Difference between revisions of "Water washing titrated acid method"

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The bit of code below assists indexing on search engines.  Replace "Biodiesel new page" with a very brief description of what the page is about. Then delete this text.
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<metadesc>Water washing titrated method</metadesc>
  
<metadesc>Biodiesel new page.</metadesc>
 
  
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This is a processing method which allows the biodiesel to be water washed and dried within the processor, therefore it is ideal for those with limited space who may not have the room for separate tanks needed for conventional [[water washing]].
 +
To work effectively there needs to be a minimal amount of soap in the biodiesel prior to washing. As such, it is best used with the [[two stage process with no titration]].
  
  
{{WIP}}
 
Use the code above if you are working on the page.  Delete it when the page is finished and complete. Delete this text once you have read it.
 
  
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__TOC__
  
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==Introduction to the method==
 +
In all biodiesel processes, there is a need to remove the soaps, residual processing chemicals, residual [[glycerol]] and any other impurities prior to use. This is normally achieved by either washing them out with water in the [[water washing]] process or by driving off the [[methanol]] which may or not be recovered and allowing the other products to settle out.
  
Brief intro, which can include a thumbnail photo, here ...
+
Both of these methods take time and extra space.  
  
 +
The idea of this method is to safely water wash the [[biodiesel]] whilst still in the processor and immediately after draining the [[glycerol]], with no risk of creating an emulsion.
  
 +
The dreaded emulsion or 'chicken Soup' is created when water and biodiesel mix in the presence of soap - this is, after all, why soap is used to wash oils and greases away with water.
 +
Clearly if we intend to add water to [[biodiesel]] and mix vigorously with a pump then the soaps need to be removed, or turned into something else first.
  
__TOC__
+
Once the soaps are gone, the biodiesel can safely be washed and the impurities drained out. However, the biodiesel will still be wet and will need to be dried before use.
The TOC tag creates a content box. The text it contains is generated automatically based on the page headings.  Delete this text once you have read it.
 
  
 +
Where a settling tank is employed, this method negates the onerous task of periodically removing soap deposits from the tank.  With the titrated acid wash method, usually all that's found at the bottom of a settling tank is residual water and either sodium or potassium sulfate in the form of an intermediate "scum" layer.  If a valved drain is fitted to the settling tank, these can be occasionally drained off without the tank ever needing to be drained.
  
==First heading here==
+
==The process steps==
Text and photo content here ...
+
===Producing the biodiesel===
 +
The first step is to process the biodiesel by your chosen method. Whilst not essential, the [[two stage process with no titration]] method is recommended to minimise the amount of soap to be dealt with. Once as fully converted as possible, drain off all the [[glycerol]]. The fuel is now ready for the second step.
  
[[File:Soap_neutralisation_washing_wash_waster_first_4_washes.JPG|250px|thumb|right|Fabricated venturi body and steel cores]]
 
 
[[File:Soap_neutralisation_washing_sample_during_first_wash.JPG |250px|thumb|right|Fabricated venturi body and steel cores]]
 
  
===First Sub-heading here===
+
===Determining the amount of acid needed===
Ok this is the method i used today,we tried universal indicator so we could tell when it changed to pH 7 as we wanted it neutral,we also tried methanol instead of IPA because the IPA we had was acidic
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[[File:Bromothymol_blue_colors.jpg‎ |250px|thumb|right|Bromothymol blue colours.  Source: Wikipedia]]
 +
It is to carry out a [[titration]] of the fuel to ascertain the amount of acid needed to neutralise the residual chemicals and convert any soaps to free fatty acids.
 +
The [[titration]] fluid needs to be a known concentration of the acid you intend to use for this process.
  
 +
An indicator needs to be used which will clearly show the change from basic (alkaline) to acidic conditions around the neutral point. A suitable indicator which works very well is bromothymol blue, the colours of which are shown on the right in acidic (yellow), neutral (green) and basic (blue) conditions.
  
