we have lift off – thanks to Bernoulli…

and a few other things as well.

First, there’s the engine de-coke and re-build. Whilst doing this, I opened the exhaust port a little and opened the exhaust port throat a little more, smoothing the flow as best I could. A new crankshaft seal was fitted on the drive side and I took particular care to seal the small gap above the key way slot, in the primary drive sprocket, as some primary compression can be lost here. The little end bush also seemed a little tight, so the bush was gently eased using 1500 grade wet and dry sandpaper.

Second, I’ve flexibly mounted the carburetor. Now I was quite nervous about cutting the inlet manifold as there’s no going back but I did it anyway and fortunately, it worked out quite well.

dsc_0049.jpg

The advantages I hope to gain are:

  1. Reduced vibration of the carb that could be causing the float to bounce and flood with petrol; a persistent problem I’ve had,
  2. Reduced heat transfer to the carb from the engine, that I suspect is causing vapour locking , NB: Petrol boils at 95C, however ethanol boils at 78C, so modern fuel are far more prone to this. Sir Walter has always been a bad starter, 10 and 20 minutes after a hot stop.
  3. Increased clearance between the carb and the wheel as the petrol connector nut can touch the wheel, particularly if the wheel bearings are set a little loose. I cut 6mm out of the manifold and left a 3mm gap between the ends.

The finished job looks quite neat, as shown. You’ll see I changed to a different rubber hose as the black one above was too tight. I just hope the clear reinforced hose I used is ethanol proof, or I’ve a breakdown waiting to happen.  I’ve also added some thick black foam rubber around the inlet spigot, so that it’s supported where it goes through the carburetor cover.

Third, I’ve lapped the float needle to the petrol connector using a new method. Previously I’ve spun the needle in a drill whilst holding the petrol connector between my thumb and finger. The problem with this method is the lapped seat may not be axially aligned as it’s done outside the carburetor body. Consequently, it may leak when assembled.

First step is to make a nylon plug on a lathe, that’s a tight slide fit into the float bowl. Also drill a 1.6mm hole in the centre of the plug (on the lathe) to take the float needle, thereby ensuring the 2 diameters are perfectly concentric.

Then fit the petrol connector into the base of the float chamber with its fibre washer and tighten. Next put a dab of fine abrasive paste (Solvol Autosol) on the needle seat and insert it into connector and up through the nylon plug. Finally carefully tighten the chuck of a battery drill onto the exposed tip of the needle and spin it slowly for a minute or so.

DSC_0064.JPG

Repeat this, cleaning the needle each time, until a good even seat can be seen on the needle. The beauty of this method is that the new seat is perfectly aligned and shouldn’t (I hope) leak.

 

Fourth, open up the silencer to improve gas flow. This also makes it louder and it’s a scientific fact that something loud goes faster; or so it seems. My silencer is the type that doesn’t come apart (for cleaning), so I simply drilled a 10mm hole in the baffle plate that I could see inside the tailpipe. Yes, crude but effective.

 

So what’s this got to do with Bernoulli? Well in 1738 Daniel Bernoulli published a book called “Hydrodynamica” (great title), in which he detailed some principles of fluid dynamics.

In a nut shell, he stated that, “if a fluid (liquid or gas) increases its speed, then the pressure drops” and this is one of the fundamental reasons that a 2 stroke engine works. As the products of combustion accelerate down the exhaust port, they cause a drop in pressure that sucks the fresh fuel charge into the cylinder. So it follows that the faster the gases exhaust, the lower the pressure, the greater the suck, the more fuel is drawn in and the more power you get – simple. And that’s what I’ve done to improve Sir Walter, (amongst other things) and IT WORKS!

He can now climb steeper hills without LPA, he’s revving out much, much better and he even sounds fast.

PS, Bernoulli’s principle is why aeroplane wings generate lift, a spinning football bends, ships can’t pass close at sea, jetties always have water beneath them and why a F1 car’s areopackage works, amongst many other things.  Where would we be without Hydrodynamica?

 

Advertisements

It’s all about the chemistry…

but not the emotional type. The chemical type, as used to unblock the exhaust and restore the corroded petrol tank and on my Cyclemaster.

NOTE: THIS BLOG INVOLVES USING SOME VERY AGGRESSIVE CHEMICALS, SO PERSONAL PROTECTION EQUIPMENT SHOULD BE USED, FOR EXAMPLE, RUBBER GLOVES, GOGGLES, FACE MASK ETC.

