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Battery electric buses are suffering the cold weather blues

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Battery electric buses are suffering the cold weather blues
Posted by blue streak 1 on Tuesday, December 26, 2023 7:28 PM

Pun intended.  As  others have posted not enough consideration has been made of the limitations of all batter electric vehicles.  Hybrids still to be evaluated.  maybe these all battery buses will need to be converted to handle trolly poles?  

Minnesota Cities Went All-In for Electric Transit, But the Buses Couldn’t Handle the Cold (msn.com)

The class 1 RRs need to also consider this a big problem for road locos.

 

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Posted by samfp1943 on Tuesday, December 26, 2023 9:30 PM

blue streak 1

Pun intended.  As  others have posted not enough consideration has been made of the limitations of all batter electric vehicles.  Hybrids still to be evaluated.  maybe these all battery buses will need to be converted to handle trolly poles?  

Minnesota Cities Went All-In for Electric Transit, But the Buses Couldn’t Handle the Cold (msn.com)

The class 1 RRs need to also consider this a big problem for road locos.

 

FTA:[noted, in part,] [In OP's  linked article] "...The most significant aspect of this story, however -- or at least the one that makes it relevant to readers outside of Minnesota -- involves the perennial unholy alliance between government and business.

In 2021, Metro Transit received a federal grant to purchase a fleet of electric buses from the California-based manufacturer Proterra. Duluth received a similar grant in 2015.

Earlier this year, Proterra filed for bankruptcy despite a public endorsement from President Joe Biden as recently as March 2022..."       

     NOW, there is, apparently,  no service, or mantenance back-up, providedf by Proterra, the EV Bus Manufacturer?

 

        Thanks, BS1 for the article; the last couple of days [Post Cristmas 2023].          A couple of media outlets; have carried running chiron notes. they were regarding not only this EV Bus debacle, but also, cold operational dependability of most EV's.

    There was, also mentioned; that the Federal Government, will be taxing the manufacture, and distribution, of Hydrogen Gas for vehicle operations. Which will, I suspect effect also the operational costs  of Hydrogen powered locomotives ? 

 

 

 


 

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Posted by York1 on Friday, January 5, 2024 1:59 PM

From the article:  "In subzero conditions -- a staple of Minnesota winters -- electric buses operate at only a fraction of their supposed 150-mile capacity."

 

Gee, I guess no one saw this problem coming earlier.  Maybe once they're running again, they can have a sign on the bus door encouraging riders to bring a heavy coat.

York1 John       

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Posted by dpeltier on Friday, January 5, 2024 3:10 PM

blue streak 1

Pun intended.  As  others have posted not enough consideration has been made of the limitations of all batter electric vehicles.

Hardly. It's a well-known issue, and one that people are going to have to work through. That's a lot of the point of these little 8-bus orders supported by grant funding - work out the kinks and find something that works.

The class 1 RRs need to also consider this a big problem for road locos.

I think winter performance should be a non-issue for battery-powered freight locomotives.

The biggest reason that BEV range decreases in winter is the need to supply heat to the cabin. Electricity is needed to run a heat pump or resistive heater, and that electricity comes from the same battery pack that runs the motors. In an automobile driving around town averaging maybe 15 MPH, the energy needed to provide heat is pretty significant compared to the energy needed for propulsion. For a transit bus averaging less than 10 MPH, with a larger surface-area-to-weight ratio, the heating becomes an even bigger suck on the battery, proportionally speaking. By contrast, the energy needed to heat the cabin of a locomotive is totally insignificant compared to what is needed to pull 10,000 tons of freight. So freight locomotives should be fine.

The electrical performance of a battery is not dependent on the weather outside but on the battery temperature. It doesn't take much energy at all to keep a battery pack within its optimal range.

Dan

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Posted by Overmod on Friday, January 5, 2024 5:43 PM

Dan's right; this should have been almost a non-issue.  Ford did the original hard work many decades ago, for the sodium/sulfur battery; Tesla has made battery conditioning (both heating and cooling) a significant part of its charging and regenerative-braking algorithms.  Very, very good (and low-cost) nanoilnsulation is easily available for the necessary blanketing... assuming the designers have provided active pumped heat transfer through the battery cells.

Assuming.

It's certainly far from a showstopping problem... if steps are taken to fix the problem from first principles.

