气态硫闪爆事故原因分析及对策

对处理硫磺回收装置高温掺合阀故障时发生的硫闪爆事故进行了分析,提出了相应的对策.     

三氧化硫磺化工艺用于DSD酸生产

用三氧化硫磺化工艺替代发烟硫酸磺化工艺是可行的。在ＤＳＤ生产中，采用干燥空气稀释三充气相磺对化硝基甲苯具有反应易控制，副反应少，产品质量好，对设备防腐要求低，投资省等优点，彻底解决了老工艺的废酸问题。     

评价石灰石固硫特性的一种方法

本文以实验数据为基础,采用主成分分析法从众多指标中选择了几个主要指标作为石灰石固硫特性参数的评价体系,并按系统聚类分析方法划分了石灰石评价的等级标准,从而为燃煤锅炉选择固硫剂提供了重要的参考依据。     

高斯模式在环境管理中的应用研究

利用高斯扩散模式理论，对以高架点源排放为主的株洲市区SO2地面浓度分布规律进行定量化研究。研究表明：株洲市区SO2地面浓度等浓度值分布图呈马鞍性；株洲市区环境空气质量差主要是受以株洲冶炼厂为主的清水塘工业区高架点源的影响。同时研究表明，对株洲冶炼厂铅烧结烟气治理和全面推广使用洁净煤技术两项治理S02措施是实现株洲市区环境空气质量根本好转的重要举措；在此基础上，株洲电厂进行中远期扩大规模技术改造才是可行的。可见，高斯模式在环境管理中有很好的实际应用价值。     

常减压装置主要腐蚀机理分析与防护措施

介绍了常减压装置的设备腐蚀主要存在于低温轻油和高温重油部位,对其腐蚀机理进行了分析,并提出了相应的腐蚀防护措施。     

臭氧-二氧化钛光催化技术脱除硫化氢

在连续性反应器内以臭氧-光催化技术氧化硫化氢,证实了臭氧对光催化脱除硫化氢有促进作用,探讨了可能存在的主要基元反应和二氧化钛失活的原因,考察了反应温度、臭氧含量、硫化氢初始体积分数等因素对臭氧-光催化技术脱除硫化氢的影响。结果表明,臭氧在光催化作用下快速分解为活性氧离子或自由基,硫化氢在臭氧和光催化联合作用下快速氧化为二氧化硫,最终转化为硫酸;硫酸在二氧化钛表面的沉积使其催化活性降低,导致硫化氢和二氧化硫的转化率逐渐下降。研究还发现,当硫化氢的初始体积分数为100×10-6时,臭氧和硫化氢的最佳摩尔比约为2:1;臭氧-光催化脱除硫化氢的最佳温度为70℃左右;降低硫化氢的初始体积分数可大幅度降低二氧化硫的选择性。     

燃煤工业锅炉大气二氧化硫污染及应用工业固硫型煤控制

本文研究我国燃煤工业锅炉大气ＳＯ２的污染状况及发展趋势，以及应用工业固硫型煤控制燃煤工业锅炉大气ＳＯ２的污染。燃煤工业锅炉燃烧工业固硫型煤时，可明显地降低ＳＯ２和烟尘的排放量，并节约煤炭。推广和发展工业固硫型煤，是防治燃煤工业锅炉大气ＳＯ２污染的一条投资少、见效快、简便易行的实用措施，其经济效益及环境效益相当可观。     

Oxidation of SO2 in Clouds at Whiteface Mountain

In-cloud oxidation of SO₂ byH₂O₂ was investigated using a tracertechnique based on SO^2– ₄/Se ratios atWhiteface Mountain, New York during summer months from1990 to 1998. Cloud water samples collected at themountain's summit (1.5 km above mean sea level) andaerosols at a below cloud site (Lodge) located at 0.6km amsl and in cloud interstitial air at the summitwere analyzed for SO^2– ₄ and selectedtrace elements. Gaseous SO₂ andH₂O₂were measured in realtime. Cloud water pH wasgenerally below 5.0 with a mean value of 3.6. Theresults show that significant in cloud oxidation occursin clouds during summer months varying from belowdetection to 62% with on average approximately 24% ofthe cloud water SO^2– ₄ produced from in-situ SO₂ oxidation. During summer the clouds wereoxidant limited for approximately one third of thetime.     

Transformation of mercury speciation through the SCR system in power plants

Coal-fired utility boilers are now identified as the largest source of mercury in the United States. There is speculation that the installation of selective catalytic reduction （SCR） system for reduction of NOx can also prompt the oxidation and removal of mercury. In this paper, tests at six full-scale power plants with similar type of the SCR systems are conducted to investigate the effect of the SCR on the transformation of mercury speciation. The results show that the SCR system can achieve more than 70%-80% oxidation of elemental mercury and enhance the mercury removal ability in these units. The oxidation of elemental mercury in the SCR system strongly depends on the coal properties and the operation conditions of the SCR systems. The content of chloride in the coal is the key factor for the oxidization process and the maximum oxidation of elemental mercury is found when chloride content changes from 400 to 600 ppm. The sulfur content is no significant impact on oxidation of elemental mercury.     

平行双样对大气二氧化硫采样样品进行质量控制的应用研究

通过对大气二氧化硫采样平行双样相对偏差变化规律的分析,证明了用平行双样控制大气二氧化硫采样样品的质量是可行的,并确定了平行双样相对偏差的控制指标,为大气二氧化硫采样的质量控制提供了可靠的依据