READ THE INSTRUCTIONS ON THE CHEMICALS AND FOLLOW THEM. ALSO DOWNLOAD THE MATERIAL SAFETY DATA SHEET (MSDS) FOR EACH CHEMICAL AND COMPLY WITH IT – YOU HAVE BEEN WARNED!

First the blocked exhaust.

Apart from cutting the exhaust open, scrapping the carbon out and then welding it back up, there are two, frequently used, methods. The one I’m not prepared to try, involves pointing  an oxy-acetylene welding torch down the exhaust until the carbon is burning, then turning the acetylene off, so the oxygen feeds the burning carbon – a bit like a blast furnace. They say don’t worry about it glowing red and smoke bellowing out? And that it will self extinguish when the carbon has been burnt. But that sounds a risk to far, so it’s the second method for me.

Simply get some caustic soda (sodium hydroxide) from your local hardware store (Wilko in my case) and fill the exhaust with it.

NOTE: Caustic Soda is an aggressive chemical, so rubber gloves (marigolds) and eye protection must be used – as a minimum.

I mixed the caustic soda quite strong, with reasonably warm water (not boiling) and left my exhaust in an old plastic bucket overnight, with bungs in each end. The carbon softens and comes out a black gunge when you rinse it with the hosepipe. I did mine 3 times and the last time there was no gunge, just brown water.

Take extreme care, as the caustic soda reacts with aluminium and can stain chrome – not an issue on the CM. This method was quite simple and worked for me as the exhaust has a nice crisp “pop” now; a sure sign it’s free flowing.

Second, the rusty petrol tank.

My Cyclemaster tank had been stood for so many years, the petrol had crystallised at the top and turned to black rusty gunge at the bottom. I tried various cleaners that all helped a little but bits of rust were still getting into the carb. I hope to do some long distance rides and don’t  want to risk a breakdown due to blocked main jet, so the tank must be cleaned and treated.

This is what it looks like inside and it’s worse further back in the lower section.

dsc_0087-crop.jpg

The method I’m using is to “treat” the inside of the tank with Phosphoric acid. It acts as a rust converter, not remover. The rust is iron oxide and the phosphoric acid converts it to ferric phosphate which is soluble in water so can be washed off – in theory, so let’s see if it works. The acid also etches the steel, leaving a grey surface appearance and increasing the rust resistance.

Remember, use personal protective equipment, as you are working with a strong acid.

My supply of Phosphoric acid came in the form of a ph adjuster used in horticulture, from ebay. It’s 81% concentrated and I bought a 250ml bottle, so that’s 200 ml of acid. The CM petrol tank is small at 2 1/2 pints which is approx 1.5 litres and I used all of the pH Down, so my mix ratio is 7.5:1.

DSC_0088 crop.JPG

The fuel tap and integral filter were removed and the hole bunged with Gaffa tape as I’d read on the internet that this would work. It’s important to add the acid to water, rather than the other way round, then top the tank up to the brim.

I then placed the  Tank in an old plastic bucket and gave it shake every few minutes. It was during shaking that I noticed the garage floor fizzing, like an Alka Seltzer in water, as the Gaffa tape was coming off! SO DON’T USE GAFFA TAPE. Do the safe thing and find a bolt that fits the hole and screw it in securely. Fortunately, I had the hose pipe ready so I gave the floor a good wash down, including washing it Baking Soda to neutralize the acid.

After 20 to 30 minutes I removed the acid, gave it a rinse with the hose pipe for another 15 mins, then rinsed it with a baking soda solution. And this is the result:

dsc_0095-crop-2.jpg

The next step is to thoroughly dry the tank and I used a heat gun to do this. When your are 100% sure it’s dry, give it a spray inside with WD40 or simlar.

Side by side, you can see the improvement is massive – job done, or not quite…

I say not quite, as unfortunately the acid has affected the outside of the tank.

DSC_0098.JPG

It just goes to prove, you shouldn’t believe everything you read on the internet, as I’d read that Phosphoric acid has no affect on paint – wrong! Perhaps I made the acid too strong? Or perhaps the original Polychromatic paint isn’t resistant to acid?

Anyway, I was unsure whether to paint the tank but that’s now been resolved for me.

So the next blog will be my experience on painting the tank and the other parts. Oh and adding those difficult red lines…