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Predictive Model Reveals Function of Promising Energy Harvester Device

Finding will allow researchers to optimize device that could replace batteries in wireless sensors


TROY, N.Y. - October 29, 2020 ( Newswire) A small energy harvesting device that can transform subtle mechanical vibrations into electrical energy could be used to power wireless sensors and actuators for use in anything from temperature and occupancy monitoring in smart environments, to biosensing within the human body.

In research recently published online in the Journal of Micromechanics and Microengineering, engineers at Rensselaer Polytechnic Institute developed a predictive model for such a device, which will allow researchers to better understand and optimize its functionalities.

"Sooner or later these harvesters will replace batteries, reducing associated environmentally hazardous waste and maintenance costs," said Diana-Andra Borca-Tasciuc, a professor of mechanical, aerospace, and nuclear engineering at Rensselaer, who led this research effort.

She was joined by John Tichy, a professor of mechanical, aerospace, and nuclear engineering at Rensselaer, and Jinglun Li, a graduate student in mechanical engineering who designed the model.

This most recent work builds upon research that Borca-Tasciuc's lab published in the Journal of Micromechanics and Microengineering in 2016. At that time, the team created and tested an energy harvesting device made of silicon both in the lab and on a vibrating HVAC duct. The device was able to convert mechanical energy into electricity, as hoped, but at the time, the team wasn't able to fully explain its experimental results, which exceeded expectations. This new model answers those questions and will allow the researchers to optimize the device in order to generate more power.

A key finding, Borca-Tasciuc said, was when Li realized that parts of the device deform after mechanical impact — which is triggered by vibrations. Li then created a predictive model using a series of equations that represent the dynamics of the device by modeling its mass coupled with the movement of a series of springs. These motion equations were critical to determining how vibrational motion translates to voltage. According to this paper, the predictions shown by the model were consistent with experimental results that the team previously gathered.

"This model laid a solid foundation for parametric study and helps to push the boundaries of output power through design optimization," Li said. "The high-power device developed by our group, together with its accurate analytical model, is an advancement of energy harvesting and will enable silicon-based autonomous green power supply at a microscale in the near future."

About Rensselaer Polytechnic Institute

Founded in 1824, Rensselaer Polytechnic Institute is America's first technological research university. Rensselaer encompasses five schools, 32 research centers, more than 145 academic programs, and a dynamic community made up of more than 7,900 students and over 100,000 living alumni. Rensselaer faculty and alumni include more than 145 National Academy members, six members of the National Inventors Hall of Fame, six National Medal of Technology winners, five National Medal of Science winners, and a Nobel Prize winner in Physics. With nearly 200 years of experience advancing scientific and technological knowledge, Rensselaer remains focused on addressing global challenges with a spirit of ingenuity and collaboration. To learn more, please visit


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