Used KOKUSAI Aldinna #293594354 for sale

KOKUSAI Aldinna
Manufacturer
KOKUSAI
Model
Aldinna
ID: 293594354
Atomic Layer Deposition (ALD) system.
KOKUSAI Aldinna is a research and test reactor designed for the advanced development of nuclear fuels and materials. It is a light-water cooled and moderated pool-type reactor based on the U.S. Naval Research Laboratory's (NRL) well-known Aldinna design. The reactor was constructed in 1979 at the University of Tokyo in Japan, with financial assistance from the United States of America and the U.K. Commission of Euratom. The reactor's core is composed of uranium fuel rods arranged in an 11×11×7 array with a total power output of 500 kW thermal. Apart from the core, KOKUSAI Aldinna also consists of a pool of light water, used as a coolant and moderator, and a control rod system used to control its reactivity. Aldinna is capable of generating precise amounts of thermal power due to its precise control rod system and highly precise steel converters. Its neutron flux spectrum can also be configured to accommodate a variety of experimental requirements in a precise manner, making it ideal for testing advanced fuels and materials in different configurations. In addition, KOKUSAI Aldinna has the capability to operate with a PWR-like (Pressurized Water Reactor) primary circuit, making it an excellent platform for testing PWR-related technologies. Its design utilizes internal reflection technology and an advanced anodes materials to ensure higher levels of safety. This reactor also makes use of gamma-ray imaging methods to provide monitoring and measurement during operation, making it flexible and efficient. Lastly, Aldinna reactor is equipped with a containment building in case of emergencies, and various technological features like remote-controlled operation and real-time data information and transfer. In conclusion, KOKUSAI Aldinna is an advanced research reactor capable of precise power output and excellent neutron flux spectra. It is also highly versatile, enabling the testing of PWR-related technologies, advanced fuel, and materials in a wide range of configurations. The safety and efficiency of the reactor is also supported by gamma-ray imaging methods, remote-controlled operation and real-time data information and transfer.
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