mixed plastics and OMM

can be mixed in the plastic and pyrolysis process in the same deposit OMM

thanks

During my last run I got 10 liters per hour average. I'm currently revising the set up, aiming for 20 liters+ per hour average. Currently I'm cracking waste oil, mostly hydraulic and gear oils. My retort is 47 liter capacity though I aim to constantly fill to about 3/4 level. I have no idea on the KW of heat but I use homemade diesel plus retort generated gases for the flame.

My stock of diesel for my van has all been used so I'm working long hours to take the next steps to re-run the turk-retort as soon as possible. My upgrades will be revised efficiency diesel/oil burner head, preheating for the turk and retort feeds, new pump on feedstock, insulation on reflux and diesel reservoir. I will open up my retort for it's first ever clean out so I'll be making up special tools to reach the 1.5 meter deep vessel bottom. At this stage I'm planning on initially filling with PE/WMO to the 3/4 mark.

Pics and details will be up on my DIYdiesel blog over coming days as time permits. Also more Youtube, hopefully one of the turk burner head as well.

HTH

Yes, I am just distilling WMO at this time, and my goal is far less than Excalibur's. I am only interested in 5 gallons (20L)/day to meet my fuel demands.
You are using about 20 times more power than I am using, but I do not know what volume/mass you are working with. For perspective 5 gallons (20L) of oil weighs about 35 pounds (16KG). This means power per unit volume is 1KW/2.5gal (10L); or 1KW/17.5lbs (8KG); or 100w/L; or 125w/KG.

Thanks for your previous replay, I hav

tankyou very much for your tips I really apreciate it¡

1kW per 1L per 1hr?

Hi BB
Do you mean you have a 2kW hot plate under your retort? or do your hot plate, band heaters and line wrap heater all add up to 2kW? All those heaters just listed are for your retort and reflux right? I recall your retort and reflux are one chamber. So no heaters are used on the condensers? just insulation?

You mentioned you are probably getting about 2L/hr during peak distillation / cracking. So as far as sizing our units and heat / power supply it looks like each 1L of WMO will take about 1kW to vapourise / crack it in about 1 hour once the retort is up to temperature.

Excalibur - how much fuel does your turk burner consume per batch / continuous cycle? How many litres are produced per batch / shift? Interested to know the efficiency of an oil burner v electricity. The liquid fuel will no doubt be a lot cheaper / free but I'm in the suburbs cut up into 800m2 blocks and don't think I could get away with any kind of oil burner so close to neighbours.

Thanks.
Col

Sorry, I wish I'd made better effort to count the liters for the recent 130L run. I'd be totally guessing at 15 - 20 liters however the figure itself is distorted due to the addition of the non condensable retort gases being burned as fuel. The fuel/oil/diesel burned was free and I made no attempt to economize at this early development stage.
I have latest pics up of my Turk burner head on DIYDiesel blog under appropriate sections/pages.

I have 4 heaters on my retort. They are capable of delivering about 2KW each; however, I use variacs to regulate the voltage down to 2KW total to meet my solar gain.
Correct. I try to completely cover the entire retort with heat. Any area of the retort that is not covered with heat is going to be a cold zone where refluxing will take place and prevent movement of vapors down stream to the condensers.
Correct. I just fill my retort about 3/4 full and I have metal screen above that for reflux area.
Incorrect. I have about 5 condensers. The first one is heated to 300c, the 2nd one is heated to 200c, the 3rd is heated to 100c, 4th is ambient temperature, 5th is 0c.
As I posted up thread it is only about 100watts/lit to operate my entire WMO distillation system. Part of my success in doing so much with so little is my retort has 4" (10cm) of insulation all around it, and I have spent years developing insulation practices for these temperatures.

Every heated trap is also very well insulated, and I do not turn the heaters on the traps until the retort is done evaporating the sample. This allows the traps to be heated by the vapor-stream, so that my heaters only have to work a little to boost the temperature of the trap and hold it at its control point, and only as long as needed to evaporate any light fractions, which go to the next trap and heat it up.
I am very impressed with Excalibur's work and success. There are a number of advantages in using gas, liquid or solid fuels, such as dollar per watt; however, one is not going to get the control needed to safely and efficiently crack and fractionate hydrocarbons with flames, than one is going to have with electricity.

Also, having a flame anywhere near a cracking and fractionation system poses a serious fire and explosion hazard. So, I choose not to use fuels, but electricity for heating my retort and condenser traps.

Are both heating and cooling required?

Thanks Excalibur and BB. Sounds like you have great efficiency and tight control over the heating of your system BB.

