Dec-03-2022 05:56 AM
Dec-22-2022 02:55 PM
Dec-22-2022 02:48 PM
Dec-21-2022 09:12 PM
time2roll wrote:Grit dog wrote:And what is Buford T. Justice driving? A 350 mile Tesla?
^Was first thinking how tough it’d be to play real life Smokey n the Bandit if you had to find the Super charger while dodging Smokey Bear.
Then I realized the truck will probably rat itself out if overweight before u even leave the loading dock!
Dec-21-2022 04:10 PM
Grit dog wrote:And what is Buford T. Justice driving? A 350 mile Tesla?
^Was first thinking how tough it’d be to play real life Smokey n the Bandit if you had to find the Super charger while dodging Smokey Bear.
Then I realized the truck will probably rat itself out if overweight before u even leave the loading dock!
Dec-21-2022 01:44 PM
Grit dog wrote:
^Was first thinking how tough it’d be to play real life Smokey n the Bandit if you had to find the Super charger while dodging Smokey Bear.
Then I realized the truck will probably rat itself out if overweight before u even leave the loading dock!
Dec-21-2022 07:02 AM
Dec-21-2022 05:41 AM
ford truck guy wrote:
Nearly sure 82k is gross. After all, with the Federal limit of 80, plus the tolerance of 2000 for EV, the legal payload would be zero.
BTW, where does the 2000 fit in the 12/34/34 idea?
I am almost sure the WEIGHT OF 82,000 is the ACTUAL, loaded weight.. There IS NO WAY the empty combo would weight in that heavy.
my freightliner M2's with 48' Conestoga trailers weight in roughly at 30,000 empty with a payload of 50k.... my old Mack R1 and 45' steel trailer was 27,000 empty. unless YOU NEED a 50,000 battery to go 500 miles ?????:h
Dec-21-2022 05:29 AM
JRscooby wrote:Reisender wrote:
From what I gather the YouTube compressed video test shows a 500 mile trip with 82000 pound tare using 94 percent of the battery. San Diego Fremont.
Most likely just a slip, but a normal 5 axle tractor-semi trailer combination with a tare weight of 82,000 would be totally useless.
I would like to know what real tare is.
Dec-21-2022 04:58 AM
blt2ski wrote:JRscooby wrote:Reisender wrote:
From what I gather the YouTube compressed video test shows a 500 mile trip with 82000 pound tare using 94 percent of the battery. San Diego Fremont.
Most likely just a slip, but a normal 5 axle tractor-semi trailer combination with a tare weight of 82,000 would be totally useless.
I would like to know what real tare is.
I'm wondering if the use of tare in this case, is actual gvw.
I would agree, if that 82k is actual empty tare wieght, it has very little actual payload. My 1509 might have more payload.
Marty
Dec-21-2022 04:45 AM
JRscooby wrote:Reisender wrote:
From what I gather the YouTube compressed video test shows a 500 mile trip with 82000 pound tare using 94 percent of the battery. San Diego Fremont.
Most likely just a slip, but a normal 5 axle tractor-semi trailer combination with a tare weight of 82,000 would be totally useless.
I would like to know what real tare is.
Dec-21-2022 02:31 AM
Reisender wrote:
From what I gather the YouTube compressed video test shows a 500 mile trip with 82000 pound tare using 94 percent of the battery. San Diego Fremont.
Dec-20-2022 05:05 PM
RoyJ wrote:Yes and that 100 miles might be 200 round trip as there may not be Mega Chargers along the route.
If you read the quote closely, it doesn't say actual range is cut form 425 down to 100 miles, just that they'll test on shorter 100 mile routes. Perhaps until there's data to show what's the actual range.
It likely won't be a factor of 4, or even 2. Maybe 425 down to 300 miles. Regardless, it's enough of a range reduction they're willing to test first before sending it out on the same route of a light load.
Dec-20-2022 04:07 PM
RoyJ wrote:Groover wrote:
Personally, I believe that either the quoted VP doesn't have a clue what he is talking about or there is much more to the range reduction than just weight and range. Note that O'Connell never said why the trips would be shorter or why just the initial trips will be shorter. Since he used the term "initially" it is implied that the trucks will eventually be put to work on longer trips.
My personal experience with a Tesla is that weight has almost nothing to do with range. The increased rolling resistance from the extra weight is nearly negligible. There is no way that a legal load would make power consumption increase by a factor of 4.
The reason that ICE engines are affect more by load is that every time they apply the brakes momentum is turned into heat and the only way to replace that momentum is by burning more fuel. An EV turns the motor into a generator which puts the momentum back into the battery for later use. About 10% of the energy is lost as heat but 85 to 90% gets put back to useful work. You can see that in the energy graph where the range actually comes back up when going down hills. You don't see that with ICE engines.
If you read the quote closely, it doesn't say actual range is cut form 425 down to 100 miles, just that they'll test on shorter 100 mile routes. Perhaps until there's data to show what's the actual range.
It likely won't be a factor of 4, or even 2. Maybe 425 down to 300 miles. Regardless, it's enough of a range reduction they're willing to test first before sending it out on the same route of a light load.
Dec-20-2022 03:17 PM
Groover wrote:
Personally, I believe that either the quoted VP doesn't have a clue what he is talking about or there is much more to the range reduction than just weight and range. Note that O'Connell never said why the trips would be shorter or why just the initial trips will be shorter. Since he used the term "initially" it is implied that the trucks will eventually be put to work on longer trips.
My personal experience with a Tesla is that weight has almost nothing to do with range. The increased rolling resistance from the extra weight is nearly negligible. There is no way that a legal load would make power consumption increase by a factor of 4.
The reason that ICE engines are affect more by load is that every time they apply the brakes momentum is turned into heat and the only way to replace that momentum is by burning more fuel. An EV turns the motor into a generator which puts the momentum back into the battery for later use. About 10% of the energy is lost as heat but 85 to 90% gets put back to useful work. You can see that in the energy graph where the range actually comes back up when going down hills. You don't see that with ICE engines.