Three new kinds of battery that just might change the world (feat. Battery Lab Manager Greg Less)
So, it’s time to ask again: Why aren’t we all driving around in oxygen-powered cars? Well, the chemical reaction that produces energy in these batteries also happens to come with a considerable drawback. As it interacts with the oxygen, the aluminum degrades over time. It’s a type of battery called a “primary” cell, which means current only flows one way, from the anode to the cathode. That means they can’t be recharged. Instead, the batteries have to be swapped out and recycled after running down.
This study analyzes the real impacts of raising Michigan’s Renewable Portfolio Standard - the policy mandating the percentage of the state’s electric generation capacity that must be provided by renewable power. The study, sponsored by the University of Michigan Energy Institute, analyzes several scenarios, detailing the changes to different power generation sources such as coal and natural gas, the environmental benefits to the state, and the associated costs under each.
Emerging technologies and a new outlook on our world can help us be more energy efficient than ever before and expand the use of clean energy. In this age of extreme weather, dramatically fluctuating fuel prices, and unpredictable power outages, the question is: how resilient are you? Drawing on his expertise in energy efficiency and clean energy, Sean Reed will help attendees understand our rapidly changing world and how to make smart decisions about energy – in their business and family life.
Electricity for rainforest villages in Gabon. Tent fabric that harvests solar energy for nomadic people in Kazakhstan. A modular greenhouse and fish farm in an unused industrial building in Highland Park, Michigan.
These are some of the goals and possibilities a team of 17 researchers will pursue with a new $3 million Third Century Initiative Global Challenges grant from the University of Michigan.