Liu Jing, Jiang Jingxuan, Xing Xiangwen, Zhang Hao, Chen Juan, Dong Yong
National Engineering Lab for Coal-fired Pollutants Emission Reduction, Shandong University, Jinan, People's Republic of China.
Tongfang Environment Co., LTD, Beijing, People's Republic of China.
Environ Technol. 2025 Mar;46(7):1138-1146. doi: 10.1080/09593330.2024.2376292. Epub 2024 Jul 13.
Wet scrubbing technology is an effective emission control technology for marine diesel engines. Nitric oxide (NO) is one of the main component of ship emissions, the sodium persulfate (NaSO) can facilitate the NO mass transfer process to a rapid reaction. Falling film reactors are widely used in rapid gas-liquid reactions, however, the reaction characteristics of denitrification using NaSO solution in a falling film reactor are not clear, which were investigated in this paper. The factors of NO mass transfer flux were tested with the liquid-gas ratio of 15 L/m. The effects of solution properties and temperatures on the reaction driving force were studied by calculating the chemical reaction equilibrium constants and Gibbs free energy changes. The results showed that the NO mass transfer flux increased with the increase of temperature, NaSO concentration, O concentration and NO concentration. NO mass transfer flux increased by 41.00% and then decreased by 2.12% as the pH value increased from 7 to 10 and then rising to 12. The Gibbs free energy changes of alkaline solutions were 114.22%-130.99% lower than those of acidic solution at 303-343 K, and the chemical reaction equilibrium constants were higher. NaSO/seawater system has great application potential in marine exhaust gas purification.
湿式洗涤技术是一种用于船用柴油机的有效排放控制技术。一氧化氮(NO)是船舶排放物的主要成分之一,过硫酸钠(Na₂S₂O₈)可促进NO传质过程以实现快速反应。降膜反应器广泛应用于快速气液反应,然而,在降膜反应器中使用过硫酸钠溶液进行脱硝的反应特性尚不清楚,本文对此进行了研究。在液气比为15 L/m³的条件下测试了NO传质通量的影响因素。通过计算化学反应平衡常数和吉布斯自由能变化,研究了溶液性质和温度对反应驱动力的影响。结果表明,NO传质通量随温度、过硫酸钠浓度、氧气浓度和NO浓度的增加而增加。随着pH值从7增加到10然后再升至12,NO传质通量先增加41.00%,然后下降2.12%。在303 - 343 K时,碱性溶液的吉布斯自由能变化比酸性溶液低114.22% - 130.99%,且化学反应平衡常数更高。过硫酸钠/海水体系在船舶废气净化方面具有很大的应用潜力。
