Battery Ageing Model

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IanL said:
Do the 2016 models have active air cooled batteries? I thought the air cooling fan in the trunk well only appeared in 2017-2018?

Yes, also the 2015 and 2016 models have active air cooled batteries, like the 2017-2018 models.
 
JejuSoul said:
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The Soul EV battery is made by SK Innovation. The Ioniq Electric battery by LG Chem.
Does this mean that before 2017 LG Chem had better battery tech than SK Innovation.
We don't have enough data to compare the newer cars yet.
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The Ioniq Electric battery of the 28 kWh has more Cobalt percentage, that is why these do not degrade as much.
The 38 kWh model has a different chemistry, with less cobalt.

The cells in the Kona Electric are made by LG and use a cathode chemistry known as NMC 622 which stands for a ratio of 60 percent nickel, 20 percent manganese, and 20 percent cobalt. The cells in the Kia Niro EV are similar but are made by SK Innovation.

Here a good overview which EV's use which chemistry.

EDIT: This article suggests to wait for high nickel batteries, like NMCA.

LG Chem is planning NCMA (nickel cobalt manganese aluminum) batteries with 90 percent nickel, 5 percent cobalt, and 1 to 2 percent of manganese and aluminum, respectively, in 2022,” the LG Chem official said.

And here is another great article comparing LFP (Tesla in China) and NCMA: battle of the batteries cost versus performance
 
Excellent summary ZuinigeRijder - the sort of reading a nerd like me likes! :lol:

It's amazing to see the progress happening in the EV sector, I can only imagine where we'll be in the next 5-10 years.
 
ZuinigeRijder said:
...The Ioniq Electric battery of the 28 kWh has more Cobalt percentage, that is why these do not degrade as much. The 38 kWh model has a different chemistry, with less cobalt..
The website PushEVs suggests that the 28 kWh Ioniq Electric battery uses an NMC 523 chemistry.
See :- PushEVs - May 2018 - Most advanced battery cells available
PushEVs said:
I’ve never seen official battery specs of the Hyundai IONIQ Electric where the battery chemistry is stated, therefore I can only speculate on it by looking at its characteristics.

I think it can be a NCM 622 cathode (with improved electrolyte for better thermal stability) or – more likely – a NCM 523 (less nickel and more manganese). The more I think about it, I think it’s the last option.

“LG Chem has also developed the LiNi0.5Co0.2Mn0.3O2 (NCM 523) material, which has some adjustments to the compositions that make NCM.”

http://www.sneresearch.com/_new/eng/sub/sub1/sub1_01_view.php?mode=show&id=947&sub_cat=2

Whatever it is, this chemistry seems to offer better power density and better longevity than ours. Overall I think the 28 kWh Ioniq Electric has a better battery than ours. And also better than the newer 38kWh Ioniq Electric. The reason is obvious. Cobalt is an expensive ingredient, and all manufacturers are trying to reduce the Cobalt content.

The cells in the 64kWh Kona Electric are made by LG Chem and use a cathode chemistry known as NMC 622.
I believe the 38kWh Ioniq Electric battery uses the same NMC 622 cells from LG Chem.
The same manufacturing defect that seems to be occasionally impacting the 64kWh Kona Electric also seems to be impacting the 38kWh Ioniq Electric. see Battery usable Capacity and Safety Margins (Buffers)

All versions of the Soul EV use an NMC 622 cathode by SK Innovation, but they differ slightly over time.
For example the original 2015 - 2017 cars uses E375 cells and the 2017 - 2019 cars uses E400 cells.
The cell capacity increased from 37.5Ah to 40.0Ah.
The 64kWh Niro EV and 64kWh Soul EV use a cell with capacity 60Ah. I think this is the E600.
See :- Comparing Battery Chemistries

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JejuSoul said:
...The Kona 64kWh Electric has a battery by LG Chem.
There seems to be a common fault in the Kona 64kWh Electric where a single cell failure causes a big drop in range.
This happens to new cars with low mileage, so I assume this is a manufacturing defect not deterioration....
The new 38kWh Ioniq Electrics use the same LG Chem cells.
There have also been reports of cell faults. - Battery usable Capacity and Safety Margins (Buffers)

Here is the battery data for a car at 100% SOC. We can see that cell 32 is much lower voltage than the rest.


In a car with a badly degraded cell the voltage of the bad cell will be much higher than the rest while charging and much lower when driving.
Hence this backs up my previous assertion that this is a manufacturing defect not deterioration.

