there is no chance of avoiding LSPI, and this cannot be achieved with a universal oil intended for all engine types and without eliminating the problem of contaminants entering the cylinders.

The other side of the coin is the exhaust systems, which are equipped with an increasing number of filters designed to capture exhaust contaminants—the more filters, the higher the load on the engine, leading to increased contamination. Until recently, there were no issues with GPF filters because they theoretically should burn off in all situations during normal driving. Unfortunately, this has changed too.

Let's add to this list complex exhaust gas recirculation systems and crankcase ventilation systems without separators to separate oil vapors from the mixture received by the engine. All this stands in the way of designers battling the LSPI phenomenon. However, it is less of a problem for the designers themselves and more for the users because their engines will not last the intended mileage.

Related content
© essanews.com
·

Downloading, reproduction, storage, or any other use of content available on this website—regardless of its nature and form of expression (in particular, but not limited to verbal, verbal-musical, musical, audiovisual, audio, textual, graphic, and the data and information contained therein, databases and the data contained therein) and its form (e.g., literary, journalistic, scientific, cartographic, computer programs, visual arts, photographic)—requires prior and explicit consent from Wirtualna Polska Media Spółka Akcyjna, headquartered in Warsaw, the owner of this website, regardless of the method of exploration and the technique used (manual or automated, including the use of machine learning or artificial intelligence programs). The above restriction does not apply solely to facilitate their search by internet search engines and uses within contractual relations or permitted use as specified by applicable law.Detailed information regarding this notice can be found  here.