Purdue University engineers are researching new ways to use 3D-printed concrete for offshore wind energy infrastructure, aiming to reduce costs and enable floating structures.
Scientists from this university, along with Johns Hopkins University, have developed a new method to increase the reactivity of ultrathin nanosheets, potentially leading to cheaper fuel cells for hydrogen vehicles.
Scientists at MIT and Purdue University have created a new recycling technology involving incandescent lights that enables this type of light to be more energy efficient.
Purdue University's Energy Center in Discovery Park is researching a biofuel that is chemically similar to gasoline and aviation fuel, derived from plant material.
Located in Indiana; the wind farm is named after the university but has no financial connection. The project site borders Purdue's Animal Sciences Research and Education Center, and the university will participate in renewable energy research linked to the park.
Researchers from Purdue University have developed a new process for creating biofuels known as the H2Boil method. The university also conducted an economic analysis of this method.
Researchers from Purdue University are experimenting with nanotechnology to develop new techniques to harvest energy from engines. The university's researchers have developed a new material comprised of lead telluride that takes the form of nanocrystals.