Experimental Contributions for SO_2 and NO_x Reduction From Combustion Flue Gases By Energetic Electron Induced Plasma Process And Electrical Discharge

机译：通过精力电子诱导等离子体工艺和放电从燃烧烟气降低SO_2和NO_X的实验贡献

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Many authors have investigated simulatneous reduction of SO_2 and NOx from flue gas stack emissions. Because of his high costs, this technology has been applied only in few countries (Japan, China, and Poland). Small countries, consumers of cheap combustibles, produce a great deal of atmospheric pollutants: SO_2 and NOx. For this reason there is a great interest for implementation of cheaper technologies, with same impact as electron beams processing has. The paper presents a series of experimental data for SO_2 and NOx removal of flue gas by electron beams, electric discharge. It also presents an economic study for an installation of simultaneous SO_2 and NOx removal pilot plant at a 550 MWe power plant (CET-SOUTH-Bucharest), with an electron beam device and processing capacity of about 10,000 Nm~3/h and 10~6 Nm~3/h, respectively.

机译：许多作者从烟气堆排放中调查了SO_2和NOx的模拟减少。由于他的高成本，这项技术仅应用于少数国家（日本，中国和波兰）。小国，消费者的廉价无可遏，产生大量大气污染物：SO_2和NOx。出于这个原因，对更便宜的技术的实施具有很大的兴趣，随着电子束处理的影响而产生相同的影响。本文介绍了一系列实验数据，用于通过电子束，放电的SO_2和NOx去除烟气。它还提出了在550 MWE发电厂（CET-South-Bucharest）的同时SO_2和NOx拆卸试验工厂安装的经济研究，电子束装置和加工能力约为10,000nm〜3 / h和10〜分别为6 nm〜3 / h。

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《NATO advanced research workshop on the modern problems of electrostatics with applications in Enviroment protection》|1999年||共31页
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R.Cramariuc; G.Marin; I.Teodorescu; V.Munteanu; V.Ghiuta; D.Martin; M.T.Radoiu; B.Cramariuc; NATO;
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1. ELECTRIC DISCHARGE REMOVAL OF SO_2 AND NO_x FROM COMBUSTION FLUE GAS BY PULSED CORONA DISCHARGE [J] . K. ONDA, Y. KASUGA, K. KATO Energy Conversion & Management . 1997,第10a13期

机译：脉冲电晕放电从燃烧烟气中去除SO_2和NO_x
2. PRESENT STATE OF EB REMOVAL OF SO_2 AND NO_x FROM COMBUSTION FLUE GASES IN BRAZIL [J] . POLI D.C.R., OSSO JR J.A., RIVELLI V., Radiation Physics and Chemistry . 1995,第4a6Pt2期

机译：巴西燃烧烟道气中SO_2和NO_x的EB去除状态
3. SO_2 and NO_x Removal from Combustion Flue Gas by Corona Discharge in Laboratory-Scale Experiment [J] . Kazuo ONDA, Ken KATO, Yasuhiro KASUGA JSME International Journal. Series B, Fluids and Thermal Engineering . 1996,第1期

机译：实验室规模的电晕放电去除燃烧烟气中的SO_2和NO_x
4. Experimental Contributions for SO_2 and NO_x Reduction From Combustion Flue Gases By Energetic Electron Induced Plasma Process And Electrical Discharge [C] . R.Cramariuc, G.Marin, I.Teodorescu, NATO advanced research workshop on the modern problems of electrostatics with applications in Enviroment protection . 1999

机译：通过精力电子诱导等离子体工艺和放电从燃烧烟气降低SO_2和NO_X的实验贡献
5. Combustion initiation by electrical-discharge-induced plasma in lean and dilute methane-air mixture: experimental and modeling investigation. [D] . Zhang, Anqi. 2014

机译：稀薄和稀薄的甲烷-空气混合物中由放电诱导的等离子体引发的燃烧：实验和模型研究。
6. The Numerical and Experimental Investigation of Particle Size Distribution Produced by an Electrical Discharge Process [O] . Faming Lin, Yifan Liu, Xianglong Li, 2021

机译：电气放电过程产生的粒度分布的数值和实验研究
7. Processing of C{sub 3}H{sub 7}OH, C{sub 2}HCl{sub 3} and CCl{sub 4} in flue gases using silent discharge plasmas, enhanced by (V)UV at 172 nm and 253.7 nm [O] . Falkenstein, Z., Coogan, J.J. 1996

机译：使用无声放电等离子体处理烟气中的C {sub 3} H {sub 7} OH，C {sub 2} HCl {sub 3}和CCl {sub 4}，通过（V）UV在172 nm和253.7 nm处增强
8. Processing of C3H7OH, C2HCl3 and CCl4 in flue gases using silent discharge plasmas, enhanced by (V)UV at 172 nm and 253.7 nm [R] . Falkenstein, Z., Coogan, J. J. 1996

机译：使用无声放电等离子体处理烟道气中的C3H7OH，C2HCl3和CCl4，通过（V）UV在172 nm和253.7 nm处增强

Experimental Contributions for SO_2 and NO_x Reduction From Combustion Flue Gases By Energetic Electron Induced Plasma Process And Electrical Discharge

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