A laboratory test unit for exhausted gas cleaning by electron beam and combined electron beam–microwave irradiation

At the Electron Accelerator Laboratory, NILPR, Bucharest developed a small laboratory test unit (max. gas flow rate=1 Nm 3/h) for exhaust gas cleaning by means of electron beam and combined electron beam–microwave irradiation. The aim of these methods is to obtain the concomitant removal of the NO x...

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Bibliographic Details
Published in:Nuclear instruments & methods in physics research. Section B, Beam interactions with materials and atoms Beam interactions with materials and atoms, 1998-04, Vol.139 (1), p.506-510
Main Authors: Radoiu, M, Martin, D, Georgescu, I.I, Calinescu, I, Bestea, V, Indreias, I, Matei, C
Format: Article
Language:English
Subjects:
Combined electron beam–microwave process
Reaction chamber
SO 2 and NO x removal
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Summary:At the Electron Accelerator Laboratory, NILPR, Bucharest developed a small laboratory test unit (max. gas flow rate=1 Nm 3/h) for exhaust gas cleaning by means of electron beam and combined electron beam–microwave irradiation. The aim of these methods is to obtain the concomitant removal of the NO x and SO 2 by precipitation with ammonia. Several parameters such as residence time and dose, reaction temperature, argon and NH 3 concentration, etc. were investigated. The removal efficiencies were: only for electron beam irradiation 63–80% for SO 2 and 0–63% for NO x ; for combined electron beam–microwave treatment 68–95% for SO 2 and 0–70% for NO x . Also, the presence of a small concentration of argon in the irradiated gaseous mixture increases the SO 2 removal efficiency (between 5% and 10%) for both electron beam and electron beam–microwave treatment. As electron beams generator was used the Linear Accelerator ALID-7 (5.5 MeV, 670 W). The microwave applicator consists of a power-controlled generator with a 2.45 GHz magnetron of 850 W maximum output power, a launcher to fit to waveguide WR430, a dual directional coupler and a three stub tuner for impedance matching. Our tests also demonstrated that the combined method electron beam–microwave irradiation, due to the additional use of microwave energy, leads to the decrease of the electron beam average power from 30% to 50%, at the same removal efficiency.
ISSN:0168-583X
1872-9584
DOI:10.1016/S0168-583X(97)00977-4