280 LITRE BATCH
+
To carry out the titration, 50ml of isopropyl alcohol or methanol is placed into a beaker. A few drops of the indicator are added which should turn the solution blue. If the IPA or methanol has become acidic then the solution is 'blanked' by adding one drop of a time of 0.1% Sodium (or potassium) hydroxide solution until the solution has a blue colour).
 +
Then 1ml of the biodiesel is added and mixed well. The solution will stay blue and may even become a stronger blue colour as the excess catalyst in the biodiesel and any soaps will be basic (alkaline) in nature.
 +
The titration fluid is then added slowly and the amount needed to just turn the mixture yellow (acidic) is recorded.
  
(1) Titrate bio
+
This figure can be used to calculate the volume of acid needed if the strength of the titration fluid and the batch size are known.
  
(2) Titration fluid: white vinegar
 
  
(3) 25 ml of Methanol and some Universal Indicator,added 10 ml of bio shake, Green to Blue
+
===Converting the soaps===
 +
[[File:Soap_neutralisation_washing_sample_during_first_wash.JPG |250px|thumb|right|Sample during first wash/sulfuric .  Source: Julian]]
 +
The third step is to wash the biodiesel with the diluted acid in the processor by mixing with the pump.
  
(4) Then add the titration fluid in drips until the colour changes to green/yellow
+
This converts the soap as follows.  If using NaOH as a catalyst and sulfuric acid as a wash, sodium sulfate is produced.  If using KOH with a sulfuric acid as a wash, potassium sulfate is produced.  With hydrochloric acid as a wash, sodium chloride or potassium chloride are produced.
  
(5) Multiply the result by the batch size to get the amount of acid needed
+
If using a weak acid like vinegar then this can be used neat or slightly diluted (diluting a weak acid will make it easier when draining down). If using a strong acid such as concentrated sulfuric acid then this need to be diluted with a substantial amount of water.
e.g. if 0.1ml vinegar used to change colour to neutralize 10ml bio, 10ml vinegar neutralizes 1L 10x280 = 2.8L vinegar
+
If doing this, it is VITAL that the concentrated acid is slowly added to the water.
 +
If water is added to concentrated sulfuric acid, the strongly exothermic reaction will cause the mixture to boil instantly and spit boiling acid out of the container with potentially devastating results.  
  
(6) Add to 30 litres of water and mix with the bio for 25 minutes
+
After mixing, the processor is left to settle and then the acid/water/impurities mixture is drawn off and discarded.
  
(7) Take sample for reference
+
It is important to take a sample immidiately before switching off the processor. This will give an idea when the mixture has settled and also confirmation that a clean split has occurred.
  
[[File:Th_1stwashsettled_zps3b367b25.jpg|250px|thumb|right|Fabricated venturi body and steel cores]]
 
  
[[File:Th_1stsampleunsettled_zpsbe51c872.jpg|250px|thumb|right|Fabricated venturi body and steel cores]]  
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===Water washing===
Delete if not required.
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[[File:Soap_neutralisation_washing_wash_waster_first_4_washes.JPG|250px|thumb|right|First four washes/sulfuric .  Source: Julian]]
 +
 +
The fourth step is to carry out one or more water washes using clean water for short mix periods. This is done until the water comes out clean after settling.
 +
The water washes do not need to be mixed for long and will settle very quickly.
  
 +
The picture on the right shows the progressively improving clarity of the water after each wash.
  
===Second sub-heading here===
 
Text and photo content here ...
 
  
Delete if not required.
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===Draining the wash water===
 +
[[File:Acid wash interface.JPG|250px|thumb|right|Sodium sulfate from the water/biodiesel interface.  Note how the wash water is comparatively clear despite the presence of a very dirty interface layer.]]
  
  
 +
This method usually produces a scum like substance at the water/biodiesel interface, probably sodium or potassium sulfate depending on the catalyst used.  This scum is usually evident even if the bulk of the wash water is clear.
  
 +
It should be drained to a point where wet biodiesel is running clear.  This mix can be set aside to separate and good biodiesel drawn off the top and included in the next batch.
  
