In 1960, ORNL began designing the Molten Salt Reactor Experiment, in which a fluoride-mix fuel ran along channels in a graphite core. The ARE was operated successfully in November, l954, at various power levels up to 2.5 Mw. The major goal of the MSRP was to achieve a thorium reactor that could produce power at low cost while simultaneously conserving and … The Aircraft Reactor Experiment (ARE) was an attempt by Oak Ridge National Laboratories (ORNL) that began in the 1940s to power an aircraft by means a Molten Salt Reactor (MSR) which is a type of nuclear reactor. The engineers knew that they had to have both high temperature and low pressure. The ARE was a 2.5 MW th nuclear reactor experiment designed to attain a high energy density for use as an engine in a nuclear-powered bomber. Looking for abbreviations of ARE?
related. your own Pins on Pinterest The temperature of the fuel exiting from the core of this reactor was about 1500°F, and the temperature of the fuel at the inlet to the core was about 1200°F. The Aircraft Reactor Experiment was a concept designed at Oak Ridge National Laboratories (ORNL) in the 1940s to use molten salt reactors to propel a plane. The moderator was hot-pressed BeO blocks cooled by circulating sodium. Jan 8, 2013 - This Pin was discovered by Matt Snyder. AHTR Advanced High Temperature Reactor; AMSB Accelerator Molten-Salt Breeder; ABWRs Advanced Boiling Water Reactors; AHTR Advanced High-Temperature Reactor; AF Absent Fail; AOA America Outdoors Association; ABWR … It is Aircraft Reactor Experiment. The short-lived Molten Salt Reactor Experiment is far from forgotten October 15, 2015 A workshop on molten salt reactor technologies, "From the MSRE to a New Emerging Class of Reactors 50 Years Later," is being held October 15-16 at the Department of Energy's Oak Ridge National Laboratory, which developed the reactor. Based on the results of the NTA, the X-6 and the entire nuclear aircraft program was abandoned in 1961. DE-AC07-761D01570 The maximum steady-state fuel temperature was l580 deg F, and there was a differential temperature between the inlet and outlet in the NaFn for 24l hr before the reactor first became critical and the … Nuclear reactors using molten sodium as the coolant operate at high temperatures, close to approximately 1500 °F, and can be constructed small enough to incorporate into the engine of a plane. The reactor, named the Aircraft Shield Test Reactor (ASTR), was operational but did not power the aircraft, rather the primary purpose of the flight program was shield testing. Extensive research into molten salt reactors started with the U.S. aircraft reactor experiment (ARE) in support of the U.S. Aircraft Nuclear Propulsion program. •The Aircraft Reactor Experiment ran for 100 hours at 860 °C. The Aircraft Reactor Experiment was designed for operation at temperatures in the region of 1500°F at a power of 1 to 3 Mw with a fluoride-salt fuel circulating in a heterogeneous core. A liquid-fluoride reactor, the Aircraft Reactor Experiment, was operated at Oak Ridge National Laboratory in 1954 as part of the ANP Program.