On January 20 through 22, a multi-institutional team, including graduate student Vanessa Martinez of our UMass Mechanical and Industrial Engineering (MIE) Department, presented a very creative, beneficial, and practical proposal for a new humanitarian company called Rx4All, a medication-recycling program which was chosen for one of four prizes from 33 competing projects in the Yale Healthcare Hackathon, held at the Yale Medical School in New Haven, Connecticut. The theme of the hackathon was “Re-engineering Patient Experience and Provider Engagement.”
Shelly Peyton, chemical engineering, and Jae-Hwang Lee, mechanical engineering, are part of a team working to understand cavitation damage in soft tissues and gels with $2.6 million grant from the Office of Naval Research. Read more from the UMass News Office.
Professor Frank Sup of the Mechanical and Industrial Engineering (MIE) Department is collaborating with Professor Jane Kent of the Kinesiology Department on a groundbreaking non-magnetic ergometer, which can be used in conjunction with a magnetic resonance (MR) machine to conduct pioneering MR imaging and spectroscopy studies of human muscle function.
Have a sustainability project idea? Want to create change on campus? Apply for funding through the Sustainability Innovation and Engagement Fund (SIEF) by February 20th, 2017!
Undergraduates Rune Percy and Alex Smith of the Mechanical and Industrial Engineering Department won one of the eight prizes handed out at the second competition of the 2016-2017 Innovation Challenge series with their successful “Seed Pitch.” Calling their fledgling company ARBioDesign, Percy and Smith are researching and developing a groundbreaking on-line device that can quickly, continuously, and accurately measure key electrolytes such as potassium in dialysis patients without the need for additional blood testing at a lab. More about the Seed Pitch Competition »
Chaitra Gopalappa, an assistant professor in the Mechanical and Industrial Engineering (MIE) Department, was invited to make a presentation as a Session Speaker at the National Academy of Sciences’ 15th Japanese American Kavli Frontiers of Science symposium on December 2 to 4 in Irvine, California. “This symposium series is the Academy’s premiere activity for distinguished young scientists,” as National Academy of Sciences (NAS) President Marcia McNutt explained. The title of Gopalappa’s presentation was “Analyses of national and global strategic plans for disease prevention and control.”
On December 8, the Mechanical and Industrial Engineering Department’s 415 Senior Capstone Design course, taught by MIE Professors Frank Sup and Bernd Schliemann, held its fall-semester poster contest, and the three winning teams produced a trio of brilliant and practical inventions aimed at solving significant engineering problems. During the semester their engineering ideas went from the concept stage to the actual fabrication of three ingenious proof-of-concept prototypes, chosen as the top projects: a device to measure the tissue forces acting on an instrument during arthroscopic surgery; a sub-occipital release device for relieving neck tension; and a hands-free foot-pedal mechanism for operating a toilet seat.
Many important international media sources continue to pick up the story of scientists at UMass Amherst – led by biologist Duncan Irschick and including two mechanical engineering undergraduates – who created the Beastcam Array, a rapid-capture, field-portable, tabletop system for making high-resolution, full-color, 3D models of living organisms.
Assistant Professor Juan Jiménez of the Mechanical and Industrial Engineering Department already has several notable accomplishments to his record since coming to UMass Amherst in the fall of 2015. Earlier this year, the graduate of Michigan State (B.S.) and Princeton (M.S. and Ph.D.) Universities received a 2016 Innovation and Career Development Award from the Biomedical Engineering Society, presented to early career faculty for their accomplishments, significant contributions, and service to the biomedical engineering field.
On the weekend of October 30, an intrepid group of offshore-wind-energy experts took a blustery pilgrimage by sailboat to view the first offshore wind farm ever established in the United States. The five wind turbines, just south of Block Island, make up the 30-megawatt Block Island Wind Farm, built by Deepwater Wind of Providence. The trip – taken by several faculty and alumni of what is now called the University of Massachusetts Wind Energy Center (WEC) and their colleagues from the National Renewable Energy Laboratory – proved to be a stormy experience that embodied the very power of the term “offshore wind energy.”