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Posted by blue streak 1 on Thursday, April 11, 2024 7:32 PM

Cannot blame this problem on cold weather.  Antelope Valley transit authority suspends some electric bus operation as charging issues have appeared.

AVTA suspends four commuter routes due to battery issues with electric coaches | Mass Transit (masstransitmag.com)

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Posted by Erik_Mag on Friday, April 12, 2024 1:16 AM

Seems that battery bus technology is still going through the shakedown phase, with at least a few bugs to be worked out. While I think it is a good idea to ahve some on the road to get real world experience to find problems such as the one mentioned in the article, it's still a bit early to mass replacements of diesel or CNG buses with electrics. A good interim step would be hybrid buses, which would reduce fuel consumption as well cleaner running engines.

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Posted by Overmod on Friday, April 12, 2024 4:21 AM

Note that the Antelope Valley folks say there are no reported issues with charging the BYD buses or the paratransit vans.

To me, that points to the detail design of the MCI buses, perhaps with cooling during fast charging.  For the whole fleet to be abruptly taken out of service, with the implicit further note that it will be at least weeks until anything practical can be done, for "safety" reasons would be concerning if it isn't an excuse.

The concern I have technically is that the difference between the BYD and MCI coaches is that the latter are larger, higher-speed vehicles, very similar to what would be practically required for OTR Class 8 truck replacement in California.  This problem is not some little glitch that wasn't caught by a junior engineer during R&D testing.

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Posted by Erik_Mag on Friday, April 12, 2024 10:31 AM

I agree on MCI battery problems being more of a fundamental problem than a design oversight. With respect to fast charging, the hazards include shortening the life of the battery as well safety. There is quite a bit of research on battery technologies that permit fast charging while maintaining the high cycle life needed to make battery buses economical - many stories about silicon electrodes, but time will tell if the promise turns into reality.

One possible source of the problem with the MCI batteries is the temperature monitoring of the individual cells, as the "fuel gauge" algorithm needs precise voltage measurements along with cell temperature. Another possible cause is too much variation in cell temperature in the batteries.

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Posted by BaltACD on Sunday, April 14, 2024 3:22 PM

Battery output is from a chemical reaction - all chemical reactions are affected by dropping temperatures - some more than others.

Had a Triumph TR-4 - at Zero and above it would start no trouble.  BELOW Zero it was a no go.

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Posted by Overmod on Sunday, April 14, 2024 5:44 PM

Thing is that modern traction batteries have had temperature regulation for many years: they are heated to 'optimal' temperature before any traction current is drawn from them, and they're supposed to be regulated via heating and cooling to the right range for their internal chemistry all the while any kind of charging is engaged in.

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Posted by BaltACD on Sunday, April 14, 2024 6:32 PM

Overmod
Thing is that modern traction batteries have had temperature regulation for many years: they are heated to 'optimal' temperature before any traction current is drawn from them, and they're supposed to be regulated via heating and cooling to the right range for their internal chemistry all the while any kind of charging is engaged in.

Theory and Reality - they rarely are the same.  Does the mechanizm used to heat the battery to 'working temperature' use power from the battery that is below working temperature to get to working temperature, thus using a significant amount of the total battery potential in doing so?

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Posted by Erik_Mag on Sunday, April 14, 2024 9:25 PM

Unless the EV in question is plugged into a charger, the battery thermal management system does indeed draw down the battery in order to warm up. A heat pump may be an energy saver here as the output temperature needed to warm the abttery is quite a bit less than for the cabin. Conversely, in very hot climaes such as Phoenix in mid-summer, the battery thermal management system uses battery power to cool the battery, though don't recall if the cooling involves refrigeration.

For areas with cold winters, I think a hybrid EV (car, bus or MU) makes more sense than a pure EV.

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Posted by Overmod on Monday, April 15, 2024 10:16 AM

As you might suspect -- not all EV engineers being fools -- the battery 'heating' is inside heavy thermal insulation, and of course is brought up to 'operating temperature'by a tap from charging current, and can be brought up during periodic recharging enroute if the carrier uses that.

Bus batteries likely have less proportional surface area to mass, and are easier to package with insulation, than (say) an automobile battery shoehorned into an irregular space between the trunk and the back seat.  This is also not like cheap block or oil heaters in light diesel trucks, where careful insulation or hot prelubing aren't enough of a 'thing' to justify the added cost and complexity.

