Nuclear power is a key player in the future of clean energy, and multiple companies are pursuing new technologies to maximize nuclear’s contribution to the clean energy space. Founded in 2011 and based in Cambridge, MA, Transatomic Power is an advanced nuclear technology startup developing and commercializing a molten salt reactor (MSR), or a nuclear reactor whose fuel is in liquid, rather than solid, form. This technology, originally developed at the Oak Ridge National Laboratory (ORNL) in the 1960’s, offers multiple safety and cost benefits over traditional nuclear reactors, in which the fuel is in the form of solid pellets cooled by water.
Tranatomic’s MSR design builds on the original work at ORNL and adds a few innovative new features that reduce the reactor’s size and, as a result, it’s cost – a huge factor in building new nuclear power plants. Though the development process is a long one, the world needs a larger capacity for clean energy generation, and it’s this ultimate goal that drives the Transatomic team forward. Continue reading →
Energy supply is one of the world’s biggest challenges. Fusion technology has the potential to solve this challenge by providing on-demand, safe and clean energy that will combat climate change while driving economic growth. Drawing on decades of advancements in plasma physics, materials engineering and computer simulation, General Fusion is working to develop the world’s first commercially viable fusion power plant.
What Makes the General Fusion System Different?
Developing a completely new form of energy comes with plenty of challenges and unknowns, so General Fusion utilizes milestone-driven R&D campaigns and ANSYS simulation solutions to reduce the risk in its development process. One such campaign focused on testing the liquid metal compression technology that forms the core of General Fusion’s power plant. Continue reading →
CalSol Solar Vehicle Team, UC Berkeley, is a student-run organization that designs, builds, tests, and races solar vehicles capable of traveling at highway speeds. Through participation in solar races and alternative energy as well as community outreach events, the team also aims to raise awareness of solar energy while focusing on the engineering challenges inherent in solar vehicle technology.
In order to be a competitive vehicle team, an aerodynamic vehicle design and good battery cooling systems are very important. Continue reading →