Hi All,

I am planning an upgrade to a system that can process 200Kg of Plastic per Batch. I plan to heat this using a light oil / Diesel Burner rated at 30Kw. I intend to have a max of 2 Runs per day. I will use a Mild Steel tank of 6mm thickness guage and will be placed in direct contact of the burners flame.

My question is how long can this material last (6mm Mild Steel), if i have 2 runs per day? How often do you think i will need to replace the tank due to the constant heat cool cycles / metal fatigue& Cracking? i dont mind replacing every 6 - 12 months...Mild steel is cheaper and readily available in my country..

Any advice...

How about piping the reflux return to the feed end of the kiln? In this idea, the vapours get fed into the upper part of a reflux chamber. When uncracked hydrocarbon vapour condenses in there, it drains out from the reflux bottom and is piped to the kiln infeed end. The reflux needs to be high enough so that there is sufficient fall.
A further thought was to have a hollow auger shaft and use this the vapour channel and/or reflux return.
Sadly without pictures I'm struggling to visualize your construction so these ideas may not be possible or applicable.
Hope this helps.

DEAR BBD To avoid any possible leakages radiographic and ultrasonic weld testing are the most commonly used methods used to check weid joint and naturally I am going to get the kiln checked with this methods when my bigger capacity rotary kiln gets fabricated which is under fabrication by professional certified boiler manufacturer Also the kiln is checked under pressure 40-50 psi also after completely checked a blown over valve (2.5 -3 psi) is added to kiln which is also linked to hot air generator in case of blown over it not only releases the pressure from the kiln but also shuts down hot air generator and feeding line

my uncle give me some exhaust insulation wrap and i am doing some tests.i have question. i make pressure cooker to a 3l glass condenser. i try lunchbags in small pieces and i got over 0.5 litres. in 5 hours with small gas burner.my question is this i try it another time but i dont cut the lunchbags in small pieces i fire the gas burner and after 2 hours reflux tempreture was 330degrees celcius but no oil coming out after a while reflux tempreture begun decrease to 253 i leave it for 6 hours and i find about 0.3 litres oil. i was thinking why it take over 8 hours and tempreture decrease. do you thing because i dont cut them in small pieces? thanks in advance

Thanks for the idea an inclined vertical outlet pipe will be an good option but here in my case from one end of centre axis plastics are feeded while through other centre axis vapours are taken out and exactly below this outlet pipe carbon removal screw is placed so if refluxed heavy fractions got back through outlet pipe they get directly over carbon removal screw wetting dry powdery carbon and disturbing the process so please if you suggest any other possible solution .

Wow, back up the Horse there mate. What do you mean by Huge pressure? There should be no pressure. None at all. Except for the very little the water level in the Bubbler creates. If you raise pressure, you increase the point in temperature that the Plastic will boil at. In fact if it were easy to do, pyrolysis under a Vacuum is the best way to carry out the process. A Vacuum means you need a lot less heat which means less energy and you get a much more stable Fuel and far less nasties being produced. If you have pressure and need more heat to create the gas, then you run the risk of having the boiling point of the plastic in the range of where it will produce Dioxins and be a Fuel that will tend to oxidize easily and quickly.
But the biggest concern is a large volume Vessel under pressure and heat that has not been designed for such.

So with such a large installation, how do you use the PID to control the heat?


You need to design the diameter in relation to back pressure. You want next to no back pressure at all. So you calculate the Volume of gas and see if that will pass through the diameter and length of Pipe with no back pressure. For every Bend in the Piping, you add considerable restriction and that needs to be calculated as well. For instance, a 90deg bend will result in the need to increase the pipe size by 25mm squared.


This is where you need to know Volume and Velocity of the Vapor and you then design the Cyclone to work the most efficiently at that. Many make the mistake of making a large diameter cyclone. You would be surprised at just how small a Diameter you need. The Vapor needs to spin as fast as possible to allow the very fine carbon dust to settle out.

Just to add to wheels excellent reality check here. ALL pyrolysis units MUST be leak tested EVERY time they are used. I do not believe that leak testing has been described here, so this is one of many ways to leak test a pyrolysis unit. Before loading a pyrolysis unit, with it cold, close off the outlet, and pressurize the entire pyrolysis unit from retort to bubbler to about 5PSI, then spray soapy water over every weld, and every fitting, and every joint. Pay close attention to any bubble formation. If you see bubbles, then tighten the fitting, or re-weld the weld, before running the unit again. You will need to have easily removable insulation to accommodate leak testing.