Something I have been puzzled by is whether (in a continuous drip feed system with very good insulation) I will need to regulate the temperature of the reflux chamber and condensers # 1 or # 2 DOWNWARD. Much has been said of heating and insulating these chambers, and varying the length of pipes between them to manage temperature drops. So I know I will need to heat and insulate these chambers, but do I need to be able to COOL them in a continuous system??

If the vapours are leaving the retort at 500C (I just want to be left with dry ash rather than tar at the end of a cycle) should I build into my system the ability to heat AND cool the reflux zone to strictly keep it at 380C? ie. would a constant flow of vapours from a 500C retort heat the reflux zone above 380C, so I need to cool it a bit? And would a constant flow of 380C vapours from the refluxing zone heat the first condensing chamber above 180C, so I need to cool it a bit? I intend to hold the retort at 500C, the reflux at 380C and the first condenser at 180C, then cool the remainder of the vapours after that. So I catch all vapours between 380C and 180C to be used for diesel.

I recognise the answer to this question depends on how 'closed' my system is. But those of you who have experience with the practical limitations of your insulation will have an idea of whether the heat losses through your insulation are enough to pull the temperature down enough between chambers.

I recall way back there was talk of needing to pull insulation off the system to stop it getting too hot. I don't remember if this was because they couldn't regulate their heat source properly or because the vapours carried too much heat to the next chamber?

Using a hot plate and heat bands, will it be enough to just regulate the chamber temperature via thermostat controlled heaters? or will I need to leave some of the chamber walls exposed and cool them with a fan sometimes? BB's experience tells me that in a batch system I can rely on heating only and not need to cool anything. But in a continuous system there will be no heat sink / cold chamber for the vapours to transfer their heat into as the system chambers will be kept hot continuously.

I looked at strict temperature regulation using thermic oil but I would need to pressurise the oil to 400psi to achieve a temperature of 430C. I'm not really interested in hot oil at that pressure.

Thanks
Col

Col, it's great that you are taking the time to think the system through. The answers are not clear cut. Much depends on size, shape, design etc.
However some points come to mind. The bigger the retort vessel, the more the need will be to cool the downstream flow. With vapor will travel heat so the more heat generated means the downstream equipment needs to be sufficient to handle the volume.

My mk6 retort needs an insulated reflux and a cooled diesel condenser trap.

I believe the 500*C target will be too high. Be wary of boil-over conditions. I liken it to a pot of milk boiling over on a stove. The feedstock will be cracking at that temp but it won't be distillation. I've seen boil-over in my sight glass before. It looks a very dark red and kind of "lumpy". Avoid.

Re, being left with ash rather than tar. The last part of the process may take more energy than will be economic. It might be more prudent to snip the run early rather than waste fuel/heat for little return.

The reflux temperature will determine what weight of fuel that gets trapped in the first condenser. You said 380*C, so try it and see. If the diesel is too heavy then reduce the figure, if too light then raise it. For comparison, my last run I targeted 300*C and the diesel was slightly light weight so I'm aiming for 320*C next time. The way I see it is, the highest temperature that gets the correct result is best as this uses less energy to obtain.

On my earlier prototypes, I discovered that my condensers were woefully inadequate to deal with the vapor stream heat. With a big retort there's lots of heat and the flow of vapor is relentless.

So,,, some opinion to ponder and puzzle over. In any case make a start. Don't expect everything to be perfection first time. It's too complex. Consider it as "work in progress".
Hope this helps.

You are welcome. If you are going to be cracking and distilling hydrocarbons, then you are going to want tight control of the system, or otherwise fire and explosion will be the result.

Designing a hydrocarbon cracking and distillation system requires art and science. So, there will be much for you to learn. I have 4" (10cm) of insulation on my retort and reflux. For every 100C drop moving down my line of condensers I remove 1" (2.5cm) of insulation. This means the condenser trap never overheats from the vapor stream and requires a small amount of power to maintain its temperature.

You NEVER want your reflux zone to be lower in temperature than your retort, or the condenser trap it is servicing, or otherwise you will have tar, wax, polymers, or coke blocking your reflux and vent, then you have oops kaboom!! In that case we can only hope you have good insurance.

That is fine, but there is no reason to heat your retort above 800F (425c) because all hydrocarbons will be evaporated, or cracked, under that.

Additionally, you can combine the light fractions with the heavy fractions to make diesel fuel. I have been doing it for 7 years, and the petroleum industry has been doing it for about 100 years.

The problem is almost no one who has come to this forum has understood condenser design, including the OP. Just work on your condensers, before you even crack or distill hydrocarbons.

