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Heavy Duty Trucking  /  April 7, 2016

Cummins has been awarded a $4.5 million grant from the U.S. Department of Energy to develop a Class 6 commercial plug-in hybrid electric vehicle.

The trucks must reduce fuel consumption by at least 50% compared to conventional Class 6 vehicles. Cummins is partnering with Paccar on the project as well as representatives from Ohio State University, National Renewable Energy Laboratory and Argonne National Laboratory.

Cummins researchers will optimize the powertrain by choosing the best suited engine for use with an electric commercial vehicle range extender that will be integrated with the electrified powertrain and other technologies.

Cummins intends to achieve fuel consumption reduction that will meet or exceed expectations in a wide range of drive cycles in order to meet a variety of fleet needs. In addition to the electrification of the powertrain, Cummins will also optimize the internal combustion engine and use other technologies such as intelligent transportation systems and electronic braking.

"The close integration and control of the electrified powertrain with an appropriately selected engine is critically important to developing a plug-in hybrid electric vehicle system," said Wayne Eckerle, vice president of research and technology at Cummins. "We believe that through the team’s efforts we can soon make these innovations commercially available, which has the potential to translate into substantial savings annually per vehicle, helping our customers and the environment."

 

Cummins Press Release - http://social.cummins.com/cummins-led-team-develop-plug-in-hybrid-reduces-fuel-50-percent/

Cummins-led team awarded $4.5M to develop Class 6 PHEV that reduces fuel use by 50%

Green Car Congress  /  April 7, 2016

Cummins has been awarded a $4.5-million grant from the US Department of Energy to develop a Class 6 commercial plug-in hybrid electric vehicle that can reduce fuel consumption by at least 50% over conventional Class 6 vehicles.

When fully loaded, Class 6 vehicles weigh between approximately 19,000 and 26,000 pounds; typical examples include school buses or single-axle work trucks.

With their expertise in internal combustion engines and related products, Cummins researchers will optimize the powertrain by selecting the engine with the best architecture to use as an electric commercial vehicle range extender, using the engine to manage the charge level of the all-electric drive battery pack.

The range extender will be integrated, using advanced vehicle controls, with the electrified powertrain and other applicable technologies.

Ultimately, the researchers aim to demonstrate improved fuel consumption and state of the art drivability and performance regardless of environmental conditions.

Cummins is partnering with PACCAR on the project, and the full team includes representatives from The Ohio State University, National Renewable Energy Laboratory and Argonne National Laboratory.

The close integration and control of the electrified powertrain with an appropriately selected engine is critically important to developing a plug-in hybrid electric vehicle system. We believe that through the team’s efforts we can soon make these innovations commercially available.

—Wayne Eckerle, Vice President, Research and Technology, Cummins

The reduction of fuel consumption will be met or exceeded during a wide-range of drive cycles designed to meet the needs of a wide variety of commercial fleet operators. The fuel reduction goals will be achieved through the use of an electrified vehicle powertrain, optimization of the internal combustion engine operation, and other technologies including intelligent transportation systems and electronic braking.

 

Related reading - http://www.greencarcongress.com/2016/03/20160302-supertruck.html

 

  • 6 months later...

Cummins working on two medium- and heavy-duty PHEV projects; Class 6 truck, Class 7 and 8 buses

Green Car Congress  /  November 3, 2016

At the SAE 2016 Range Extenders for Electric Vehicles Symposium this week in Knoxville, Gary Parker, Director of Electromobility programs for Cummins, Inc. outlined two of the plug-in hybrid projects in which the engine manufacturer is currently involved.

The first project, in partnership with the Ohio State University, Paccar, NREL and Argonne National Laboratory and funded with $4.5 million from the DOE, is to develop a Class 6 commercial plug-in hybrid electric vehicle that can reduce fuel consumption by at least 50% over conventional Class 6 vehicles. (Earlier post.)

Cummins researchers will optimize the powertrain by selecting the engine with the best architecture to use as an electric commercial vehicle range extender, using the engine to manage the charge level of the all-electric drive battery pack. The range extender will be integrated, using advanced vehicle controls, with the electrified powertrain and other applicable technologies.

The second project, in partnership with TM4, STL (Société de transport de Laval, the public transit system in the city of Laval, Québec) and IVI (Innovative Vehicle Institute, a non-profit research center), is developing two different models of a plug-in hybrid bus, using different battery chemistries and charging schemes.) The plan with this project, said Parker, is to let the two different chemistries—LTO and NMC—compete head to head for more than a year, and see which one wins.

LTO is a power battery, handles high C rates and has good durability, Parker said. NMC has double the energy capacity and is attractive from a cost point of view, but carries risk in performance and durability. Both chemistries meet the performance targets.

Parker drew an analogy to this approach with Cummins’ history. In 1934, Clessie Cummins brought two cars to the Indianapolis 500—the two-stroke Nº 5 and the four-stroke Nº 6—to test effectiveness of 2-cycle versus 4-cycle diesel engine designs for durability and efficiency. After the race and the post-race tear-down, Cummins settled on 4-cycle engines.

One bus will be LTO, the other bus will be NMC. We’ll be watching these chemistries and learning from them. We might say both are needed for the market, or we might say that one is a clear winner.

—Gary Parker

 

The buses will use an on-board 20 kW charger for off-duty charging; for an external in-route fast-charger, the team will use a 450 kW charger.

For range-extending engines, Parker said, Cummins looked at the bottom half of its portfolio: engines from 2.8 liters up to the 6.7-liters. For both the DOE project and the Laval bus project, Cummins is opting to develop its 4.5-liter engine as the genset. The team is considering fuel-flexibility as well (e.g.,CNG).

In the North American transit market, the 8.9 liter is the major engine in the space, Parker noted; Cummins is basically cutting the displacement requirement in half with the PHEV configuration.

The duty-cycle requirements for the plug-in buses are rigorous:

  • 13-20 hour days
  • Route cycle of 11-66 minutes
  • Fast charge time of 5 minutes
  • Daily mileage of 135-351 miles
  • % idle time of 24-60%
  • Daily stops: 957-1,131
  • Daily traction energy: 580-890 kWh

The combination of regeneration, grid charging and genset power will fulfill driver demand, Parker said.

Cummins is well positioned to take electromobility across markets. The PHEV range extender will be a robust solution in certain markets—we certainly see that in bus. Truck and bus have a different set of customers, different expectations; we’ll be trying to understand that better. Building the right charging infrastructure will be important.

—Gary Parker

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