You are welcome, sunilkm153.

To add to BBD and give some of you a little heads up to what you are playing with. If you take 60mls of Petrol and vaporize it, you now have close to the same explosive power as an entire stick of Dynamite. Now consider just how much vaporized fuel you have in your Retort, at a temperature of 400DegC and consider just what will happen should oxygen ever get into the system.
I missed the comment sunilkm153 made about the Retort being designed re the welding and heat. You can not design any metal vessel for what they are being put through. Cracks are inevitable, because that is what Steel will do in heat. Regular Inspection/Testing of the welds need to be carried out. Failuer to do so will get you on the local 6 Oclock news after you have just leveled the Town. Unfortunately you may not be around to watch it.

Firstly it is good to hear you have all those aspects of safety and I am also glad to hear you have some experience with the tyre's.

Carbon particles will not be uncracked Fractions. Carbon particles are solid particles of Carbon and can not be cracked. They should be part of the waste left behind after the process. To have them carry through the various stages will mean three possibilities.
You may have too much in the Reactor vessel and the level is overflowing through the system. Plastic and Oil expands a significant amount when heated and this needs to be allowed for. We discussed that vary scenario a page or two back re a possible boil over with Excalibur's oil pyrolysis. It would be worth going back a page and having a read. Which could also create another possible problem with a horizontal drum. It will mean the contents will not be able to be too high or it is going to make it's way through the outlet pipe.
Another possible is a Boil over. You could be getting the Plastic too hot and it is boiling and spitting solids up into the outlet.
And the last possible, the pipes maybe too small in diameter and you have too fast a gas stream which is blowing carbon particles right through. As part of my reflux vessel, I have a cyclone that allows any possible particles to drop out of the gas stream and mix with the Refluxed fractions to be dropped back into the reactor vessel.
The easiest course of action may be to build your own centrifuge filter and filter the Fuel as it exits. This would also allow the removal of particles you can not see. A centrifuge with a diameter of about 100mm spinning at about 6000RPM will remove particles down to about 0.1 micron. You can not see particles that small. But they will cause the Fuel to have a brown colour. Removal would clarify the Fuel to a very clear amber colour.

The way I see it is that the principle of reflux will work identically on either retort type. It seems reasonable to assume that the rotary kiln vapor outlet exits from one end at the center axis. The vapor stream outlet should then be inclined vertical and a suitable reflux vessel attached. Control over the subsequent fraction produced is by means of reflux vessel temperature so that heavy fractions are recycled back to the retort by gravity while suitable fractions as well as lighter ones are allowed to proceed downstream.

I completely concur with Wheels. This forum is meant for fabricating small-scale pyrolysis units, which are still dangerous, but at least will not burn town a whole town. Those who are interested in larger scale operations simply must purchase the unit that they need from a qualified petroleum refining engineering company.

I completely concur with Wheels. This forum is meant for fabricating small-scale pyrolysis units, which are still dangerous, but at least will not burn town a whole town. Those who are interested in larger scale operations simply must purchase the unit that they need from a qualified petroleum refining engineering company.

Wheels,can you show us a picture of your system??

BBD is quite correct and as I said earlier, the Reflux is just one way of cracking the heavier Fractions. If you are looking at processing 5000ltrs, then you are into a whole different realm and need to be looking at some very well engineered designs. I find this kind of situation concerning. Several of you on this Forum have gone from small operations to very large commercial scale operations in a single leap, with no real knowledge and no real understanding. If you knew what you were doing, the Reflux situation would not be a question you would be asking here. I don't think many of you are getting it. This can be a very dangerous operation. There have been people killed and entire towns destroyed with these machines failing. So for instance, have you considered what is going to happen with the Retort Vessel by rotating the vessel through the heat? In other words, the vessel is going to be constantly heating and cooling as it passes in and out of the heat. As that been considered and designed for?
What about the exhaust gasses? Processing 5000ltrs mean you will be expelling a lot of Gas to atmosphere. Are you just spewing toxins into the air or are you processing the Gases to expel a clean output?
And then my final question is, what about the Fuels produced. If you don't understand the Reflux process, then you don't understand distilling and I am concerned that you will have no idea about Fuel stabilization and specific weights and testing of fractions and so many other points, that commercial Fuel production s going to require.

Hi Spincabby.
Glad to be of help. Would you be willing to talk a bit more about the woodchip tech? That is one of the things I would really wan to try
Jetijs