While cracking towers typically operate at above ambient pressures, that is only 15PSI (1 bar). Do not try to get fancy with your early designs. Just work on the basic system first. Get it running, then consider improvements later.

Thanks Excalibur and BB, comments much appreciated.

Excalibur said - The bigger the retort vessel, the more the need will be to cool the downstream flow. With vapor will travel heat so the more heat generated means the downstream equipment needs to be sufficient to handle the volume.

I expect we can consider a continuous flow system to effectively have an enormous retort, as you could run a 5L retort from a feed tank of 5L or 5ML by steady drip feed. So I will need to design my system with the ability to cool the condensers. If I run a few narrow pipes through the guts of the condensers and pump cooling water through the pipes (without any valves on the outlet end of the water pipes so there is no obstruction to super-heated water/steam escaping the pipes, and no pressure) then I expect this would do an adequate job of cooling the condensers from the inside while still allowing me to heat the condensers from the outside as required. Maybe pumping the feed oil instead of water through the cooling pipes might be a better idea, to pre-heat it before entering the retort. Also, when heating water flowing though pipes in a boiler type of situation like this I believe I would need to treat the water to prevent scale build up in the pipes. Whereas pumping oil through shouldn't give that issue, so long as I've de-sludged the oil first.

BB said - You NEVER want your reflux zone to be lower in temperature than your retort, or the condenser trap it is servicing, or otherwise you will have tar, wax, polymers, or coke blocking your reflux and vent, then you have oops kaboom!! In that case we can only hope you have good insurance.

So you run your retort at 425C and your reflux exit temperature at 425C (same chamber in your case). Wouldn't that mean you are trapping molecules heavier than 'diesel' in your first condenser (the MSDS for BP automotive diesel states a boiling range of 180-380C, so wouldn't you want a reflux exit temperature of 380C and a first condenser exit temperature of 180C?)? So then you blend solvents with this heavier fraction to get it to diesel spec? I thought one of the purposes of the reflux column was to allow heavier molecules to condense and drip back down for another chance at being cracked into the diesel fraction? If we are to expect the heavier molecules to condense in the reflux column doesn't the temperature of the reflux column need to drop lower than the retort temperature? Then you have your reflux exit temperature and your first condenser exit temperature framing the upper and lower limits of the boiling range for your desired fraction.

I think I will have to do all this at work, I have some space there and can keep it away from a residential setting. I can house it in a shipping container there too.

I will start with a lower temperature, say 425C, and see what residue I am left with. BB - do you end up with dry ash after a batch run at 425C? Excalibur - I don't want any tar - what would I do with tar? I don't need to make a driveway. How would I get rid of it? I am not too concerned about efficiency at this stage, I would prefer to lose some efficiency than end up with tar.

Thanks guys, you fellas are very helpful. Your input and the input of other notable contributors on this forum have saved me both time and probably an injury or worse.

Col

Using the feedstock oil feed for the heat exchanger/condenser is a good idea. My plan is to pipe the feedstock oil counter-current to the vapor flow. I have a few details to iron out as currently my condenser controls the diesel reservoir temperature by raising or lowering the distillate that drops into it.

180*C might be on the high side for the diesel tank but depending on how much light fraction you want to draw out and send downstream. My recent run, I aimed at 80*C- 100*C and the diesel seemed fine. Certainly the lower this temperature, the more volume of diesel you'll net. The 180*C mark will mean less quench for the condenser.

I'm curious to see if the 380*C reflux target will yield a diesel with a good specific gravity. Try it and tweak from there if necessary. Please record the S.G. for reference.

The reflux purpose is as you say so I think BB's 425*C marker is to liberate a heavier fraction in the first trap, perhaps a lubricating oil.

The shipping container is another great idea. I have one here but it's a bit too close to my shed and I had the materials to make a dedicated shelter. Consider fitting extractor fans.

Residue in retort

Thanks Excalibur, I'm looking forward to making some physical progress in the next couple of weeks. All the thinking drives you crazy wanting to get hands on!

I tested the heating temperature of a cheap hot plate, maxed out at 277C, but I could hear a thermostat click it out. So I could bypass the thermostat and try again but seeing it is just a domestic one I wonder of the surrounding materials housing the hot plate would handle higher temperatures. Might just melt into a blob.

Excalibur - You were going to do your first ever clean out of your retort? What residue did you end up with in your retort? What retort temperature/s have you been running at?

Col

Hello guys, can someone tell to me what's the typical value of pressure reached during the process in the reactor camber? Is there a formule that can be used for the calculation?
Thank you
By
Nick