  
==Second heading here==
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===Drying the biodiesel===
Text and photo content here ...
+
The fifth and final step is to dry the biodiesel. After drying, the biodiesel should be ready for use, but in practice it's preferable to let it settle in a tank for a week or so to allow any residual sodium or potassium sulfate to settle. Filtering through a fine filter will also assist removal if no settling tank is available.
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Delete if not required.
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==The chemicals needed==
 +
===Solvent for titrating===
 +
Isopropyl alcohol (IPA) or methanol can be used as the base solvent for the titration tests. The biodiesel needs to dissolve into this solvent which limits the choices,if using methanol you will need to shake well and use as soon as possible.
 +
50 ml of this needs to be placed into a clean glass jar or beaker. The exact quantity does not appear to be critical.
  
 +
===Titration fluid===
 +
As with the titration of WVO to find the acid value, the titration fluid needs to be made of the same chemical as you will be using for the acid treatment.
 +
If you wish to use vinegar then the titration fluid should be vinegar diluted to a known concentration with water. If you wish to use sulfuric acid then the titration fluid should be (very) diluted sulfuric acid.
 +
With strong acids, a 0.1% solution (ie 1ml of acid in 1l of water) is fine. For weaker acids it may be prudent to make a stronger solution to avoid having to add large volumes to see a colour change.
  
===First Sub-heading in second heading here===
+
To prevent issues due to local water hardness, it is prudent to use demineralised water when making the titration fluid.
Text and photo content here ...
+
If using strong acids, always add the acid to the water, NEVER add the water to the acid.
Delete if not required.
 
  
 +
===Indicator solution===
 +
[[File:‎ Titration_003.jpg  |250px|thumb|right|Universal indicator L-R Methanol & Universal indicator,With bio added,Vinegar added. Source: KH]]
 +
An indicator is needed which will show the change point when the excess catalyst has been neutralised and the soaps converted to free fatty acids.
 +
Different indicators change at different points but what we are looking for is the sudden change in pH when the alkaline conditions are fully neutralised and the addition of any more acid causes a sudden swing to acidic conditions.
  
===Second Sub-heading in second heading here===
+
Suitable indicators tried so far include bromothymol blue, bromophenol blue and universal indicator.  
Text and photo content here ...
+
Indicators need to be in a liquid state in order that a few drops can be added to solvent base prior to the titration.
  
Delete if not required.
+
===0.1% hydroxide solution===
 +
If, when adding the indicator to the solvent base, the indicator shows acidic conditions then the solvent will need to be blanked.
 +
Achieving this requires a weak alkaline solution and the 0.1% (1g/l) solution of sodium hydroxide or potassium hydroxide commonly used of the titration of WVO is ideal. This is added dropwise until the inidicator shows that the solvent is no longer acidic.
  
 +
===Acid===
 +
Perhaps the most important of the chemicals - it is the acid which removes the soaps and ultimately prevents and emulsion. Any acid can be used although there are some which are not recommended. Nitric acid and hydrofluoric acid are best avoided for safety reasons.
 +
Viable acids range from vinegar and citric acid at the weak end of the scale to hydrochloric acid and sulfuric acid at the strongest end.
 +
96% Concentrated sulfuric acid is readily available from most chemical suppliers & city plumbing supplies fairly cheaply and very little is needed per batch. Vinegar is very readily available and can be sourced cheaply but significantly more will be required per batch.
  
etc etc
+
Phosphoric acid should not be used.  It has been reported that this acid produces sodium phosphate which is a water soluble detergent and not conducive to the process.
  
 +
===Water===
 +
{{#ev:youtube|ZX2jQB-KaYk|240|right|A vinegar first water wash settling out}}
 +
Water is used for two purposes in this process. Firstly, if using strong acids, it is used to dilute the acid prior to introduction to the processsor.
  
 +
Secondly, water is used for the subsequent washes of the biodiesel. Normal tap water is fine for this purpose and there do not seem to be any noticeable effects from varying water hardness.
  
 +
===Example vinegar method===
  
 +
100 litre batch size
  
End the page with the headings below...
+
[[File:Th_1stsampleunsettled_zpsbe51c872.jpg|350px|thumb|left|Sample taken immediately after the first wash/vinegar. Source KH]]
==See also==
 
Use if there are similar pages in the wiki, if not delete.
 