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For a comparison of how the failure rate of the batteries in our cars compare to the Nissan Leaf, I suggest looking at this thread.
Battery Upgrades are very possible
mux said:
Nothing beats the Leaf in speed of degradation. As far as we know, they're the worst, not because of chemistry (see the last paragraph) but because of the BMS/thermals.
The main reasons I would suggest that our battery is doing better are also 'not because of chemistry'.
1/ Kia doesn't sell EVs in Arizona. Both cars die quickly when parked in the heat.
2/ Most Soul EVs are sold in Norway. Both cars survive well in a cooler climate.

The Soul EV has a much longer warranty than the Leaf, so we are getting free replacements, whereas they now have an active independent list of repair shops.



Here is a fully charged video where he talks about getting a new 40kWh battery in a degraded 24kWh MY2011 Leaf

https://www.youtube.com/watch?v=2qPF11PmP8k

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I'm going to push back (just a little) on the "cars die quickly in the AZ heat" type statements. I think it's fair to a point, but I think these cars can run just fine in AZ with proper/typical EV habits. I know there's a long list of failures in AZ, but what I haven't seen is how those cars were treated daily for years (scientific method and all). I bought a used 2015 last Nov that had just had a new battery put in (45k miles). It's now 10 months later and I have zero battery degradation still per ODB2 reader (110 SOH). Sure in the extreme heat the GOM claims less battery efficiency, but I'm still getting 90 realistically in the triple digit summer the few times I've driven it to near empty (rarely). I imagine the above statement might be true with bad charging/managing/driving habits compounding over time. But below are the rules I follow and I think they're the key to keeping it working well in AZ. Some of them are also just standard best practice EV rules.

[*]It sits outside in the heat (no garage room), but is always plugged into L2 with rare exception. This kicks on the venting fan regularly to get some heat out. I still recommend storing it under cover/in a garage if you can.
[*]Having it plugged in regularly also allows me to auto-condition the car in the hotter parts of the day. This kicks on the AC which in turn sends that cool (or warm in winter) air down into the battery cavity as designed (it's scheduled twice daily, I don't use it in the morning I can manually do that).
[*]I only charge to 80% unless I know I have a lot of driving to do the next day.
[*]I've only used the L3 charging twice, just to see how it works and as a test. No EV is meant to be charged via L3 constantly.
[*]I don't go 80 on the freeway all day, this car isn't optimized for that. I just do the speed limit and go over if I need to. I know one of the guys with a failed battery claimed he went 80+ on the freeway all the time, which probably cooked it. I did it once to test the temps via ODB2 and man did it get hot!
[*]I think I've only ever had it get below 20% maybe three times. I just don't usually need to drive it that much per day.

Now fair enough that might seem like a laundry list, but it's all in the recommended list from Kia. And some may say well I don't want to do those things. Fair enough, get a different car and have what you need for your lifestyle. But for those that know the Kia Soul EV is awesome and want it, you can make it work if you can follow the best practice list. I have two Tesla's and still enjoy the Soul for some weird reason. I think it's the upright seating, Android Auto, and cargo space. :D

kia.png
 
Not trying to push back on what you've said, but if you rarely (if ever) run your battery down low and then charging it back to full - your BMS isn't calibrating itself therefor I suspect your 110% SoH isn't an actual number to be trusted. Everything you'll listed suggests this.

Run the battery below 18% then charge to 100% without stopping - then take a SoH reading and report back ;)
 
Well crap I just hit post and it took so long to write it out per work distractions that I timed out and lost it all. So I'll just skip all the scientific method stuff and say I have calibrated it a few times, the most recent of which is two tests last week. The intent of the test was to ignore the GOM and get real world values at two different freeway speeds as well as use ODB2 to check the battery temp difference between them. Spoiler, the battery temps at a constant 75-80 were much higher and I could see that wrecking the battery more. Anyway, I always reset trip A for every drive after a charge so that I can observe the GOM bluffing. And going just by miles driven plus range remaining till it gets low, I'm still getting 90+ in extreme heat, and expect to be back at 110 when it cools down again. My overall point I guess is since I essentially started with a new battery + EV knowledge, it's enabled me to manage and monitor actual degradation in the heat. I'm not saying "no issues ever for anyone", just trying to provide another data point after 10 months in AZ.

First test 75-80mph cruise for 60 miles




Second test next day 65mph cruise (same drive for test accuracy)


 
oldpueblo said:
The intent of the test was to ignore the GOM and get real world values at two different freeway speeds as well as use ODB2 to check the battery temp difference between them. Spoiler, the battery temps at a constant 75-80 were much higher and I could see that wrecking the battery more.

Out of curiosity, what were your observed battery temps at 80mph vs 65mph, and what was the outside temp during each?
 
