EDV湿法烟气洗涤技术处理硫磺回收装置尾气

硫磺回收装置采用Claus+SCOT技术处理尾气时,受装置低负荷运行及异常波动等影响,尾气中SO2含量大。通过技术核算,将尾气引至催化裂化装置催化剂再生烟气脱硫塔进行脱硫处理。改造后避免了尾气焚烧后SO2直接排放,且装置运行平稳,未增加能耗和化工原材料消耗,有效解决了尾气排放不合格的难题。

FCC烟气湿法洗涤脱硫过程中烟羽生成及应对措施

在FCC再生烟气湿法洗涤脱硫过程中,烟气急速冷却到酸的露点温度以下,其中的SO3与水结合生成难以捕集的颗粒直径为亚微米级的H2SO4酸雾,在一定的天气条件下形成蓝色或黄色烟羽;烟气中的SO3含量、烟囱的排烟温度、太阳的照射角度和大气环境条件等是影响烟羽生成的主要因素。FCC再生烟气中SO3的质量分数一般占SOx的10%左右,当装置加工高硫原油,尤其是烟气处理系统配备有高温SCR单元时,烟羽生成的几率大大增加。研究FCC过程中SO3的转化规律、建立统一且科学的SO3采样分析方法、使用硫转移助剂、研制低氧化性选择性催化还原催化剂、增设烟气再加热器以及应用湿式除雾器是预防和解决湿式烟气洗涤脱硫过程中烟羽生成的有效措施。

湿法洗涤烟气装置运行存在的问题及分析

湿法洗涤烟气已广泛的应用于催化裂化装置中,但在运行过程中仍出现了一些问题,如洗涤塔顶腐蚀,塔底循环泵腐蚀以及外送硫酸盐渣浆水含量高等问题。针对这些问题,从腐蚀和工艺操作两方面进行了分析:金属材料腐蚀角度给出了硫酸/亚硫酸露点腐蚀,氯离子应力腐蚀开裂以及固体颗粒的冲刷腐蚀;工艺操作规程方面给出了循环水量、杂质等的影响因素,并从选材、焊接工艺以及工艺操作方面给出了意见,从而为湿法洗涤烟气系统的故障排除及长周期运行提供了思路。

Photocatalytic oxidation of nitric oxide from simulated flue gas by wet scrubbing using ultraviolet/TiO_2/H_2O_2 process

Nitric oxide(NO) from flue gas is hard to remove because of low solubility and reactivity. A new technology for photocatalytic oxidation of NO using ultraviolet(UV)/TiO2/H2O2 process is studied in an efficient laboratory-scale reactor. Effects of several key operational parameters on NO removal efficiency are studied, including TiO2 content, H2O2 initial concentration, UV lamp power, NO initial content, oxygen volume fraction and TiO2/H2O2 solution volume. The results illustrate that the NO removal efficiency increases with the increasing of H2O2 initial concentration or UV lamp power. Meanwhile, a lower NO initial content or a higher TiO2/H2O2 solution volume will result in higher NO removal efficiency. In addition, oxygen volume fraction has a little effect.The highest NO removal efficiency is achieved at the TiO2 content of 0.75 g/L, H2O2 initial concentration of 2.5 mol/L, UV lamp power of 36 W, NO initial content of 206×10-6 and TiO2/H2O2 solution volume of 600 m L. It is beneficial for the development and application of NO removal from coal-fired flue gas with UV/TiO2/H2O2 process.