  
* Link within this wiki here
+
[[File:Th_1stwashsettled_zps3b367b25.jpg|350px|thumb|right|First wash starting to settle/vinegar.  Source KH]]
* Link within this wiki here
 
* Link within this wiki here
 
  
 +
An example method using vinegar,universal indicator and methanol as the solvent
  
==References==
+
(1) Carry out a titration in this case 25 ml of methanol and universal indicator
Use if you need to cite reference material you've used , if not delete.
 
  
# First ref here
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(2) Add 10 ml of bio and shake it should go from green to blue
# Second ref here
 
  
 +
(3) Then add the titration fluid in drips until the colour changes to green/yellow
  
==Further reading==
+
(4) Multiply the result by the batch size to get the amount of acid needed e.g. if 0.1ml vinegar used to change colour to neutralize 10ml bio, 10ml vinegar neutralizes 1L 10 x 100 L batch = 1 L vinegar
Use if you can detail any useful reading matter, if not delete.
 
  
* Book details here
+
(5) Add to 10 litres of water and pump mix with the bio for 15 minutes,even though the vinegar is a weak acid using 10 litres of water with it makes it easier to drain visibly
* Book details here
 
* Book details here
 
  
==External links==
+
(6) Turn off pump,close bottom valve and take sample for reference
Use if you can list any useful links on the internet, if not delete.
 
  
* Link outside this wiki here
+
(7) When the sample has settled out drain down the processor
* Link outside this wiki here
 
* Link outside this wiki here
 
  
 +
(8) Add 20 litres of water and mix for 5 minutes
  
 +
(9) Turn off pump,close bottom valve and take sample for reference
  
Originator to sign and date here by using 4 "squiggle marks"
+
(10) Repeat steps 8 & 9 until the water is clear
  
 +
(11) Dry the wet bio diesel
  
<nowiki> ... delete this "nowiki" tag once you have set your categories (it's just there to stop this section getting indexed on the main page!)
+
[[File:‎ Universal_indicator.jpg |250px|thumb|centre|Universal indicator colours]]
  
Add categories ... By using categories your page will get indexed on the wiki main page.
 
  
For Biodiesel ...
 
  
[[Category:Biodiesel]] sets the main category.
 
  
 +
[[User:KH|KH]] 21:32, 12 February 2013 (UTC)
  
Now select one from the following, deleting the others:
+
[[Category:Biodiesel]]
 
 
[[Category:Introduction to Biodiesel]]
 
[[Category:Ingredients and preparation]]
 
[[Category:Processing methods]]
 
[[Category:Processors and equipment]]
 
 
[[Category:Finishing]]
 
[[Category:Finishing]]
[[Category:Safety and Testing]]
 
 
 
Do the same for Veg oil ...
 
 
[[Category:vegetable oil]]
 
 
Select one from the following, and delete the others:
 
 
 
 
[[Category:Filtration & drying equipment]]
 
 
 
 
If your page is applicable to both veg and bio, you can have a total of four category listings.
 
 
Please Note:  To get your page indexed on the main page it is necessary, to got to the main page, click the edit tab and then click save.
 
 
</nowiki>  ... delete this "/nowiki" tag once you have set your categories (it's just there to stop this section getting indexed on the main page!)
 

Latest revision as of 11:20, 25 August 2013


This is a processing method which allows the biodiesel to be water washed and dried within the processor, therefore it is ideal for those with limited space who may not have the room for separate tanks needed for conventional water washing. To work effectively there needs to be a minimal amount of soap in the biodiesel prior to washing. As such, it is best used with the two stage process with no titration.


Introduction to the method

In all biodiesel processes, there is a need to remove the soaps, residual processing chemicals, residual glycerol and any other impurities prior to use. This is normally achieved by either washing them out with water in the water washing process or by driving off the methanol which may or not be recovered and allowing the other products to settle out.

Both of these methods take time and extra space.

The idea of this method is to safely water wash the biodiesel whilst still in the processor and immediately after draining the glycerol, with no risk of creating an emulsion.

The dreaded emulsion or 'chicken Soup' is created when water and biodiesel mix in the presence of soap - this is, after all, why soap is used to wash oils and greases away with water. Clearly if we intend to add water to biodiesel and mix vigorously with a pump then the soaps need to be removed, or turned into something else first.

