Actually i think many 46xx cell samples do not assume the use of bottom cooling, the bottom of the cell is often electrically (and thus thermally) insulated. The reason why this is the case from my point of view is that automakers try to achieve the lowest possible height of the battery box, where bottom cooling simply adds at least a few extra mm of height. I.e. the cylindrical format is also well suitable for side cooling.
Source: Redirecting
Yes, many have vents on the bottom. They generally are designed for side cooling and same-side busbars.
For anyone interested, here's a related paper that I finally managed to get a copy of:Here's something very nice for you all
Source: International Battery Seminar | March 17-20, 2025 | Orlando, FL
Man, this presentation will be golden:
2:20 Ultrafast Laser Processing of Battery Electrodes for Faster Charging and Improved Electrolyte and Electrode Wetting Ryan Tancin, Staff Scientist, National Renewable Energy Laboratory Ultrafast lasers can be used to create micro-structures in battery electrodes that provide homogeneous wetting and greatly improve high-rate charging. Our cost-analysis simulations using the Battery Performance and Cost model indicate that adoption of ultrafast-laser electrode processing adds minimal additional cell costs, approximately $1.50/kWh. We present a detailed characterization of experimental laser ablation for common battery electrodes, enabling informed choices of laser parameters and accurate predicting of processing throughput.
I wonder what sort of cost that adds to the cell manufacturing process?
Thanks!
Sadly, no.
While we wait for the email, here's a paper detailing only the coating: https://advanced.onlinelibrary.wiley.com/doi/full/10.1002/aenm.202102618
www.upgradeenergytech.com
It's always funny seing 800 cycles at 80% DOD.
I'd say 80% is a more realistic use cycle, most packs/BMS are configured to not allow true 100% cycling and most people don't even use 100% of what is allowed each cycle.
Sci-hub is your friend when pesky publishers hide papers behind paywall. Depending on where you live, sci-hub may not be accessible but if you use Thor browser or a VPN you can get access to virtually every research paper on the planet. Science for all, a it should be.
That only works for old papers since they stopped hosting new papers being sent by people.
fair enough, I guess I never tried to use it on extremely recent papers. I just did and can confirm, nevermind :/
LMFP, our savior.
interestingengineering.com
www.newswire.ca
It's far easier to make specialized packs that excel in their respective areas, especially when it comes to cost and cycle life.
A 300 Wh/kg cell with 700 cycles could easily make a 500 mile EV, 700 x 500 = 350,000 miles, which is longer than most vehicles last. The added complexity and cost of managing two different chemistries with opposing characteristics seems as if it would negate any perceived benefits.
Mybe in terms of having a electric sports car. You have the high energy density batteries when you want high range and you have the high power batteries for high accelerarion and track times
Except the high energy density batteries keep the weight lower and by increasing the kWh of the pack even a lower C rate chemistry can still put out plenty of power because of the increased pack size. For example 10C from a 50kWh pack is the same as 5C from a 100kWh pack but the 100kWh pack doubles your range.
I wouldnt say there are high energy density cells that have 5C, more like max 2-3C, looking at the data on nkon.nl for 21700 cell format
