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Line 3: ==Design specifications== EM2 is an advanced modular reactor expected to produce 265 MW<sub>e</sub> (500 MW<sub>th</sub>) of power with evaporative cooling (240 MW<sub>e</sub> with dry cooling) at a core outlet temperature of {{convert\|850\|°C\|-2}}. The reactor will be fully enclosed in an underground containment structure for 30 years without requiring refueling.<ref>{{cite web\|url=http://www.ga.com/advanced-reactors \|title=Advanced Reactors \|publisher=General Atomics \|access-date = Feb 19, 2018}}</ref> EM2 differs from current reactors in that it does not use water coolant but is instead a [[gas-cooled fast reactor]], which uses [[helium]] as a coolant for an additional level of safety. The reactor uses a composite of [[silicon carbide]] as a fuel cladding material and [[zirconium]] silicide as [[neutron reflector]] material. The reactor unit is coupled to direct-drive helium [[closed-cycle gas turbine]] which drives a generator to produce electricity. The nuclear core design is based upon a new conversion technique in which an initial "starter" section of the core provides the [[neutrons]] to convert fertile material (used nuclear fuel, thorium, or [[depleted uranium]]) into burnable [[fissile]] fuel.<ref>"With Disposal Uncertain, Waste Burning Reactors Gain Traction – EM2 to Burn LWR Fuel," Nuclear New Build Monitor, March 15, 2010</ref> First generation EM2 units use enriched uranium starters (approximately 15 percent [[U235]]) to initiate the conversion process.<ref>{{Cite journal \|last = Choi \|first = H. \|title = A Compact Gas-Cooled Fast Reactor with an Ultra-Long Fuel Cycle \|journal = Science and Technology of Nuclear Installations \|volume = 2013 \|pages = 1–10 \|doi = 10.1155/2013/618707 \|year = 2013 \|doi-access = free }}</ref> The starter U235 is consumed as the fertile material is converted to fissile fuel. The core life expectancy is approximately 30 years without refueling or reshuffling the fuel.

Energy Multiplier Module: Difference between revisions