Once the soaps are gone, the biodiesel can safely be washed and the impurities drained out. However, the biodiesel will still be wet and will need to be dried before use.

Where a settling tank is employed, this method negates the onerous task of periodically removing soap deposits from the tank. With the titrated acid wash method, usually all that's found at the bottom of a settling tank is residual water and either sodium or potassium sulfate in the form of an intermediate "scum" layer. If a valved drain is fitted to the settling tank, these can be occasionally drained off without the tank ever needing to be drained.

The process steps

Producing the biodiesel

The first step is to process the biodiesel by your chosen method. Whilst not essential, the two stage process with no titration method is recommended to minimise the amount of soap to be dealt with. Once as fully converted as possible, drain off all the glycerol. The fuel is now ready for the second step.


Determining the amount of acid needed

Bromothymol blue colours. Source: Wikipedia

It is to carry out a titration of the fuel to ascertain the amount of acid needed to neutralise the residual chemicals and convert any soaps to free fatty acids. The titration fluid needs to be a known concentration of the acid you intend to use for this process.

An indicator needs to be used which will clearly show the change from basic (alkaline) to acidic conditions around the neutral point. A suitable indicator which works very well is bromothymol blue, the colours of which are shown on the right in acidic (yellow), neutral (green) and basic (blue) conditions.

To carry out the titration, 50ml of isopropyl alcohol or methanol is placed into a beaker. A few drops of the indicator are added which should turn the solution blue. If the IPA or methanol has become acidic then the solution is 'blanked' by adding one drop of a time of 0.1% Sodium (or potassium) hydroxide solution until the solution has a blue colour). Then 1ml of the biodiesel is added and mixed well. The solution will stay blue and may even become a stronger blue colour as the excess catalyst in the biodiesel and any soaps will be basic (alkaline) in nature. The titration fluid is then added slowly and the amount needed to just turn the mixture yellow (acidic) is recorded.

This figure can be used to calculate the volume of acid needed if the strength of the titration fluid and the batch size are known.


Converting the soaps

Sample during first wash/sulfuric . Source: Julian

The third step is to wash the biodiesel with the diluted acid in the processor by mixing with the pump.

This converts the soap as follows. If using NaOH as a catalyst and sulfuric acid as a wash, sodium sulfate is produced. If using KOH with a sulfuric acid as a wash, potassium sulfate is produced. With hydrochloric acid as a wash, sodium chloride or potassium chloride are produced.

If using a weak acid like vinegar then this can be used neat or slightly diluted (diluting a weak acid will make it easier when draining down). If using a strong acid such as concentrated sulfuric acid then this need to be diluted with a substantial amount of water. If doing this, it is VITAL that the concentrated acid is slowly added to the water. If water is added to concentrated sulfuric acid, the strongly exothermic reaction will cause the mixture to boil instantly and spit boiling acid out of the container with potentially devastating results.

After mixing, the processor is left to settle and then the acid/water/impurities mixture is drawn off and discarded.

It is important to take a sample immidiately before switching off the processor. This will give an idea when the mixture has settled and also confirmation that a clean split has occurred.


Water washing

First four washes/sulfuric . Source: Julian

The fourth step is to carry out one or more water washes using clean water for short mix periods. This is done until the water comes out clean after settling. The water washes do not need to be mixed for long and will settle very quickly.

The picture on the right shows the progressively improving clarity of the water after each wash.


Draining the wash water

Sodium sulfate from the water/biodiesel interface. Note how the wash water is comparatively clear despite the presence of a very dirty interface layer.


This method usually produces a scum like substance at the water/biodiesel interface, probably sodium or potassium sulfate depending on the catalyst used. This scum is usually evident even if the bulk of the wash water is clear.

It should be drained to a point where wet biodiesel is running clear. This mix can be set aside to separate and good biodiesel drawn off the top and included in the next batch.


Drying the biodiesel

The fifth and final step is to dry the biodiesel. After drying, the biodiesel should be ready for use, but in practice it's preferable to let it settle in a tank for a week or so to allow any residual sodium or potassium sulfate to settle. Filtering through a fine filter will also assist removal if no settling tank is available.









