Nuclear material control

 

Spatial neutron passport system AACK-1

The system is designed to control the arrangement and number of neutron sources (containers with plutonium, fuel cells, etc.) within a controlled space (storage facility compartment, vehicle cargo compartment, etc.). The invariable state of a controlled object is assessed based on computer-aided comparison between the initial passport (initial spatial distribution of neutron flow density) and the passport received after remeasurements. The system is applicable to objects of any configuration. It can be used as a national measuring device during inspection procedures under International treaties on reduction of nuclear arms. The system is transported by two operators in any type of a passenger vehicle.
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Portal pedestrian radiation monitor (KPRM-P1)

The monitor is designed to be installed at check points of enterprises to keep track of radioactive material movement. It can be a part of radioactive material accounting and control systems or radiation safety systems (for banks, customs or other facilities).

Portable radiation monitor BIRK-3

The monitor is designed to detect radioactive and nuclear materials based on their gamma-radiation. It tracks continuously the radiation background and generates a warning alarm, if controlled parameters go beyond the fixed threshold values. It is applied in checking people, vehicles, luggage, hand-carried luggage, rooms and arias. It can operate both independently and as part of safety systems.

Complex automatic remote control system (ACDM) for storage facilities of especially hazardous radioactive and explosive materials (OORVM)

This is a multilevel control system. The control levels form a complex system of remote monitoring. Each level uses different engineering equipment to determine the state of an explored item. The levels are logically and technically interconnected. The equipment of every level is combined into units, these units being also interconnected. Each system unit has its own function: access control to rooms or to a subject of monitoring, identification of the subject of monitoring, safety control of engineering procedure while working with the subject or during its storage, OORVM microclimate control. These developments can be applicable to other control (monitoring) tasks: security control (bank activity, production activity; transportation by car, railway or water); environment monitoring, physical parameters control (manufacturing process for experimental or research activity).