二氧化氮标准物质校准氮氧化物分析仪的差异性

采用一氧化氮、二氧化氮标准物质对化学发光法的氮氧化物分析仪进行校准,并分析校准系统中零气源、连接管路、动态气体校准仪和标准物质对二氧化氮校准的影响,发现一氧化氮标准物质中的二氧化氮杂质会影响氮氧化物的校准结果,得出氮氧化物分析仪校准需要进行二氧化氮补偿的结论;同时,通过比较国产二氧化氮和进口二氧化氮标准物质产生的校准结果,得出进口二氧化氮标准物质较国产二氧化氮标准物质的稀释结果具有更好的稳定性和一致性。     

应激大鼠脾脏内诱导型一氧化氮合酶活性变化及其意义

在捕食压力下,大鼠脾脏诱导型一氧化氮合酶(iNOS)明显表达,说明iNOS起到了重要的生理功能,然而,NOS的表达及在亚细胞水平的定位以及相应的差异变化等都很不明确,本试验采用捕食应激模型,利用免疫组织化学方法和生化测定,检测心理性应激对大鼠脾脏iNOS活性的影响及探讨这种影响与应激动物免疫力下降之间的关系.结果表明iNOS免疫阳性细胞表达部位集中于脾脏的红髓和边缘区,白髓中几乎没有.与对照组相比,在应激1~12d的过程中,应激组大鼠脾脏内iNOS的活性逐渐升高,至d12最为显著(P<0.01).但在后期应激13~30d,脾内iNOS的表达又逐渐减少.生化测定结果表明,NOS和NO的含量变化与iNOS的活性变化相似,在心理性应激早中期较高,至d12最为显著(P<0.01),而到中后期则逐渐降低.结果提示,iNOS活性程度与动物心理应激程度密切相关;应激过程中大鼠脾脏内由于iNOS的活性增加导致产生过量的NO,这可能与应激导致大鼠免疫力下降有关.图1表2参10     

Cu/Al-PILC催化的C3H6选择还原NO反应的研究

采用聚合羟基铝交联剂对蒙脱土进行撑柱,合成铝交联黏土(Al-PILC),并以其为载体,制备了应用于C3H6选择还原NO的催化剂Cu/Al-PLIC.考察了制备工艺条件及La2O3助剂对催化剂性能的影响,并采用DTA、IR技术对Al-PILC进行表征.研究结果表明,Al-PILC热稳定性随Al/clay比增加逐步提高,SO2-4改性Al-PILC上SO2-4与铝氧化柱形成了具有超强酸性的结构,催化活性得到显著提高;当Al/clay比为10 mmol/g,浸渍SO2-4量为20%(wt),Cu担载量为3%(wt),空速20 000 h-1时,Cu/Al-PILC在350℃NO转化率达到最大值52.02%;浸渍0.5%La2O3提高了Cu/Al-PILC催化剂的活性和热稳定性.     

NO对Cd2+胁迫下绿豆幼苗DNA及光合作用的影响

以绿豆幼苗为材料,研究了外源一氧化氮(NO)处理对Cd~(2+)胁迫3天和8天时幼苗叶片和根系DNA含量、DNA链间交联程度以及叶片光合参数的影响。结果表明:单独Cd~(2+)胁迫导致叶片和根系DNA含量降低,DNA链间交联程度增加,叶片净光合速率、气孔导度和胞间隙CO2浓度降低,气孔限制值升高;与单独Cd~(2+)胁迫相比,NO和Cd~(2+)复合处理提高了叶片和根系DNA含量,降低了DNA链间交联程度,同时使叶片净光合速率和气孔导度升高,而使胞间隙CO2浓度和气孔限制值降低。结果说明,NO能缓解Cd~(2+)胁迫对绿豆幼苗DNA结构及其代谢的影响;Cd~(2+)胁迫抑制绿豆幼苗光合作用的主要原因是气孔因素,而NO主要通过提高幼苗叶片非气孔因素缓解了Cd~(2+)胁迫对幼苗光合作用的抑制。     

N-TiO2/PSF中空纤维复合膜光催化烟气脱硝研究

采用溶胶-凝胶法以聚砜(PSF)中空纤维膜为载体制备了N-Ti O2/PSF中空纤维复合膜催化剂,考察其光催化烟气脱硝性能.紫外光催化的NO去除效率可达63%,去除负荷可达213.6 g·m-3·h-1.采用紫外-可见光谱(UV-Vis)、X-射线光电子能谱(XPS)和傅里叶变换红外光谱(FTIR)表征了N-Ti O2/PSF中空纤维复合膜催化剂.UV-Vis光谱分析表明,掺杂N改性的Ti O2复合膜光催化层在紫外和可见光波段的吸收性能都有极大的改善.XPS证明了O—Ti—N键能的存在.N-Ti O2/PSF中空纤维膜光催化处理NO的作用机制为NO气体通过中空纤维膜传质到NTi O2催化膜,光催化产生羟基自由基和超氧负离子,NO气体被羟基自由基和超氧负离子氧化成易处理的NO2和HNO3.     

