NFPA Research Supplement Update: Seamless Electric to Hydraulic Conversion

CCEFP Summit

Eric Lanke headshot 2017


By Eric Lanke
NFPA President/CEO

I recently attended the October 2018 Summit of the Center for Compact and Efficient Fluid Power (CCEFP) at the University of Minnesota. This is one of the meetings this fiscal year where the fluid power research projects supported by our new NFPA Research Supplement Program were presented.

In our efforts to increase the number of university students educated in fluid power, the NFPA Education and Technology Foundation has provided ten $10,000 research supplements to ten academic faculty members working on fluid power research at six universities. This helps to engage current and build the careers of future university faculty who are and will be in a position to teach fluid power to undergraduate engineers on their campuses. The research supplements provide travel support so that each faculty member and one of their graduate students can attend to present their research at designated industry conferences and research summits like the one hosted by the CCEFP.

One such faculty member is Professor Eric Severson of the University of Wisconsin, who presented on his project, “Seamless Electric to Hydraulic Conversion,” at the CCEFP Summit. The goal here is to reduce the energy losses that occur in electro-hydraulic applications as a result of multiple energy conversions (for example, from stored electricity to rotating mechanical to the pump mechanism to the piston to hydraulic output). Working with funding provided by the CCEFP, Severson and his team (which includes Professor Jim Van de Ven and several students at the University of Minnesota) only began working in September, but are seeking to prototype a “Linear Electromagnetic Piston Pump” in which an oscillating piston that creates hydraulic flow is an integrated part of a combined electric motor/pump. In this first year of the two-year project, they will seek to:

  • Define the design requirements.
  • Construct first-order models.
  • Increase model detail to inform design.
  • Select prototype parameters and detailed design.

A copy of Severson’s presentation slides can be accessed here.

Collectively, the research projects supported by NFPA Research Supplements represent more than $4.9 million in funding from a variety of organizations, including the U.S. Department of Energy, the National Science Foundation, and the Center for Compact and Efficient Fluid Power (CCEFP). They are an excellent sample of the growing body of fluid power research being funded by the federal government and other research organizations.