Transporting Hazard Explosives Safely
Principal Investigator: Martin Berzins, University of Utah
The research team will utilize the Jaguar supercomputer to examine different packing arrangements of commercial explosives in order to prevent a violent blast. The driving force for this research was a 2005 semi-truck accident on U.S. Route 6 in Utah in which 36,000 lbs of explosives used for mining and seismic exploration were ignited and detonated, destroying a highway and railway. Since thousands of pounds of explosives are transported across the U.S. daily, researchers will examine different packing arrangements of devices to ensure the safe transport of materials for public safety.
Understanding the Ultimate Battery Chemistry: Rechargeable Lithium/Air
Principal Investigator: Jack Wells, Oak Ridge National Laboratory
Utilizing both the Jaguar and Intrepid supercomputers, the research consortium will study and demonstrate a working prototype of a rechargeable Lithium/Air battery. The Lithium/Air battery can potentially store ten times the energy of a Lithium/Ion battery of the same weight. Realizing this enormous potential is a very challenging scientific problem. If successful, this will enable rechargeable batteries that compete directly with gasoline, making fully electric vehicles practical and widespread.
Hydrogen as Alternative Fuel - Simulation
Principal Investigator: John Bell, Lawrence Berkele
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DOE/Argonne National Laboratory