The chemicals needed

Solvent for titrating

Isopropyl alcohol (IPA) or methanol can be used as the base solvent for the titration tests. The biodiesel needs to dissolve into this solvent which limits the choices,if using methanol you will need to shake well and use as soon as possible. 50 ml of this needs to be placed into a clean glass jar or beaker. The exact quantity does not appear to be critical.

Titration fluid

As with the titration of WVO to find the acid value, the titration fluid needs to be made of the same chemical as you will be using for the acid treatment. If you wish to use vinegar then the titration fluid should be vinegar diluted to a known concentration with water. If you wish to use sulfuric acid then the titration fluid should be (very) diluted sulfuric acid. With strong acids, a 0.1% solution (ie 1ml of acid in 1l of water) is fine. For weaker acids it may be prudent to make a stronger solution to avoid having to add large volumes to see a colour change.

To prevent issues due to local water hardness, it is prudent to use demineralised water when making the titration fluid. If using strong acids, always add the acid to the water, NEVER add the water to the acid.

Indicator solution

Universal indicator L-R Methanol & Universal indicator,With bio added,Vinegar added. Source: KH

An indicator is needed which will show the change point when the excess catalyst has been neutralised and the soaps converted to free fatty acids. Different indicators change at different points but what we are looking for is the sudden change in pH when the alkaline conditions are fully neutralised and the addition of any more acid causes a sudden swing to acidic conditions.

Suitable indicators tried so far include bromothymol blue, bromophenol blue and universal indicator. Indicators need to be in a liquid state in order that a few drops can be added to solvent base prior to the titration.

0.1% hydroxide solution

If, when adding the indicator to the solvent base, the indicator shows acidic conditions then the solvent will need to be blanked. Achieving this requires a weak alkaline solution and the 0.1% (1g/l) solution of sodium hydroxide or potassium hydroxide commonly used of the titration of WVO is ideal. This is added dropwise until the inidicator shows that the solvent is no longer acidic.

Acid

Perhaps the most important of the chemicals - it is the acid which removes the soaps and ultimately prevents and emulsion. Any acid can be used although there are some which are not recommended. Nitric acid and hydrofluoric acid are best avoided for safety reasons. Viable acids range from vinegar and citric acid at the weak end of the scale to hydrochloric acid and sulfuric acid at the strongest end. 96% Concentrated sulfuric acid is readily available from most chemical suppliers & city plumbing supplies fairly cheaply and very little is needed per batch. Vinegar is very readily available and can be sourced cheaply but significantly more will be required per batch.

Phosphoric acid should not be used. It has been reported that this acid produces sodium phosphate which is a water soluble detergent and not conducive to the process.

Water

A vinegar first water wash settling out

Water is used for two purposes in this process. Firstly, if using strong acids, it is used to dilute the acid prior to introduction to the processsor.

Secondly, water is used for the subsequent washes of the biodiesel. Normal tap water is fine for this purpose and there do not seem to be any noticeable effects from varying water hardness.

Example vinegar method

100 litre batch size

Sample taken immediately after the first wash/vinegar. Source KH
First wash starting to settle/vinegar. Source KH

An example method using vinegar,universal indicator and methanol as the solvent

(1) Carry out a titration in this case 25 ml of methanol and universal indicator

(2) Add 10 ml of bio and shake it should go from green to blue

(3) Then add the titration fluid in drips until the colour changes to green/yellow

(4) Multiply the result by the batch size to get the amount of acid needed e.g. if 0.1ml vinegar used to change colour to neutralize 10ml bio, 10ml vinegar neutralizes 1L 10 x 100 L batch = 1 L vinegar

(5) Add to 10 litres of water and pump mix with the bio for 15 minutes,even though the vinegar is a weak acid using 10 litres of water with it makes it easier to drain visibly

(6) Turn off pump,close bottom valve and take sample for reference

(7) When the sample has settled out drain down the processor

(8) Add 20 litres of water and mix for 5 minutes

(9) Turn off pump,close bottom valve and take sample for reference

(10) Repeat steps 8 & 9 until the water is clear

(11) Dry the wet bio diesel

Universal indicator colours



KH 21:32, 12 February 2013 (UTC)