EssentialTalk - Global by Design: Leveraging Engineering Science for Global Development

This talk will highlight how the K. Lisa Yang Global Engineering and Research (GEAR) Center at MIT is creating technologies that are global by design. this entails spotting and quantifying meritorious problems, leveraging engineering science to create high-performance, low-cost solutions, and engaging a wide network of stakeholders that are positioned to catalyze adoption and dissemination. The following research projects will be presented:

1) Time-variant photovoltaic-powered electrodialysis (PV-ED) desalination systems that continually vary pumping and salt extraction power to match available solar power. Compared to industry standard grid-powered reverse osmosis, GEAR Center's PV-ED systems are at price parity and reduce water wastage by 75%.

2) Ultra-low pressure, low-cost drip irrigation emitters that were realized by characterizing fluid-structure parametric design relationships. GEAR Center's emitters cut pumping power by up to 69%, reduce the cost of solar-powered irrigation by up to 40%, and require 58% less plastic than current products.

3) Low-cost, solar powered precision agriculture irrigation systems that use AI to predict weather, set an irrigation schedule, and continually minimize energy and water consumption while maximizing crop productivity. In our first real-world field trial, GEAR Center's irrigation controllers reduced water use by 44% and energy by 39% compared to traditional drip irrigation practice.

4) High-performance, low-cost plastic prosthetic feet created by predictively and quantitatively connecting their mechanical design to biomechanical performance. GEAR Center's feet facilitate near-able-bodied biomechanics and perform as well or better than industry-standard carbon fiber feet that cost up to 100x as much.