活性炭纤维负载氧化镧催化净化NO的实验研究

以ACF作为载体制备了负载不同质量分数La₂O₃的负载型催化剂,研究了它们催化净化NO的活性和活性的稳定性,同时对比研究了ACF、HNO₃/ACF净化NO的能力.正交实验结果表明,实验中最佳的氧气体积分数为5%,最佳空速为5 000 m³·(m³·h)^-1;催化实验结果表明,ACF的低温活性很差,HNO₃/ACF净化NO的低温活性很好,但是其活性的稳定性很差;负载了La₂O₃的ACF能大幅提升ACF净化NO的能力,其活性中心为La₂O₃,La₂O₃的最佳负载量为20%,350℃以上时,20% La₂O₃/ACF催化净化NO的效率均在95%以上,在200℃恒温条件下,其催化活性约能持续8h;催化剂的理化特征实验结果表明,ACF、HNO₃/ACF净化NO的机制与负载了La₂O₃的ACF净化NO的机制有着本质的区别.     

Catalytic reduction of nitric oxide with carbon monoxide on copper-cobalt oxides supported on nano-titanium dioxide

A series of copper-cobalt oxides supported on nano-titanium dioxide were prepared for the reduction of nitric oxide with carbon monoxide and characterized using techniques such as XRD, BET and TPR. Catalyst CuCoOx/TiO2 with Cu/Co molar ratio of 1/2, Cu- Co total loading of 30% at the calcination temperature of 350°C formed CuCo2O4 spinel and had the highest activity. NO conversion reached 98.9% at 200°C. Mechanism of the reduction was also investigated, N2O was mainly yielded below 100°C, while N2 was produced instead at higher temperature. O2 was supposed to accelerate the reaction between NOx and CO for its oxidation of NO to give more easily reduced NO2, but the oxidation of CO by O2 to CO2 decreased the speed of the reaction greatly. Either SO2 or H2O had no adverse impact on the activity of NO reduction; however, in the presence of both SO2 and H2O, the catalyst deactivated quickly.     

Characteristics of emissive spectrum and the removal of nitric oxide in N2/O2/NO plasma with argon additive

Although the approach using non-thermal plasma (NTP) for deNOx has been studied for over 15 years, how to achieve higher removal e ciency with lower cost is still a barrier for its industrial application. In order to investigate the impact of the argon additive on electron density, energy and nitric oxide reduction process in plasma, the spectrum of the dielectric barrier discharge at atmospheric pressure in a coaxial reactor was measured using the monochromater with high resolution. The comparative experiments for NO reduction were carried out simultaneously in N2/O2/NO plasma stream with and without argon, respectively. The nitrogen molecular spectrum which is attributed to the energy level transition (C3 u ! B3 g) was compared in the wavelength range 300–480 nm and the electron density and temperature were determined based on the relative intensities and Stark broadening width of spectral lines. The spectrum results indicated that the argon additive could enhance the intensity of emissive spectrum of plasma, thus the electron concentration as well as the energy was increased, and finally prompted the ionization rate to produce active N, O and O3. The results of NO reduction showed that NO conversion e ciency increased in the range of 10%–30% with 5% addition of argon in stream comparing with the condition without argon additive. This study will play a positive role in the industrial application of dielectric barrier discharge deNOx reactor.     

EDTA对生物转鼓的NO废气净化效率的影响

生物转鼓过滤器(Rotating Drum Biofilter,RDB)是一种能有效净化氮氧化物废气的新型生物反应器,但在之前的实验发现,由于NO在液相中的低溶解度降低了NO在RDB中的传质效果,从而影响其去除效率。改善气液传质速率是整个反硝化降解NO过程的关键步骤,实验用CuⅡ(EDTA)、ZnⅡ(EDTA)、MgⅡ(EDTA)和FeⅡ(EDTA)等络合剂添加到营养液中,利用NO能与络合剂结合的原理,使得NO能快速溶于液相,从而使NO去除效率由原来平均85%提高到98%。