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Former Exelon CEO Chris Crane remembered for “transformational milestones”
Crane
Exelon announced that Chris Crane, the company’s former chief executive, passed away on Saturday in Chicago at the age of 65.
Crane served as the company’s president and CEO from 2012 until his retirement in December 2022. During his tenure, he steered the energy company through several transformational milestones, including the successful mergers with Constellation Energy in 2012 and Pepco Holdings in 2016, creating the largest utility business by customer count in the United States.
In 2022, with the spin-off of Constellation as the generation and retail side of energy business (with the largest U.S. nuclear fleet), Crane led the creation of a stand-alone transmission and delivery energy company.
Michael Epstein, Hans K. Fauske, Wison Luangdilok
Nuclear Technology | Volume 175 | Number 3 | September 2011 | Pages 520-528
Technical Paper | NURETH-13 Special / Thermal Hydraulics | doi.org/10.13182/NT11-A12503
Articles are hosted by Taylor and Francis Online.
It is well known that under certain circumstances a mixture of coarse, hot (molten) drops in water that forms from pouring a hot melt into water explodes. This so-called "steam explosion" is generally believed to involve fine fragmentation of the melt drops induced by steam bubble collapse and concomitant water vaporization on a timescale that is short compared with the steam pressure relief time. Motivated by a previously published idea that rapid solidification would render uranium oxide (UO2)-containing (corium) melt drops stiff and resistant to the fragmentation induced by steam bubble collapse that is requisite for an explosion, here we combine solidification theory with an available theory of the stability of thin, submerged crusts subject to acceleration to predict the "cutoff time" beyond which melt drop fragmentation is suppressed by crust cover rigidity. Illustrative calculations show that the cutoff time for corium melt drops in water is a fraction of a second and probably shorter than the time it takes to form the coarse-premixture configuration of melt drops in water that is a prerequisite for an explosion, while the opposite is true for the molten aluminum oxide (Al2O3)-water system for which the window of opportunity for an explosion is predicted to be several seconds. These theoretical findings are consistent with previous experiments that revealed molten UO2 or corium pours into water to be nonexplosive and produced steam explosions upon pouring molten Al2O3 into water.