Energy Efficiency

Rice University theorists have calculated flexoelectric effects in double-walled carbon nanotubes. The electrical potential (P) of atoms on either side of a graphene sheet (top) are identical, but not when the sheet is curved into a nanotube. Double-walled nanotubes (bottom) show unique effects as band gaps in inner and outer tubes are staggered. Courtesy: Yakobson Research Group/Rice University

Energy, Power March 31, 2020

Double-walled nanotubes have electro-optical advantages

Rice University calculations show double-walled nanotubes could be highly useful for solar panels and other nanoelectronics applications such as photovoltaics.

By Mike Williams

Power Quality March 26, 2020

Understanding power quality, improving manufacturing system reliability

Voltage sags and interruptions can have a detrimental effect on manufacturing processes. Understanding how and why they happen is crucial.

By Mark Stephens and Alden Wright

Courtesy: Dishita Turakhia and Junyi Zhu, MIT

System Integration March 6, 2020

Breadboards integrated onto physical products

MIT researchers have invented a way to integrate “breadboards” — flat platforms used for electronics prototyping to quickly test circuit functions and user interactions with products such as smart devices and flexible electronics.

By Rob Matheson

Courtesy: Massachusetts Institute of Technology (MIT)

Energy, Power March 4, 2020

Material’s insulating properties can be tuned at will

MIT researchers have designed an electrical heat valve, which can vary the thermal conductivity on demand, and could help create controllable insulation and harvest the energy of waste heat.

By David L. Chandler

RPI researchers have created a battery that uses potassium rather than lithium, which is cheaper and more abundant and more energy-efficient and could change how batteries are made. Courtesy: Chris Vavra, CFE Media and Technology

Energy, Power March 3, 2020

Metal battery using Potassium could be alternative to Lithium-ion

Researchers from Rensselaer Polytechnic Institute have created a metal battery that relies on potassium instead of Lithium-ion, which could create more energy efficient batteries for consumers.

By Rensselaer Polytechnic Institute (RPI)

MD Series High Density Networked Power Metering System with BACnet or Modbus Protocols from Siemens Smart Infrastructure is optimized for use in equipment rooms, multi-family housing, data centers and other high metering load measurement areas. It won a 2020 Engineers’ Choice Award in the Power – Energy, Power Protection category. Courtesy: Siemens

Energy Management February 13, 2020

Three energy meter selection tips

Energy saving designs: Consider how long energy data collection is needed, how many phases and accuracy, and how the data should be collected.

By Drew Knobloch

Safety February 6, 2020

Wearable health tech gets efficiency upgrade

North Carolina State University engineers have demonstrated a flexible device designed to harvest the heat energy from the human body to monitor health.

By Mick Kulikowski

New research by engineers at MIT and elsewhere could lead to batteries that can pack more power per pound and last longer. Courtesy: MIT News

Energy, Power February 4, 2020

Electrode design may lead to more powerful batteries

An MIT research team has devised a lithium metal anode that could improve the longevity and energy density of future batteries.

By David L. Chandler

Courtesy: Chris Vavra, CFE Media and Technology

Power Quality January 31, 2020

Wearable electronics powered by flexible batteries

Stanford University researchers have developed an experimental device designed to provide a comfortable power source for technologies that bends and flexes with the human body.

By Tom Abate

Dr. Matt Pharr is an assistant professor in the J. Mike Walker ’66 Department of Mechanical Engineering at Texas A&M University. Courtesy: Justin Baetge/Texas A&M Engineering Communications

Energy, Power January 24, 2020

Research into next-generation rechargeable batteries supported

The National Science Foundation is supporting Texas A&M researcher Dr. Matt Pharr in his work on developing improved rechargeable batteries.

By Steve Kuhlmann