A gas engine question

One u-toob vid shows only a very thin plate being used as the head. There could not be much removed from that one!

Pump petrol will only stand a max of about 9:1 in full size engines, and then only if the design is good, ignition timing and fuel mixture bang on. With gas it depends more on what gas, exactly. Town gas is very rare in the UK - it was made from coal, and we don't do coal any more.

Hope this helps (but I bet it doesn't)

Tim

Some of the my hit and miss engines are quite low going down to about 3:1 run on Colemans and the Robinson that runs on Propane is around 4:1

Edited By JasonB on 03/02/2019 19:01:44

A modern car converted to run on LPG will retain it's normal compression ration of around 9 to 1.

So 9 to 1 should be fine and 8 to 1 conservative.

Current spark ignition petrol engines, run at around 10:1 Compression ratios, to be efficient and to cope with the aftertreatment for low emissioins. My Aygo is Euro 6 compliant, it s 2005 MY Yaris predecessor certainly had a 10:1 C R, and was very fuel efficient!

The Air Standard Efficiency is related to the Compression Ratio; so the latter has tended to increase over the years, in the search for power and fuel efficiency.

The "Town gas" that we get nowadays is natural gas, so is probably likely to contain a butane / propane mix. What the detonation characteristics of that are, I do not know, (possibly low Octane rating?) but someone on here is sure to be conversant with the Octane or Cetane equivalence.

Also, the combustion chamber shape, and spark plug siting, will have an effect, from the point of view of ensuring the mixture being homogenous, (should be far better with a gaseous fuel than petrol ) and avoiding "end gas" which will contribute to a tendency to detonate. Detonation can be very destructive, so is to be avoided, plus the uncontrolled combustion does not improve power output or cylinder temperatures..

Not very specific as regards design, I am afraid.

Howard

You should be able to work out an approximate comp ratio from your drawings .

Town gas is more likely to be methane. LPG supplied in bottles is likely to be mostly propane, with perhaps some butane. Disposable gas canisters are mostly butane with some proportion of propane. All of these have a higher octane rating than petrol so could run a higher compression ratio. However raising the compression ratio too high tends to mean that the breathing is not so good, due to limited space for valves to open into and the high crown on the piston getting in the way of gas flow. So there is a practical limit quite apart from what the fuel will permit. Smaller cylinders can run a higher compression ratio than larger ones, but this is I think mostly due to the higher heat loss with the greater surface area to volume ratio, so does not give any great gain in efficiency.

All of this is academic for engines like the Centaur, which tend to have low compression ratios. The full size originals were designed to run on the sort of fuel that was readily available, the petrol at the time being pretty much unleaded white spirit. The actual ratio is not critical and the main point of this sort of model is for it to run nicely, so provided the compression ratio is moderate all will be well.

John

Not sure about that Tim, most modern Superbikes are around 13:1 and will happily run on pump petrol.

Many diesel engines can be run on LPG or natural gas. They simply need some form of ignition - often a small injection of diesel fuel is sufficient. The modern petrol engine, with higher than about 9:1 will have knock detectors to alter the timing and fuel to air ratio, so I doubt this one would exceed 8:1 at the most. If designed to run on pre-RON rated fuel - the old 70 octane, or less, I would think 7:1 was likely the target, tops.

My petrol/paraffin tractors run on less than 5:1 as the kerosene/paraffin will knock under load at anything higher.

Yes. Very much so. Just because modern high rpm car and motorcycle engines will run 9 or even 13 to 1 does not mean a hit and miss banger will like that at all. Back in those machine's day, compression ratios as mentioned in above posts was more in the range of 5 to 1, or even down to 3 to 1.

Edited By Hopper on 03/02/2019 23:31:13

Probably smoother, but less thermodynamically efficient. Fuels have improved somewhat, since hit and miss engines were in regular use!

Nearly twenty year old Kwakas likely only had a useful power band of a couple of thousand rpm or so? They certainly would not like to accelerate hard below 3000rpm in top gear, I would think!

I have a V4 engine that would pull ‘like a train’ all the way down to almost stalling revs. ‘Orses for courses’! Magneto ignition, too.

Mazdas Skyaktiv engines run a compression ratio around 14:1 on pump petrol, but the control systems are pretty complicated.

Older 'stationary engines' run 4 - 5 :1.

Remember that pump petrol will light quite happily with no compression at all, just depends on how much power you want from it

Regards

Yes smoother running so the model won't jump about the place.

Also easier to hand start with just a flick of the flywheels, too much compression and it will just bounce back.

.

... I've just had a quick browse, to see ^^^

I suppose iit depends upon your personal interpretation of 'useful power band' but this doesn't look too peaky to me: **LINK**

http://www.factorypro.com/images/dynocharts/dyno__stk_to_Micron_SO_K88-1.7-RK_4deg_adv.gif

... Rather more like a high-speed version of the proverbial 'steam train' 

MichaelG.

Edited By Michael Gilligan on 04/02/2019 07:46:16

I just had a quick look at the Centaur drawings and looks like the compression ratio works out at about 4.5:1.

Bit of guess work on the head cavity which I came up with 0.64cu.in for. Piston stops 1/4" from the head so at 1.5" bore that s 0.44 cu. in giving a total of 1.02cu.in.

With 2" stroke the swept volume is 3.53cu.in

Therefore total volume 4.55 : unswept 1.02

Edited By JasonB on 04/02/2019 08:27:46

Alan, have you allowed for the fact that the piston crown should stop 1/4" from the head?