CAJ | 학술논문

催化型低温等离子体反应器可有效地提高废气治理的能量效率和净化效果.现有数据表明,在一定能量密度下,催化型低温等离子体反应器比传统低温等离子体反应器能量效率有1.1～12倍的提高,这和污染物种类,反应器构型及催化剂参数有关.本文介绍了反应机理、反应器构型及催化剂参数选择等对反应器性能的影响,并指出今后研究的发展方向.
최화형저온등리자체반응기가유효지제고폐기치리적능량효솔화정화효과.현유수거표명,재일정능량밀도하,최화형저온등리자체반응기비전통저온등리자체반응기능량효솔유1.1～12배적제고,저화오염물충류,반응기구형급최화제삼수유관.본문개소료반응궤리、반응기구형급최화제삼수선택등대반응기성능적영향,병지출금후연구적발전방향.
Catalysis non-thermal plasma reactor has been demonstrated to be effective in improving the energy efficiency and purification for air pollution control. According to the available experimental data, for a given specific energy density, the energy efficiency for gaseous pollutant abatement obtained with catalysis non-thermal plasma reactor could be improved with 1.1-12 times as compared to that of conventional reactors depending on the type of pollutants, reactor geometry and catalyst used. The influences of reaction mechanism, reactor geometry and catalyst parameters on the performance for gaseous pollutant removal are comprehensively discussed, and the further development trend of this technology is proposed.