Re-hydrating the battery modules.

Discussion in 'Gen 2 Prius Technical Discussion' started by Britprius, May 6, 2015.

  1. royfrontenac

    royfrontenac Active Member

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    I will try that later to-day. The Gen 2 cell(in the pictures) now has a voltage around 6.5 volts as it sits dry. I will get some drain cleaner and try to make a mixture - do you want it with just plain distilled water or a mixture with drain cleaner?
     
  2. Britprius

    Britprius Senior Member

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    You could try with just plain water to start as this would show if it is necessary to use any chemical. If you have two modules open perhaps you could try one with and one without. This would be extremely helpful to be able to do a rough comparison between the two seeing what capacity gains there are and how it affects internal resistance. These are things I would do if I had modules to work with.

    John (britprius)
     
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  3. royfrontenac

    royfrontenac Active Member

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    I will cut the top off another Gen 2 module and fill one with distilled water and the other with your mixture.I have 2 chargers that are identical and can charge and discharge up to 10 amps and give the capacity for charge and discharg. What currents yo charge and discharge?
     
  4. Britprius

    Britprius Senior Member

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    No need to cut the top off another module. You could try my method with 2 holes for the plain water version so you will not have any risk from spillage when filling.
    I used a 3 amp charge but you can use 5 amps if you wish, but charge long enough for the modules to feel warm (about 100F or so) . Charge minimum of 9000 mah
    On the first discharge I discharged at 5 amps down to 5.4 volts, on the second discharge I did the same again, but at 5.4 volts I reduced the current to 300 ma and continued the discharge down to 3 volts.
    I then charged the modules again then discharged at a regulated 10.5 amps down to 6 volts and timed to get the capacity. My discharge lasted 41 minutes. Calculation:- (41 X 10.5) divided by 60 = 7175 mah
    I realize you will use a hobby charger to find the capacity, and may not be able to discharge at that high rate.

    John
     
    #44 Britprius, May 8, 2015
    Last edited: May 8, 2015
  5. royfrontenac

    royfrontenac Active Member

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    What would you see the charge and discharge currents
    I have 2 styles of chargers - one will do 4 modules at a time but is limited to 5 amp charge and 1 amp discharge.
    The second style is a charger that only does one module at a time but can charge at 10 amps and discharge at 10 amps - I have 2 of these - they are used by hobby people to charge and discharge electric racing cars.

    Have to go now - working on new ashphault roof for my garage. Will find time to do the tests but may be a few days for results.

    Roy
     
    #45 royfrontenac, May 8, 2015
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  6. Britprius

    Britprius Senior Member

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    I would use the second version if you can set the charge and discharge to 5 amps for two cycles. At the end of the second cycle discharge to 3 volts at around 300 ma (you could use a car side lamp bulb for this if it is easier). Then set the charger to do another 5 amp charge and a discharge of 5 or 10 amps down to 6 volts for capacity check to suit yourself.

    John
    merged
    I just appreciate your help. Work has to come first.

    John
     
    #46 Britprius, May 8, 2015
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  7. royfrontenac

    royfrontenac Active Member

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    OK - will get back to later - got to go for now

    Roy
     
  8. Britprius

    Britprius Senior Member

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    A number of people have asked about the type of screws to use. Any steel or plastic machine screws could be used, but avoid nickle plated or plated in general as any plating may react with the electrolyte as will possibly some forms of stainless steel with nickle as a component.
    If in doubt leave a screw in some mixed chemical for a few days to see if any reaction occurs.
    Even screws without heads such as "Allen" key driven grub screws could be used as it is not the screw head that is being used to seal the hole. Although I agree this could add to the sealing effect if some sealing compound or soft washer is used under the head.

    John (Britprius)
     
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  9. strawbrad

    strawbrad http://minnesotahybridbatteries.com

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    Here is a link to the instructions for the Gen I battery sealing recall.

    http://techno-fandom.org/~hobbit/cars/TIS/ileaf/toyssc/toysspdf/sscsourc/2004/40g/40gtech.pdf

    On page 52 the case material is listed as a blend of (PPE/PP/HSBBC/HSISC).

    Also on page 52 it states that oxygen is produced on overcharge and hydrogen is produced on over discharge.

    I propose that what leaks out is the 100 psi oxygen and hydrogen gas. If this is true then adding just water should be enough.

    Brad
     
  10. ChapmanF

    ChapmanF Senior Member

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    Oh, swell ... I thought I had some familiarity with resin types, PP is the only thing in that alphabet soup I even recognize!

    -Chap
    merged
    How? Where will that pressure come from?

    -Chap
     
    #50 ChapmanF, May 9, 2015
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  11. Britprius

    Britprius Senior Member

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    External air pressure is generally considered to be 14.7 lbs per sq inch. This equates to approximately 1/3 of an imperial ton on both sides of the module with the module evacuated. The cell plates are tightly packed like a pack of cards between the module outer walls.
    When the modules are stacked and clamped in the battery it is the vertical cell separator walls of the cells that take the clamping forces via vertical ribs on the outside of the module.
    The outer side cell faces are almost supported against each other by almost pinhead size raised spots. If you peer down between two modules these raised spots do not actually touch, but have a gap of about 10/1000 inch. This allows the side walls to flex outwards about 5/1000 inch each when under pressure, and then support each other. A straight edge placed along the outside of a module will slide along the wall ribs without touching the raised spots unless there is pressure in the cells. These ribs can clearly be seen in the picture below borrowed from Roy's post.
    Since all the cells in a module are connected by the vent mechanism all the cells in the module will be at the same pressure.
    This structure allows for greater surface area and air passage for cooling.
    .Gen 1 and 2 Battery modules 001.JPG

    John (Britprius)

    Roy if possible could you measure 10 ml of water and put it in one cell of the module with the top removed. This will give me a base line of how high this will fill the top of the cell.

