Since 1971, the Institute of Nuclear Physics SB RAS has been developing and manufacturing ELV-type electron accelerators for their application in industrial and research radiation-technology facilities. ELV-type accelerators are built using unified systems and assemblies, which makes it possible to adapt them to specific customer requirements in terms of basic parameters, such as energy range, power in the accelerated electron beam, length of the extraction window, etc., at minimal cost.
Since 1971, the Institute of Nuclear Physics SB RAS has been developing and manufacturing ELV-type electron accelerators for their application in industrial and research radiation-technology facilities. ELV-type accelerators are built using unified systems and assemblies, which makes it possible to adapt them to specific customer requirements in terms of basic parameters, such as energy range, power in the accelerated electron beam, length of the extraction window, etc., at minimal cost.
Since 1971, the Institute of Nuclear Physics SB RAS has been developing and manufacturing ELV-type electron accelerators for their application in industrial and research radiation-technology facilities. ELV-type accelerators are built using unified systems and assemblies, which makes it possible to adapt them to specific customer requirements in terms of basic parameters, such as energy range, power in the accelerated electron beam, length of the extraction window, etc., at minimal cost.
Since 1971, the Institute of Nuclear Physics SB RAS has been developing and manufacturing ELV-type electron accelerators for their application in industrial and research radiation-technology facilities. ELV-type accelerators are built using unified systems and assemblies, which makes it possible to adapt them to specific customer requirements in terms of basic parameters, such as energy range, power in the accelerated electron beam, length of the extraction window, etc., at minimal cost.
(1985)
Inside the vessel filled with electrically insulating gas (gas-insulated gas) are the primary winding, the high-voltage rectifier with the accelerator tube built inside, the high-voltage electrode and the injector control unit. It is the location of the accelerator tube inside the high-voltage rectifier column that makes the ELV accelerators the most compact among the machines of their class.
The elements of the vacuum system with an exhaust device are attached to the bottom of the boiler. The electrons emitted by the cathode located at the upper end of the accelerator tube have full energy -eUo at the exit from the accelerator tube. Having passed through the elements of the vacuum system, they enter the outlet device, where they are evenly distributed over the foil by means of electromagnets and are discharged into the atmosphere. The irradiated material is transported under the frame of the outlet window.
We have delivered 251 accelerators to the market at this time
We have delivered 251 accelerators to the market at this time
We have delivered 251 accelerators to the market at this time
We have delivered 251 accelerators to the market at this time
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