Switch-mode continuously variable transmission prototype design and testing

Jeffrey J. Araujo; Michael A. DeMalia; Christopher M. Lambusta; Anthony J. Morocco; James D. Van De Ven

Switch-mode continuously variable transmission prototype design and testing

Jeffrey J. Araujo, Michael A. DeMalia, Christopher M. Lambusta, Anthony J. Morocco, James D. Van De Ven

Mechanical Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Energy consumption is a major issue for the global society. A hybrid drive train can significantly improve the energy efficiency of ground vehicles. The combination of high energy density and high power density make a flywheel hybrid system a promising option. A primary challenge of a flywheel hybrid system is coupling a high speed flywheel to a vehicle's drive train. A unique way of accomplishing this task is using a switch-mode continuously variable transmission (CVT), which is the mechanical analog of a DC-DC power electronics converter. Modeling and analysis were conducted of the major components of a full size passenger vehicle switch-mode CVT. This model was scaled down to allow for the design and manufacturing of a laboratory prototype. Experimental data taken from the prototype was used to verify proof-of-concept and quantify the nature and magnitude of system losses. The results demonstrate the correct operation of the system on a high level, but future work is required before reliable experimental data is acquired.

Original language	English (US)
Title of host publication	7th International Energy Conversion Engineering Conference
State	Published - Dec 1 2009
Event	7th International Energy Conversion Engineering Conference - Denver, CO, United States Duration: Aug 2 2009 → Aug 5 2009

Publication series

Name	7th International Energy Conversion Engineering Conference

Other

Other	7th International Energy Conversion Engineering Conference
Country/Territory	United States
City	Denver, CO
Period	8/2/09 → 8/5/09

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This output contributes to the following UN Sustainable Development Goals (SDGs)

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Switch-mode continuously variable transmission prototype design and testing. / Araujo, Jeffrey J.; DeMalia, Michael A.; Lambusta, Christopher M. et al.
7th International Energy Conversion Engineering Conference. 2009. 2009-4643 (7th International Energy Conversion Engineering Conference).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Araujo, JJ, DeMalia, MA, Lambusta, CM, Morocco, AJ & Van De Ven, JD 2009, Switch-mode continuously variable transmission prototype design and testing. in 7th International Energy Conversion Engineering Conference., 2009-4643, 7th International Energy Conversion Engineering Conference, 7th International Energy Conversion Engineering Conference, Denver, CO, United States, 8/2/09.

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AU - DeMalia, Michael A.

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N2 - Energy consumption is a major issue for the global society. A hybrid drive train can significantly improve the energy efficiency of ground vehicles. The combination of high energy density and high power density make a flywheel hybrid system a promising option. A primary challenge of a flywheel hybrid system is coupling a high speed flywheel to a vehicle's drive train. A unique way of accomplishing this task is using a switch-mode continuously variable transmission (CVT), which is the mechanical analog of a DC-DC power electronics converter. Modeling and analysis were conducted of the major components of a full size passenger vehicle switch-mode CVT. This model was scaled down to allow for the design and manufacturing of a laboratory prototype. Experimental data taken from the prototype was used to verify proof-of-concept and quantify the nature and magnitude of system losses. The results demonstrate the correct operation of the system on a high level, but future work is required before reliable experimental data is acquired.

AB - Energy consumption is a major issue for the global society. A hybrid drive train can significantly improve the energy efficiency of ground vehicles. The combination of high energy density and high power density make a flywheel hybrid system a promising option. A primary challenge of a flywheel hybrid system is coupling a high speed flywheel to a vehicle's drive train. A unique way of accomplishing this task is using a switch-mode continuously variable transmission (CVT), which is the mechanical analog of a DC-DC power electronics converter. Modeling and analysis were conducted of the major components of a full size passenger vehicle switch-mode CVT. This model was scaled down to allow for the design and manufacturing of a laboratory prototype. Experimental data taken from the prototype was used to verify proof-of-concept and quantify the nature and magnitude of system losses. The results demonstrate the correct operation of the system on a high level, but future work is required before reliable experimental data is acquired.

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Switch-mode continuously variable transmission prototype design and testing

Abstract

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UN SDGs

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