CastMetal said:
There is always data, "hard data" is a funny term because the data is always subject to interpretation(manipulation). I don't dispute GMI's "hard facts" from the epa I'm sure they are correct. However he makes one important assumption in regards to this discussion. That once EV become a significant portion of the automotive fleet we will still be using the existing coal fired power plants, which thereby increases our pollution output per mile. Regulations for new plants are set at 1.6lbs of NOx /MWh and some are already operating at 0.7lbs/MWh which would bring it inline with the pollution levels of current automotive standards.
That is a really promising study CastMetal, thanks for sharing. It looks like coal does have much potential for being a clean way to meet our future energy needs. It is also a good point that my assumption was using our current average emission rates, and I do expect that these will improve, just as the traditional ICEs will improve with the next generation of standards also. I just wanted to show that the “zero emissions vehicle” label is a bit misleading, and that currently coal generated power isn’t really a green method to charge EVs.
moltenmetal said:
GMIracing also misses the point that broadcast emissions of NOx from a tall stack on a coal power plant are very different than emissions from tailpipes at ground level in urban centres. Equal concentrations emitted at these two locations result in VERY different concentrations at the "point of impingement", i.e. my mouth and nose as I breathe them in. Not that "dilution is the solution to pollution", but POI concentrations are what matter to people. Continuous emission control and monitoring on the coal plant stack is also possible, whereas the best you can do with the vehicle tailpipe is to monitor about every 2 years.
Also a very good point you have moltenmetal, and I am not that familiar with the dynamics of emission gasses. I guess the idea I was trying to present is, that by replacing traditional Tier2Bin5 ICEs for the newest EVs, we would be moving 500,000 sources of “micro” pollution that is spread over a rather large city, to a single source point and at possibly increased quantities. Maybe it is better for the city, but what about inhabitants near the area of generation? Does releasing pollutants out a stack mean that someone downwind won’t have to breathe them in significantly higher concentrations? As for monitoring, all federal compliance must be demonstrated by the OEMs to meet the standard for a lifetime of 150k miles. Outside of those that tamper with the equipment and violate the laws, monitoring isn’t necessary.
beej67 said:
Do you happen to know how much effluent is produced by the process of refining crude into gasoline? If we're talking about total pollutant load from powering cars with alternative sources, that certainly has to go into the equation as well.
Quite right, I’ve drove by enough refineries to know with my nose that everything coming out of them isn’t all rainbows and butterflies, but I don’t know the details without researching it. I simplified my boundary conditions for the calculation, because the equation grows rather complex when looking at it in a “raw material-to-driven mile” complete cycle analysis for both traditional and alternative sources. Finding, shipping, refining, shipping, and finally burning petroleum for transportation is an energy intensive and possibly quite dirty process. But EVs are not saints either. Lithium for the batteries is mined, creating a possible source of pollution. The increased electrical demand will also have to be generated somehow. Coal and gas are likely going to provide a majority of these increasing demands, at least for the short term, and they have to find their way out of the earth in huge operations and then be transported to the source of use. I wonder how much pollution is produced by the typical coal mining operation?
To get back to the original post: I wonder if California has any idea how their infrastructure will meet their “mandate” of 1.4 million cars. More back of the napkin calculations, 1.400.000 x 5kW-h nightly (20 miles at 250W/mile) = additional 7,000MW-h of energy per day, or = ~2500GW-h per year Will they be able to ramp up additional renewable energy in the same 2025 timeline?
I realize that California has a historical problem with smog and pollution, but I fail to see how this “mandate” does anything to really improve their current situation? The mandate will force the manufactures to insure that they are compliant at whatever means necessary, and they will then transfer the cost onto the consumer. This will most likely increase all new car costs across the board, which will then cause the less affluent to hold on to their older polluting cars even longer. Wouldn’t it be a quicker improvement in air quality by offering incentives to update the true problematic older vehicles today instead of forcing the well off to buy a new EV (with a generous $7500 Fed kickback of course) and then wait for another 10-15 years for them to trickle down to the owners of the current dirty cars? Another question, will these EVs even last 10-15 years?
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