Civil and environmental engineering

Wall Street Journal reporter Ryan Dezember visited Prof. Desiree Plata’s lab to learn more about her group’s work developing a new tool to help address climate change. Plata and her colleagues “soaked an odor-eating clay used in cat boxes in a copper solution to create a compound that they say snatches methane from passing air and turns it into carbon dioxide, a much less harmful greenhouse gas.” The new technique has the “potential to greatly reduce the amount of methane in the atmosphere and slow warming temperatures on the planet.”

MIT announced five projects "targeting the world's toughest climate riddles" that were selected following a rigorous two-year competition, reports Benjamin Kail for Boston Business Journal. “Climate Grand Challenges represents a whole-of-MIT drive to develop game-changing advances to confront the escalating climate crisis, in time to make a difference,” says President L. Rafael Reif.

According to Prof. Yossi Sheffi, increasing customer demand is the driving force behind the supply chain bottlenecks impacting the global delivery network. “The smoking gun for consumer demand as the main culprit is that bottlenecks didn’t emerge as a significant hurdle until spring of 2021, says Sheffi…That was after the federal government has juiced spending by sending three rounds of stimulus checks to most households,” writes Paul Davidson for USA Today.

With the announcement of the new MIT Morningside Academy for Design, MIT is looking to create “a hub of resources for the next generation of designers, integrating areas of study such as engineering and architecture in the process,” reports Dana Gerber for The Boston Globe. “This is really going to give us a platform to connect with the world around problems that communities are facing,” explained Prof. John Ochsendorf, who will serve as the academy’s founding director.

MIT has announced the creation of a new multidisciplinary center, called Morningside Academy for Design, which is intended to serve as a “focal point for design research, education, and entrepreneurship,” reports Michael T. Nietzel for Forbes. 

MIT has announced the establishment of the MIT Morningside Academy for Design, reports Susan H. Greenberg for Inside Higher Ed. The new center “aims to foster collaboration and innovation across academic disciplines – including engineering, science, management, computing, architecture, urban planning and the arts – to address such pressing global issues as climate change, public health, transportation, and civic engagement,” writes Greenberg.

Provost Cynthia Barnhart PhD ’88 reflects on her time as chancellor and her new role at MIT with Jennifer Ai of The Tech. “I really do want to help members of our community thrive here at MIT, because if they thrive, MIT thrives,” says Barnhart. “That very much motivates how I think things must be.”

Wired reporter Gregory Barber spotlights Prof. Desirée Plata’s work developing a new process for removing methane emissions using zeolite. Plata’s team is currently working on converting their system to a filter that air can be pushed through. “Plata wants to install the filters in places where methane is concentrated, but there’s not enough of it to burn,” Barber explains.

Forbes contributor Carolina Milanesi spotlights Dr. Ana Pinheiro Privette ’98, the global lead for the Amazon Sustainability Data Initiative (ASDI), who collaborates with environmental nonprofits, private companies and government agencies to give researchers access to ASDI’s data catalog information. “I’m not sure if I am saving the world, but I’m at least helping people have more resources to do it,” says Pinheiro Privette.

MIT researchers have developed a transparent, degradable medical dressing that could be used to help gut wounds heal more quickly and efficiently without leaking bacteria, reports Alex Wilkins for New Scientist. The researchers “designed their dressing to work like duct tape, which is only sticky on one side,” writes Wilkins. “Once it covers the wound, it quickly forms a hydrogel, an adhesive layer that can help the wound to heal.”

Writing for The Wall Street Journal, Prof. Yossi Sheffi notes that “just-in-time” (JIT) supply chains can help improve product quality and manufacturing processes, leading to reduced inefficiency. JIT “reinforces resilience because it strengthens the relationships along the supply chain between companies, their suppliers and customers,” writes Sheffi. “Close relationships allow companies to react collaboratively to supply-chain disruptions.”

Researchers from MIT, Tripura University, and Vaisala Inc. concluded that the decline of aerosols in the atmosphere led to a reduction in lightning activity during the Covid-19 lockdown period, reports Alaa Elassar for CNN. “As countries around the world imposed quarantines, lockdown and curfews aimed at limiting the spread of Covid-19, air pollution levels fell drastically, thereby reducing the amount of aerosols released into the air,” writes Elassar.

MIT researchers have developed an approach to control methane emissions by using zeolite clays with small amounts of copper, reports The Engineer. “The systems’ ideal location, the team concluded, would be in places with a concentrated source of methane such as dairy barns and coal mines,” according to The Engineer. “These already tend to have air-handling systems in place since a buildup of methane can be a safety hazard.”

MIT researchers have developed a new approach to removing methane emissions from the air using zeolite, an inexpensive material used in cat litter, reports Adele Peters for Fast Company. Prof. Desiree Plata explains that compared to carbon dioxide, “methane is actually much worse, from a global warming perspective. What this allows us to do is bring immediate climate benefit into the Earth system and actually change global warming rates in our lifetime.”

The Conversation reporter Stacy Morford spotlights research by climatologist Judah Cohen and atmospheric scientist Mathew Barlow, which shows how changes in the Arctic can lead to changes in the stratospheric polar vortex, and cold waves in North America and Asia. “Our research reinforces two crucial lessons of climate change: First, the change doesn’t have to occur in your backyard to have a big effect on you,” write Cohen and Barlow. “Second, the unexpected consequences can be quite severe.”