高锰酸钾氧化水中二甲基三硫醚的动力学

研究了氧化剂KMnO4氧化水中二甲基三硫醚的效能,探讨了KMnO4投加量、二甲基三硫醚的初始浓度、pH值、腐植酸浓度以及同类臭味物质甲硫醚对氧化反应的影响,并对反应动力学进行了分析。结果表明：不同剂量的高锰酸钾对二甲基三硫醚有较强的氧化能力,基本完全氧化需要一定时间（达2 h）。随着高锰酸钾投量的增加,去除率和反应速率也随之增加,但高锰酸钾投加量不宜过多,建议最佳投加量为2 mg·L-1。实验发现：二甲基三硫醚初始浓度、实际水体pH值以及腐殖酸浓度对氧化反应的影响不明显;但水中同类臭味物质甲硫醚对氧化反应有抑制作用,使反应进程变慢。高锰酸钾氧化二甲基三硫醚的反应符合二级反应动力学模型,二级反应的动力学常数为k=0.006 59 L·（min·mg）-1,理论曲线与实际反应曲线存在一定的差距,但整个反应过程中2条曲线反应的去除率的差距不大,因此理论曲线能较好的指导实践。     

气相色谱法测定二硫化碳和甲硫醚

利用气相色谱(配火焰光度检测器,采用3mxφ2mm玻璃填充柱分离)对CS2和甲硫醚(DMS)两种含硫化合物进行了分离检测。该方法具有较高的灵敏度和良好的线性关系。结果表明:该分析对含硫气体的最小检测浓度在mg/m3级,在柱温为70℃,检测器温度为180℃,气化室温度为150℃,氮气流速为50mL/min时,CS2的回收率为98.66%,变异系数为2.12%;甲硫醚的回收率为98.66%,变异系数为1.56%。     

二甲基硫醚光解及二甲基二硫醚生成速率研究

用低压汞灯照射二甲基硫醚（ＤＭＳ）,在２０ｍ的长光池中用富里叶红外光谱仪测量其光解产物,结果表明二甲基硫醚光解生成二甲基二硫醚（ＤＭＤＳ）和乙烷。测量其不同光照时间的光解产物,结果表明Ｉｎ＾ｃ０／ｃｔ在直解坐标上是一条直线,说明了二甲基二硫醚生成按生一极反应进行,其生成的速率常数为８．７０×１０＾－５ｓ＾－１用低压汞灯照射ＤＭＳ＋Ｈ２Ｏ２体系,富里叶红外光谱检测其产物,在有足够的Ｈ２Ｏ２情况下,生     

Ag~+改性复合钛铌酸钾盐对二甲基硫醚和乙硫醇吸附与光催化氧化研究

采用高温固相法合成具有不同Nb/Ti摩尔比的复合钛铌酸钾盐,通过Ag+离子交换对其进行改性。在静态下评价了Ag+改性复合钛铌酸钾盐对二甲基硫醚(DMS)和乙硫醇(EM)的吸附与紫外光催化氧化作用,使用红外光谱技术对催化剂表面滞留物种进行表征。结果表明,Ag+改性复合钛铌酸钾盐对DMS的吸附作用力比EM弱。随着Nb/Ti摩尔比增加,Ag+改性复合钛铌酸钾盐对EM的吸附作用力增强。在紫外光辐射下,Ag+改性的复合钛铌酸钾盐将DMS氧化为亚砜、砜和硫酸盐,而EM则被氧化为磺酸和单齿硫酸盐。     

甲硫醚废气制取二甲基亚砜技术研究

选择双氧水作氧化剂，将具有恶臭气味的涕灭威生产的副产物甲硫醚氧化成无臭的二甲基亚砜。通过实验，优化了工艺条件，减少了安全隐患，提高了二甲基亚砜的产率，消除了恶臭污染。     

二甲基硫醚中试装置工程建设的HSE管理

在二甲基硫醚中试装置工程建设过程中。通过融入先进的HSE管理模式。评估出危害因素。并应用安全技术措施和手段使人、机、环境始终处于安全状态。从而控制人身、设备、职业卫生和污染事故的发生。     

高铁酸钾对水中藻类及其次生嗅味污染物二甲基三硫醚同步去除研究

模拟高藻期碱性水源水,采用高铁酸钾对水中以颤藻和二甲基三硫醚为代表的藻类及微量嗅味污染物进行同步控制研究.在高铁酸钾与聚合氯化铁(PFC)单独混凝对藻类的控制效果对比的基础上,展开了高铁酸钾与高锰酸钾预氧化-PFC联用方法对藻类及嗅味污染物的控制效果对比,探讨了pH、预氧化时间和浊度等条件对控制效果的影响.结果表明,PFC单独混凝除藻率最高为90.6%,以Fe计的等量投加条件下,高铁酸钾控藻效果较PFC混凝好,除藻率可达92.4%.高锰酸钾对PFC具有强化混凝效果,可明显提高除藻率(94.5%).高铁酸钾较高锰酸钾预氧化对二甲基三硫醚的去除效果理想,且氧化时间大大缩短,高铁酸钾氧化时间1 min可去除92.5%二甲基三硫醚,高于高锰酸钾预氧化10 min后达到的去除率(74.6%).     

