gruntguru wrote: ↑18 Dec 2020, 00:54
I will try to answer a few of the questions and comments without quoting them all individually.
1. The pre-chamber is the ignition source for the main chamber. The best location is in the centre between the valves where the spark plug usually is. This gives the jets the shortest path to all points in the main chamber.
2. During ignition the swirl type pre-chamber has almost identical function to one with radial jets - the jets fire towards the perimeter. It is during compression while the pre-chamber is filling, the swirl may (or may not) produce better mixing within the chamber. (more likely stratification when compared to the radial jet pre-chamber)
3. Re - injection timing.
- If injection occurs early in the intake stroke, the result will be similar to port injection (homogeneous mixing) resulting in uniform lean charge throughout the main chamber and pre-chamber.
- Later injection (say end of intake stroke) the charge will be more stratified and will depend on spray shape. AFR in the pre-chamber will depend on main-chamber AFR in the vicinity of the pre-chamber during compression stroke - particularly the latter part.
- Very late injection can put a rich kernel in the vicinity of the pre-chamber, right at the time when it is filling rapidly. This is how the pre-chamber AFR can be adjusted richer.
- purging the pre-chamber is not necessary. At BDC exhaust it has 1 or 2% of the total cylinder volume. Even if all that exhaust stayed in the pre-chamber for 540* (3 strokes) until TDC compression it will have contain less than 10% exhaust residual (CR is ~ 18:1) representing less than 1% overall EGR.
Brilliant. Thank you.
I have guessed at several of those, and I'm glad that my understanding is in line with reality. I'm reading through this link of a TJI doctorate study, and she gives timing, sizing, orifice nuance as well as visuals to explain the system.
To your last point, however. If the prechamber flushing isn't that big of a deal, why did Honda patent a rotary-type valve to handle it?
viewtopic.php?t=29552
I'd recommend it for anyone wanting to try some TJI shenanigans in their garage.
https://scholar.google.com/citations?us ... AAAJ&hl=en
An annotated view of the pressure, which correlates to the experimental images of the issuing hot
jet appears in Figure 6-2. This plot shows that the hot jet dynamics occur when the pressure in both
chambers is close to the TDC pressure (15-20 bar). Numerical studies of the TJI system [23, 128]
have shown that a relatively cold jet of unburned prechamber mixture issues into the main chamber
82
prior to the hot jet of combustion products. This colder non-reacting jet cannot be seen in the
chemiluminescence imaging. The cold jet has a strong effect and both increases the turbulent
intensity and the mixing rate in the main chamber. Figure 6-2 shows that the initial 15% of the
pressure rise is due to the issuance of the hot combusting jet. The influence of the TJI concept on
the burn rate compared to direct SI combustion was investigated by Gentz et al. [19]. Detailed
images of the issuing jets are provided in the next section.
Pre-jet? Didn't see that coming...
