The Diesel Technology Forum has issued a statement on the occasion of the U.S. Environmental Protection Agency's (EPA) public hearing concerning heavy duty emissions standards:
At present, electric cars cannot be used to travel to far-away places as their batteries take up a great deal of space. Researchers from the Fraunhofer Institute for Ceramic Technologies and Systems IKTS have now stacked large cells on top of each another to provide the vehicles with more power.
A research team headed by the University of Minnesota has invented a new technology that will help develop automobile tires from grasses and trees in a process capable of shifting the tire production industry toward using renewable resources available in our backyards.
You might think cars with low carbon emissions are expensive. Think again. A newly-published study by MIT researchers shows that when operating and maintenance costs are included in a vehicle’s price, autos emitting less carbon are among the market’s least expensive options, on a per-mile basis.
On most days, the air seems to vibrate at a higher frequency in the labs of West Virginia University’s Center for Alternative Fuels, Engines and Emissions. This week, the work of the center’s engineers, technicians and students is particularly busy.
Car emissions is a high-stakes issue, as last year’s Volkswagen scandal demonstrated. Pressure to meet tightening standards led the carmaker to cheat on emissions tests.
The transportation sector has the capacity to nearly halve its CO2 emissions by 2050 and, hence, to contribute far more than previously thought to mitigate greenhouse gas emissions. Realizing this would require further efficiency improvement and, especially, promotion of public transport in cities, alongside with a large-scale shift to electric cars. These are key findings of a study, in which Karlsruhe Institute of Technology (KIT) was one of the partners and which is now published in the journal “Science”.
Some argue the transportation sector constitutes a major roadblock on the path to avoiding dangerous climate change. Yet, the sector has the capacity to nearly halve its CO2 emissions by 2050, and may therefore be easier to decarbonize than previously thought. Realizing such a major emissions cut would require further efficiency improvements in fuel consumption and, especially, the promotion of public transport in cities, alongside a large-scale shift to electric cars. These are key findings of the new article published in the journal Science.
Ballard Power Systems today announced that it has signed a definitive agreement with Tangshan Railway Vehicle Company, Limited (TRC) for development of a new fuel cell module that will be designed to meet the requirements of tram or Modern Ground Rail Transit Equipment applications.
A Stony Brook University-led research team has received a $1 million grant from the Department of Energy (DOE) to conduct research on Reactivity Controlled Compression Ignition (RCCI), an emerging combustion technology which has the potential to simultaneously reduce fuel consumption and emissions. Research will focus on utilizing onboard fuel reformation to eliminate the need for two different fuels to enable RCCI.
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