含硫化合物对Methylosinus trichosporium OB3b生长和合成聚-β-羟基丁酸酯的影响

为了将人类活动排放的含有甲烷的废气用于聚-β-羟基丁酸酯(PHB)合成过程,以M.trichosporium OB3b为菌种,考察硫化氢(H2S)和甲硫醚(DMS)对甲烷氧化菌生长和PHB合成的影响。实验结果表明,H2S浓度高达2 500μmol/mol时对甲烷氧化菌生长及甲烷单加氧酶(MMO)活性基本无影响,含H2S时的PHB含量和产率比无H2S时高,甲烷氧化菌经H2S培养后PHB合成能力增强。然而,DMS浓度为200μmol/mol时即可明显抑制甲烷氧化菌的生长及MMO活性。在DMS存在条件下,PHB含量和PHB产率都明显降低,经DMS培养后甲烷氧化菌的PHB含量进一步降低。     

Potential particulate pollution derived from UV-induced degradation of odorous dimethyl sulfide

UV-induced degradation of odorous dimethyl sulfide (DMS) was carried out in a static White cell chamber with UV irradiation. The combination of in situ Fourier transform infrared (FT-IR) spectrometer, gas chromatograph-mass spectrometer (GC-MS), wide-range particle spectrometer (WPS) technique, filter sampling and ion chromatographic (IC) analysis was used to monitor the gaseous and potential particulate products. During 240 min of UV irradiation, the degradation e ciency of DMS attained 20.9%, and partially oxidized sulfur-containing gaseous products, such as sulfur dioxide (SO2), carbonyl sulfide (OCS), dimethyl sulfoxide (DMSO), dimethyl sulfone (DMSO2) and dimethyl disulfide (DMDS) were identified by in situ FT-IR and GC-MS analysis, respectively. Accompanying with the oxidation of DMS, suspended particles were directly detected to be formed by WPS techniques. These particles were measured mainly in the size range of accumulation mode, and increased their count median diameter throughout the whole removal process. IC analysis of the filter samples revealed that methanesulfonic acid (MSA), sulfuric acid (H2SO4) and other unidentified chemicals accounted for the major non-refractory compositions of these particles. Based on products analysis and possible intermediates formed, the degradation pathways of DMS were proposed as the combination of the O(1D)- and the OH- initiated oxidation mechanisms. A plausible formation mechanism of the suspended particles was also analyzed. It is concluded that UV-induced degradation of odorous DMS is potentially a source of particulate pollutants in the atmosphere.     

Beyond hypoxia：Occurrence and characteristics of black blooms due to the decomposition of the submerged plant Potamogeton crispus in a shallow lake

Organic matter-induced black blooms(hypoxia and an offensive odor) are a serious ecosystem disasters that have occurred in some large eutrophic shallow lakes in China. In this study, we investigated two separate black blooms that were induced by Potamogeton crispus in Lake Taihu, China. The main physical and chemical characteristics, including color- and odor-related substances, of the black blooms were analyzed. The black blooms were characterized by low dissolved oxygen concentration(close to 0 mg/L), low oxidation-reduction potential, and relatively low pH of overlying water. Notably higher Fe2+and∑S2-were found in the black-bloom waters than in waters not affected by black blooms. The black color of the water may be attributable to the high concentration of these elements, as black FeS was considered to be the main substance causing the black color of blooms in freshwater lakes. Volatile organic sulfur compounds, including dimethyl sulfide, dimethyl disulfide, and dimethyl trisulfide, were very abundant in the black-bloom waters. The massive anoxic degradation of dead Potamogeton crispus plants released dimethyl sulfide, dimethyl disulfide, and dimethyl trisulfide, which were the main odor-causing compounds in the black blooms. The black blooms also induced an increase in ammonium nitrogen and soluble reactive phosphorus levels in the overlying waters. This extreme phenomenon not only heavily influenced the original lake ecosystem but also greatly changed the cycling of Fe, S, and nutrients in the water column.