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oldpueblo - your testing is interesting and informative. However it isn't going to help us much. All cars in Arizona fail. The daytime temperatures in Phoenix are too high for the battery to survive without active liquid cooling.

In more temperate climates the old Soul EVs do not all fail.
My 2015 has done 75,000km shows 185 km range, and still has an SOH of 96%.
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At the 75,000km service official Kia GDS shows SOH of 96%.
Torque shows

photo_2020-11-01_22-1aujgu.jpg


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Another example from the Netherlands.
ZuinigeRijder said:
...This morning I left with 100% and 155 km range...
...my SOH is around 91% with 133,500 km driven (6 years old) ...
 
Hello,
Can anyone with quite a low mileage/high soh post a cell map at any low state of charge ? Like under 5% SOC. It will be helpful for me.
My cell voltages are 3.42 and the car shows 1% SOC.
THANKS
 
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In temperate climates not all original 27kWh Soul EVs fail.
My 2015 has done 82,000km shows 175 km range, and still has an SOH of 96%.

In hot climate zones many of the original 27kWh Soul EVs began failing years ago.
Now it seems even in Norway many are starting to fail.

Here's a 2015 Kia Soul 27kWh degradation test by Bjorn Nyland in Norway.
This car has driven 73,239km. He measures the SOH by doing a range test and assuming the energy consumption figures are accurate.
Not the best way to do this but it won't be far off. 13C temperatures is also slightly cooler than the optimal for testing range.
He guesses 20.9kWh left of the 27kWh original user capacity which is SOH = 77%

https://www.youtube.com/watch?v=DBmVf225ROQ

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Update - A year later, June 2022. Bjorn has done many more of these degradation tests.
In Norway it seems the 2015 Soul EV's lasted 4 years longer than elsewhere, but ultimately they failed there too.



also see

https://www.youtube.com/watch?v=IdI3PkZ_cV8

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There is one outlier to all the battery failures talked about in this thread my blue car is still doing fine.

My blue car is now 7 years old, has driven about 94,000km, and still has the original battery. The official KIA estimate of SOH is 94.9%.
Here's the latest Torque reading. This is from original battery with original BMS. No upgrades to reset the data or alter the algorithm.

photo_2022-06-18_20-2wijj0.jpg


Here's the navi display when last charged to 100% SOC.

photo_2022-06-18_20-25pkjt.jpg


Here is a chart of the battery deterioration measured against distance.



For my car the battery deterioration has not been linear. It began fast but after 40,000km has slowed down.
Going back 7 years to the first page of this thread; this curve is what I hoped would happen for most of our cars. It did not.
Presumably KIA hoped for this too, because in reality the battery deterioration was often much worse and the cost to KIA of all the battery replacements under warranty must be enormous.

There is some info on my other car here - Analysis of a replacement battery.
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JejuSoul said:
For my car the battery deterioration has not been linear. It began fast but after 40,000km has slowed down.

I have sold my Kia Soul EV previous year (7 years old too) in July 2021 (replaced with IONIQ 5) when there was 145000 km on the odometer with still 91% SOH.


batterydeterioration.png


Code:
Date         km     SOH(KDS)   Avg Det    Max Det     Min Det 
13-7-2021   145133   91.2        17.3       19.3        15.2
 
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Here's a link to an article in the British newspaper 'Daily Telegraph'.
Amazingly the 27kWh Soul EV is the best buy. !!!
The electric cars with the best – and worst – battery life if you’re looking to buy in 2022
2017 Kia Soul EV
98.8% battery SOH after 2 years and 8 months
This generation of the Soul EV has a relatively small 27kWh battery with an official range of 132 miles. That figure is achieved under NEDC rules, though, making it even more optimistic than today’s more realistic WLTP figures. Expect a real-world range of about 70-100 miles in real world use depending on the temperature and how you’re driving, but battery life certainly promises to be excellent. Rapid charging is 50kW maximum and via a CHAdeMO socket, though, which is increasingly outdated as the CCS plug type is now the European standard. Not one for long-distance drivers, but otherwise this could be a great used buy.

The article gives very sensible tips.
Top tips for best car battery health : Ways to keep your battery in good health includes running it between 20-80% state of charge in routine use, only using rapid chargers when necessary, not leaving the car plugged in for days when it’s not in use, and not allowing the battery to drop to a very low level of charge.

And makes this claim about battery life.
the average battery retained 93.9% of its performance after three years and 87.9% after six years – this is due to the non-linear nature of battery loss, which dips more quickly in the first few years and then plateaus at a more moderate rate of loss for the bulk of the battery’s mid-life, before dipping again after some 10 to 12 years.

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