  1. I have my suspicions that the drivers are leaving the coaches 'idling' in cold weather with the lights and heat-pump heating running.  They may also have underestimated the amount of power to operate their longer routes when it is cold or inclement outside -- remember that their other BEVs, including rather large local buses, aren't reported to have trouble.
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Posted by Gramp on Tuesday, April 30, 2024 6:02 PM

Do you think Wabtec's deciding to invest in hydrogen technology signals a reduced role for battery technology for the majority of commercial transportation equipment?

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Posted by daveklepper on Tuesday, April 30, 2024 8:49 PM

Yesterday rode two different battery-electric buses in local service in bJerusalem, the first time two in one day,  The first Egged 34, the second 48A, used to nbe Egged, now Afikim.  No problems that  I am aware of by either operator.  Appreciared the quiet and fast ecceleration.

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Posted by daveklepper on Thursday, May 23, 2024 6:21 AM

About 65% of the non-articulated buses of the Jewish-run Jerusalem local lines are battery-electric niow.   Very few articulateds and none so far in the Ara sector that I've ridden or seen,

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Posted by daveklepper on Friday, August 30, 2024 8:11 AM

Sarel Spyer, a friend in Israel's Interior Ministry responsible for minority welfare, informed all his friends that Israel will have over 2500 battery-electric urban-transit buse by thye tear 2026, over half the number of all urban-transit buses,

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Posted by BaltACD on Saturday, August 31, 2024 7:19 PM

Got to see a Tesla truck IRL!  FUGLY!

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Posted by Erik_Mag on Sunday, September 1, 2024 10:24 PM

One of the very real concerns with any EV using Li-ion batteries is the risk of the batteries spontaneously catching fire. To make matters worse is that Li-ion battery fires are almost impossible to put out. Mitigation is keeping the fire from spreading while it burns out on its own.

An interesting alternative to Li-ion batteries is a Sodium ion battery developed by Natron. These batteries have a higher specific power (i.e. watts/lb) than Li-ion, a much higher cycle life (50,000 cycles from 100% to 0%), don't use cobalt or nickel, and don't spontaneously combust. One downside is that the specific energy is lower than Li-ion, so a battery powered bus would need more frequent recharging, though recharging would be faster than Li-ion. What also remains to be seen is how much these batteries will cost in large scale.

Some back of the envelope calculations suggest these batteries would be a good fit for a hybrid DMU. The hybrid configuration would reduce fuel consumption as much of the energy used in acceleration can be recovered through regenerative braking (saving wear and tear on the friction brakes) as well as speeding schedules with potentially faster acceleration. This assumes that the batteries don't have a problem with the shock and vibration inherent in railcars.

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Posted by JL Chicago on Thursday, September 12, 2024 3:58 PM

It's not just electrics.  My Ford Escape often drops to 19 mpg in 0 degree Chicago weather.  In the summer it's more like 29 mpg.  

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Posted by BaltACD on Saturday, September 14, 2024 8:02 AM

Cold slows everything down - theoretically at Absolute Zero all atoms stop movement.

Batteries are chemical reactions where electrical energy is stored and released on demand - as the temperature drops the chemical reactions slow.

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Posted by Overmod on Saturday, September 14, 2024 5:22 PM

This is very true, but of less practical import to properly-designed BEVs than you might think.

The two 'keys' are effective nanoinsulation around the battery cells and active thermal management of the cells -- they have to be aggressively cooled at times, but that is done relative to an analogue of neutral temperature, so the cell  always runs close to efficient chemical temperature.  In cold weather the battery will be heated off the charging current for the appropriate time to warm it before use; some preferential use of regenerative braking should maintain temperature reasonably well.

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Posted by BaltACD on Tuesday, October 15, 2024 9:00 AM

Overmod
This is very true, but of less practical import to properly-designed BEVs than you might think.

The two 'keys' are effective nanoinsulation around the battery cells and active thermal management of the cells -- they have to be aggressively cooled at times, but that is done relative to an analogue of neutral temperature, so the cell  always runs close to efficient chemical temperature.  In cold weather the battery will be heated off the charging current for the appropriate time to warm it before use; some preferential use of regenerative braking should maintain temperature reasonably well.

Battery using its own energy to heat itself eliminates that amount of energy being available for the intended transportation use of the battery.  The colder the enviornment, the more energy has to be allocated to heating the battery.  

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