Title :
Cyclotron autoresonance accelerator for electron beam dry scrubbing of flue gases
Author :
Hirshfield, J.L. ; Wang, Changbiao
Abstract :
A self-scanning, highly-efficient electron beam source is being built for electron beam dry scrubbing (EBDS) of flue gases. The beam is to be prepared using cyclotron autoresonance acceleration (CARA), which has already experimentally demonstrated an RF efficiency above 90%. The design is based on simulation studies for a 250-kV, 25-A warm injected beam which is accelerated in a 112-cm long CARA using 21 MW of RF power at 2.856 GHz. The accelerated gyrating beam has an energy of nearly 1.1 MeV, with a theoretical acceleration efficiency of 99%. The beam can be extracted from CARA through a foil window, once the axial magnetic field is down-tapered to zero, and self-scan on a conical surface across a rising flue gas stream in a field-free region
Keywords :
electron accelerators; electron beam applications; flue gas desulphurisation; linear accelerators; 2.856 GHz; 21 MW; 25 A; 250 kV; CARA; accelerated gyrating beam; axial magnetic field; conical surface; cyclotron autoresonance acceleration; cyclotron autoresonance accelerator; electron beam dry scrubbing; flue gases; foil window; self-scanning highly-efficient electron beam source; warm injected beam; Acceleration; CADCAM; Computer aided manufacturing; Cyclotrons; Electron accelerators; Electron beams; Flue gases; Magnetic fields; Particle beam injection; Particle beams;
Conference_Titel :
Particle Accelerator Conference, 1997. Proceedings of the 1997
Conference_Location :
Vancouver, BC
Print_ISBN :
0-7803-4376-X
DOI :
10.1109/PAC.1997.753441