    John
     
    #51 Britprius, May 9, 2015
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  12. ChapmanF

    ChapmanF Senior Member

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    Ok, I guess that's the part that answered my question. :)

    I suppose it might be possible to work out the less-than-maximum vacuum that would draw fluid in until the volume of unevacuated air equalled the desired final volume of expansion space. That would reduce the vacuum needing to be applied (and maybe save the draw-fluid-back-out step). The needed vacuum could be reduced simply by raising the jug of electrolyte supply higher.

    -Chap
     
  13. Britprius

    Britprius Senior Member

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    There is another problem with only filling through one hole, and I am not trying to disparage the method only pointing out the possible problems.
    You have no way of guaranteeing that all cells will be filled to the same level. An air lock at any point in the very small openings between cells will upset everything.
    I thought of many scenarios trying to accomplish the same thing. This is why I have a home made vacuum tank sitting doing nothing as I was considering filling the modules in the same way as I used to fill printer ink cartridges.
    You can by pulling a complete vacuum guarantee filling all the cells, but this is not desirable. You then find it is all but impossible remove equal amounts of fluid from each cell.
    I am not saying you cannot do it by a vacuum method but is it worth the extra complexity given that all the equipment used must be capable of handling the caustic solutions involved to save one hole. This rules out brass zinc copper stainless, and aluminium. KOH even eats glass.

    John
     
    #53 Britprius, May 9, 2015
    Last edited: May 9, 2015
  14. Mendel Leisk

    Mendel Leisk Witness Leader

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    Seems analogous to the 12 volt batteries, that used to have more accessible screw-in ports, and it was expected a top-up would be needed occasionally.
     
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  15. Britprius

    Britprius Senior Member

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    Back in the 50's I had some NiFe ex government cells. These were welded steel cases vitreous enameled with a center steel plug for topping up the electrolyte sealing the cell completely . They were filled with NaOH and had a voltage if I remember correctly of 1 volt. They were about the same size as a single Prius cell. They were virtually indestructible, but there energy density was very low.

    John.
     
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  16. royfrontenac

    royfrontenac Active Member

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    10 ml - nothing above top of battery
    20 ml - just at the top of the battery
    25 ml- 8 mm of water above the battery

    Note - I did not wait for the fluid to be absorbed into the battery when taking readings.
     
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  17. Britprius

    Britprius Senior Member

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    Thanks Roy that is just the sort of information we need. So 22 to 23ml would appear optimal.

    John
     
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  18. strawbrad

    strawbrad http://minnesotahybridbatteries.com

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    I tried module rehydrating years ago when Bob Wilson was first experimenting. After adding about 20ml of water per cell I had a module vent. It was a nasty enough experience that I stopped the experiment. No injuries, but if you have a module vent just walk away! Others have reported success with just 2 to 3ml of water. Lots of testing needs to be done. Weighing modules has been suggested as a means to determine electrolyte loss. I could not establish a correlation between module weight and amp hour capacity loss.

    Please conduct these experiments in a well ventilated space. I recommend having tubing connected to the vents. Be careful !

    Hole placement and resealing are the simple parts of this puzzle. Screws have been reported to work. Others have claimed success with remelting the plastic. The PPE/ PP is a thermoset plastic. Six holes (one for each cell) is not a big deal.

    The more challenging questions are. What needs to be added and how much? How little can be added to revive a module? Is distilled water enough? What modules can be brought back? Is rehydrating a cure for self discharge? Will this fix last a reasonable amount of time?

    Pictured is a module that suffered from self discharge of just one cell. Is the one cell dehydrated? Well placed holes could be used for both rehydrating and measuring modules at the cell level. So much testing to be done with so little time.

    I have lots of junk Gen I modules. I will send samples to anyone in the US that will test and share their results.

    Brad DSC00052 (copy).JPG
     
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  19. Britprius

    Britprius Senior Member

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    Thanks for the warning on module venting. I think there are a number of likely reasons why this can happen, but also why I encourage the initial charging cycles with the modules still unsealed.
    Likely reasons are:-
    Over filling the cells. This will cause pressure to rise quickly,and when the module vents to vent fluid.
    Charge rate to high particularly near the end of the charge cycle.
    The third and most likely reason is a sticking safety relief valve "perhaps" exacerbated by over filling.

    Something I notice when doing the pressure tests that I did not pay much attention to at the time was that when the stuck valves initially opened. There was a loud pop followed by a decaying hiss until the pressure dropped to 80 psi at which point there was no evidence the valve was venting apart from the fact that the pressure was being held steady with the compressor running. Subsequently when testing the pressure went up to 80 psi and just stopped rising. There was no "pop or hissing" the valve opened gently steadily releasing the pressure from the running compressor. The output volume from the compressor would be much more than the cells gassing.

    Perhaps I should amend my post to make releasing the safety valves a mandatory part of the process. The alternatives are to charge cycle with the modules still open as suggested in my post. This also removes the need to clamp and eliminates any chance of bloating. If it is desirable for some reason to charge with the modules sealed " and this would apply even if the modules have not been "re-hydrated" to fit a hose to the module vent with the open end of the hose in a bucket of water. Thus greatly diluting any escape of fluid to a safe level, and capturing any small droplets stopping any risk of breathing them in.

    John (Britprius)
     
    #59 Britprius, May 10, 2015
    Last edited: May 10, 2015
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  20. hybridbatt

    hybridbatt Junior Member

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    Just remembering back to fire extinguishers & ullage space so i guess the key is to leave enough ullage space so only gas/air vents out at 80psi. However I can definitely independently verify the 80psi figure (clamped in a vice)