Through J-WAFS commercialization grants of $150,000 each, MIT researchers tackle harmful algal blooms in water, as well as ways to save freshwater in steelmaking by scrap metal consolidation.
The Abdul Latif Jameel Water and Food Systems Lab (J-WAFS) provides Solutions Grants to help MIT researchers launch startup companies or products to commercialize breakthrough technologies in water and food systems. The Solutions Grant Program began in 2015 and is supported by Community Jameel. In addition to one-year, renewable grants of up to $150,000, the program also matches grantees with industry mentors and facilitates introductions to potential investors. Since its inception, the J-WAFS Solutions Program has awarded over $3 million in funding to the MIT community. Numerous startups and products, including a portable desalination device and a company commercializing a novel food safety sensor, have spun out of this support. The 2023 J-WAFS Solutions Grantees are Professor C. Cem Tasan of the Department of Materials Science and Engineering and Professor Andrew Whittle of the Department of Civil and Environmental Engineering. Tasan's project involves reducing water use in steel manufacturing and Whittle's project tackles harmful algal blooms in water. Project work commences this September. "This year's Solutions Grants are being award to professors Tasan and Whittle to help commercialize technologies they have been developing at MIT," says J-WAFS executive director Renee J. Robins. "With J-WAFS' support, we hope to see the teams move their technologies from the lab to the market, so they can have a beneficial impact on water use and water quality challenges," Robins adds. Reducing water consumption by solid-state steelmaking Water is a major requirement for steel production. The steel industry ranks fourth in industrial freshwater consumption worldwide, since large amounts of water are needed mainly for cooling purposes in the process. Unfortunately, a strong correlation has also been shown to exist between freshwater use in steelmaking and water contamination. As the global demand for steel increases and freshwater availability decreases due to climate…