Water content test. <<snip>>

Specific gravity.<<snip>>

Flash point test.<<snip>>

Acid number. PH strips and PH meters only work in aqueous solutions. Hydrocarbons will give a faulty reading. To measure the acidity of a fuel it is necessary to perform a simple titration. You will need a small amount of isopropyl alcohol with a pinch of tumeric dissolved in it as an indicator and a some solution of potassium hydroxide dissolved in distilled water. Exactly one gram in exactly one litre.
Half fill a small shot glass with the indicator and using a syringe add exactly 1ml of your fuel. Stir with a plastic stick, an old pen will do. Now fill another clean syringe with the potassium hydroxide solution and add it drop by drop stirring all the time. Stop when the yellow colour turns red. note the number of ml you have used. this is the acid number. A result of more than 1.5 would be of concern. If the fuel is acidic it may be contaminated by chlorine or florine or sulphurous compounds.

Copper strip test. Bring a small pan of fuel up to 100C. Hang a strip of polished copper on the rim of the pan so that a part of it is submerged in the fuel. Maintain the temp for 3 hours. Remove the strip and compare the discolouration with a strip tested in normal diesel. Greater discolouration indicated more contamination. Different colours of corrosion indicated different types of contamination.

I agree Even with an ice trap you have butane, propane and such but if your craking just right you would not have much.

the simplest way to use the HCL is to supplement the burner with hydrogen.

No need to say this is highly explosive gas so much care is needed and a check valve close to the burner and a screen is a good idea to reduce risk of accident.

Anyway, by adding aluminum to your bubbler the HCl will react with it and release hydrogen. This is important, if you put aluminum is hydrochloric acid, it is slow to start, but reacts violently. So make sure you have fresh cut aluminum in there to give the reaction a clean start point. As the HCL is diluted in the water it will slowly react and keep the reaction low. As for the water input, you only need to keep the level high enough to keep the gasses bubbling.

If you just want to reduce the water waist you can add baking soda to the bubbler (NaHCO3). It will neutralize the HCL and release CO2

If you are going to use your fuel in a vehicle, especially a modern common rail diesel, then you would be well advised to test each batch of fuel before you put it into your tank. A replacement injection pump can cost the same as a years fuel so its not wise to take risks. There are several tests that you can carry out with only minimal equipment.

Water content test.
To measure water content accurately in fuel you will need to assemble a Carbide manometer. About 30 euro will cover the parts. I invented this device about 4 years ago and Im pleased to say that it has become the standard test used by biodiesel makers all over the world. See the video below to see how it works.
carbide manometer video.wmv - YouTube

Specific gravity.
Low sulphur diesel has a specific gravity of 0.845. Pyrolysis diesel is lighter because of the lack of aromatics but should still measure above 0.800. A lower figure would indicate a greater than normal light fraction. Too much light fraction can cause damage to injectors by pre-ignition and also lack of lubrication leading to excessive wear in the injection system.
To test specific gravity simple accurately weigh ( in grams) exactly one litre of the fuel and divide by 1000.

Flash point test.
Half fill a tin can with fuel. Measure the temp with a thermometer. Pass a blow torch flame quickly over the top of the can. If the fuel does not ignite heat the fuel up by 10 degrees with the blow torch and repeat the flame test. Continue until the fuel ignites. To put the flame out place a plate on top of the can. Diesel should not ignite until it is in the 80 - 90C range. A lower flash point will indicate too much light fraction.

Acid number. PH strips and PH meters only work in aqueous solutions. Hydrocarbons will give a faulty reading. To measure the acidity of a fuel it is necessary to perform a simple titration. You will need a small amount of isopropyl alcohol with a pinch of tumeric dissolved in it as an indicator and a some solution of potassium hydroxide dissolved in distilled water. Exactly one gram in exactly one litre.
Half fill a small shot glass with the indicator and using a syringe add exactly 1ml of your fuel. Stir with a plastic stick, an old pen will do. Now fill another clean syringe with the potassium hydroxide solution and add it drop by drop stirring all the time. Stop when the yellow colour turns red. note the number of ml you have used. this is the acid number. A result of more than 1.5 would be of concern. If the fuel is acidic it may be contaminated by chlorine or florine or sulphurous compounds.

Copper strip test. Bring a small pan of fuel up to 100C. Hang a strip of polished copper on the rim of the pan so that a part of it is submerged in the fuel. Maintain the temp for 3 hours. Remove the strip and compare the discolouration with a strip tested in normal diesel. Greater discolouration indicated more contamination. Different colours of corrosion indicated different types of contamination.

Can we start a list of plastics and their suitability?

ABS - ?
Perspex - ?
Polycarbonate - ?
Polyester - NO
PET - NO (Oxygen)
PVC - CHLORINE (Dioxins)
Polyethylene - OK but Waxy
Polypropylene - Excellent
Polystyrene - Excellent

If a fuel shows a result on the copper strip test it is also likely to show a highish acid number. A bluish result is likely to be chlorine/HCL and a greenish result is likely to be Sulphur/ sulphuric or sulphamic acid. Either way acidic fuel should not be used in a vehicle engine especially where aluminium parts are involved. Better to use it as heating fuel. It may shorten the life of the spray nozzle in the burner but they only cost about 10 euro and should be changed every year anyway.

Thank you! that clarifies things a lot. I assume that from 1a to 2b maybe even 2c would be fine to use in an engine ?

I found a study done in the 80 that suggest that HCL could be extracted from the mix by having ashes and copper as a catalyst in the system therefore reducing the chlorine in the fuel. Not sure exactly where it would be best as the study was about burning of waist that and a high level of PVC. It showed that HCL was most concentrated where ashes and copper where. If you find HCL in the diesel, I would assume it can react at high temperature. Maybe the simplest solution would be to add aluminum the the fuel condenser or fuel storage. Remove the aluminum chloride at the bottom and the released hydrogen could help stabilize the fuel at the same time.

You can greatly reduce your water content by starting to process under vacuum. Not as effective as under extreme pressure, but a hell of a lot simpler and safer. Running the hole process under vacuum would be more effective, but a failure in a seal or a crack in the system and you can have an explosion.

I'll have to research how to reduce the sulfuric acids. I know there used to be sulfur in diesel in the past as a lubricant but not sure in what form.

I better stop know before I start babbling

I have noticed that some of my distillate has come out green, presumably from copper chloride, so maybe it is a good thing to use copper and aluminum components in pyrolysis?
.

I found this process that is used in the refineries already. So I don't think a high level of sulfurs should be an issue in our situation as we are not processing crude.

I have to say I' am now completely confused on the topic of using Copper, specifically Copper Nickel heat exchanger for tire and plastics pyrolysis. This thread strongly warned against using Cu or CuNi 90/10 or 70/30, while others have reported (not in this thread) that CuNi is useful as a catalyst...and now we're hearing that copper may not be as bad as we previously believed. Is there a way to a definitive answer? I made an investment in CuNi heat exchangers and I'm trying to decide on using them versus selling them at a fraction of what I invested, so hopefully the answer will prevent a major loss

Thank You

I was wondering if anyone processed "dirty" plastics. Basically strait from the garbage bin to the retort without cleaning.

How about WMO contaminated with antifreeze ?

I have been using copper and brass plumbing fittings, and aluminum containers, throughout my pyrolysis experiments, and no explosive reactions took place, so using them does not seem to be dangerous, but I also know from experience cracking TCE that copper tubing and fittings are not going to mitigate all of the HCL liberated when cracking a chlorinated hydrocarbon.

.