MIT Says We're Overlooking a Near-Term Solution To Diesel Trucking Emissions

Despite efforts from Tesla, Daimler, Nikola and Siemens to reduce emissions from heavy-duty, diesel-powered trucks, either by producing their own electric- or hydrogen-powered alternatives, "trucking in the U.S. is still driven by diesel-fueled, compression-ignition (CI), internal combustion engines," reports Ars Technica. According to a new paper from MIT researchers, "the best way forward is not to wait for all-electric or hydrogen-powered semis, but to build a plug-in hybrid electric (PHEV) truck with an internal combustion engine/generator that can burn either gasoline or renewable ethanol or methanol." From the report: Such a setup preserves the range and affordability that's expected of diesel long-haul trucks while significantly reducing the emissions associated with diesel. To boot, it's a near-term solution; no waiting for battery weight to fall or hydrogen refueling stations to be installed. [T]here are some distinct problems with all-electric and all-diesel trucks that a hybrid flex-fuel truck could solve. First, freight companies are looking for the cheapest way to transport goods from point A to point B, so expensive electric vehicles don't make short-term economic sense, especially if you're competing with other freight companies using cheaper diesel engines.

Using flex-fuel gasoline-alcohol engines has also been shown to reduce nitrogen oxide emissions by 90 percent, the MIT researchers wrote, if the emissions reduction system on the truck uses a three-way catalyst (TWC) instead of the diesel-focused selective catalytic reduction (SCR). (The paper notes that this isn't theoretical. A 90-percent reduction in tailpipe NOx from diesel has already been achieved in light-duty gas vehicles and in the heavy-duty Cummins Westport 9 liter natural gas engine.) A flex-fuel gasoline-alcohol engine could also help freight companies achieve "both the lowest air pollution and lowest greenhouse gas emissions when the internal combustion engine operates," the paper notes. In addition, "the relative use of battery power, gasoline power, and alcohol power can be optimized for meeting varying prices and availability of these energy sources as a long-haul truck travels through various regions."

Front page Dup!

[ceoyoyo]

It's been a while since we had a both-on-the-front-page dupe!

Re:Front page Dup!

[JustAnotherOldGuy]

I feel privileged just to have been able to witness such a remarkable thing. It'll be a great story to tell my grandchildren, if I ever have any.

Middle answers can't get support

[Kohath]

Shipping companies are only interested in cost and getting the jobs done.

Environmentalists will only accept zero emissions because "we only have 12 years left" (5 months ago).

There's no constituency for half measures and no tolerance for disagreement.

As a former mechanic...

[ElizabethGreene]

As a former diesel mechanic, I would greatly prefer not to have large gasoline tanks hanging off the side of semi trucks. Gasoline is much easier to ignite and burns more vigorously than diesel. Fuel tanks are frequently damaged in accidents, by tire failure, or by road debris. A switch to gasoline means that people will die by fire if this change occurs.

Re:As a former mechanic...

[rtb61]

So you don't want the truck in the shop you want the battery pack in there. It really looks to be the end of long haul. Instead like a relay race a series of short hauls. Drivers going from depot to depot, how quick that swap is, will drive profitability for larger companies. More drivers going for four hours to the next depot and then driving back, the driver owned rig a thing of the past.

The new profit centre for transport companies generating electricity to fuel their vehicles. Depots can be quite simple, just enough space to drop the trailer, so another truck with a fresh battery pack, takes it over. The truck that dropped it off, swaps battery packs, whilst the driver takes a break and then hauls a trailer back to his home destination, with depots along the entire route. Only suits major transport companies that own the vehicles and they will need to carefully manage vehicles and routes, to ensure trucks always available at those relay depots.

A little bit complex but now, the cargo keeps moving and never stops. Who gives a crap about an idle truck, the amount of money it burns is a fraction of the cost of idle cargo. This system keeps the cargo on the move, keeps drivers close to their home base working 2 four hour shifts, with those home bases distributed along major routers and the trucks can keep moving 24/7 depending upon how well they have been routed, constantly swapping drivers and have empty battery packs forked off and full ones forked on.

No space for owner operator in this market at all. The haulage companies now stepping into the renewable energy market to refuel, TAX FREE, when they generate energy to refuel their vehicles, it's no one's business but theirs. Aligned depots with renewable energy generation options smart. So here's one most people wont think of, close to a major pig farm, process that waste to generate methane to run a power station to feed the trucks battery packs, waiting for the next truck to pull in and swap.

Re: Lets not stand on ceremony

[javaman235]

Walmart is leading on electric, with huge turbines at many DCs they want to power trucks for local runs. Long haul takes hybrid.
I can tell you from driving rigs there are two elephants in the room on waste: 1) idle time 2) wasted kinetic energy. 1 You need to decouple AC & heat from engine, and have it powered through mandated electric plugs at truck stops selling kWh for profit, to save $30 a night per truck in idle fuel. 2 is huge, itâ(TM)s shocking to drive hundreds of miles at 9.2 mpg (at 40 tons) on i5 nb in CA, only to watch your avr mpg for the *whole trip* drop to 6.1 when you get into the mountains. Money bleeding through jake brake that could be saved with Prius style regenerative braking.
The real model you need is something like an 10 liter diesel (shrunken from 12-15 normal size but able to drive) plus electric with maybe 90 miles of range on its own, but mostly doing torque assist and regenerative braking.