Numerical evaluation of the effectiveness of NO2 and N2O5 generation during the NO ozonation process

Wet scrubbing combined with ozone oxidation has become a promising technology for simultaneous removal of SO₂ and NO_x in exhaust gas. In this paper, a new 20-species, 76-step detailed kinetic mechanism was proposed between O₃ and NO_x. The concentration of N₂O₅ was measured using an in-situ IR spectrometer. The numerical evaluation results kept good pace with both the public experiment results and our experiment results. Key reaction parameters for the generation of NO₂ and N₂O₅ during the NO ozonation process were investigated by a numerical simulation method. The effect of temperature on producing NO₂ was found to be negligible. To produce NO₂, the optimal residence time was 1.25 sec and the molar ratio of O₃/NO about 1. For the generation of N₂O₅, the residence time should be about 8 sec while the temperature of the exhaust gas should be strictly controlled and the molar ratio of O₃/NO about 1.75. This study provided detailed investigations on the reaction parameters of ozonation of NO_x by a numerical simulation method, and the results obtained should be helpful for the design and optimization of ozone oxidation combined with the wet flue gas desulfurization methods (WFGD) method for the removal of NO_x.     

中国东北区域本底大气中酸性气体的研究

龙凤山是我国区域本底站之一,NO_X和SO₂浓度远低于我国空气质量Ⅰ级标准。从1994年8月15日到1995年7月31日首次在龙凤山（127°36′E,44°44′N,330.5m）测得空气中NO_X和SO₂。观测到很强的季节变化,其夏季值最低,冬季值最高。NO_S和SO₂浓度和气象要素密切相关,例如风速、温度和相对湿度。基于排放源以及风频的不均一,不同扇区来的空气质量能有很大变化。在SSE－SW扇区出现高浓度SO₂、较高浓度NO_X和高〔SO₂〕/〔NO_X〕,表明该扇区有城市污染物的输送。SW－NNE扇区有高NO_X、低SO₂及低的〔SO₂/〔NO_X〕,表明该方向城市烟羽难以直接影响测点,在这个扇区高NOX来源于当地农民做饭、取暖时秸杆焚烧。低NO_X、SO₂观测在NNE－SSE扇区,这意味着这是最清洁扇区。     

农田NO排放的自动观测

详细介绍农田ＮＯ排放自动观测的方法原理,系统整体构造及电路和气路配置,并讨论了观测结果的可靠性。同地,还就已取得的一些初步研究结果进行了分析,对华东秋,冬季麦田的ＮＯ排放进行自动连续观测的结果表明,秋季麦田的ＮＯ排放具有与温度几乎完全同步的日变化规律。     

农田NO排放的时间变异性

在采用基于箱法的自动观测技术对苏州地区一个完整的科小麦生育期的麦田的ＮＯ排放进行全天候连续观测的基础上,讨论了ＮＯ排放的季节变化和日变化特征及其温度和植物生长的影响,观测实验发现,苏州地区上麦田的ＮＯ排放具有极其显著的季节变化规律怀,冬季以前２的小麦苗期物返青至淹水种稻之前的春季,ＮＯ排放量分别为０．１５６－０．７５８ｍｇ·ｍ＾－２·ｈ＾－１和１．２２９－１０．８０２·ｍ＾－２·ｈ＾－１,前者是全     

ZrO2负载过渡金属氧化物催化剂对CO＋NO（O2）反应的影响

本文运用固定床微反技术考察了Ｃｕ,Ｆｅ,Ｍｎ,Ｃｒ,Ｃｏ和Ｎｉ负载（ＺｒＯ２载体）氧化物对ＣＯ＋ＮＯ（Ｏ２）反应的催化活性。研究了ＮＯ和ＣＯ在不同比例时,催化剂对Ｎ２Ｏ和Ｎ２生成的影响。结果表明,在ＮＯ＋ＣＯ反应中,ＮＯ和ＣＯ的比例对催化剂活性和Ｎ２Ｏ,Ｎ２生成均有明显的影响,ＣｕＯｘ／ＺｒＯ２催化剂的活性最高;Ｎ２Ｏ是ＮＯ＋ＣＯ反应的中间产物,低温或ＮＯ过量时有利于生成Ｎ２Ｏ,高温或ＮＯ不足时有     

CO还原NO海泡石铜族金属催化剂的研究

以改性海泡石为载体,负载IB族金属(Cu,Ag,Au),制备CO还原NO的催化剂.用正交实验确定载体海泡石的改性条件.研究考察该催化剂在有氧条件下的催化还原性能,并用XRD、TGA、H2 TPR、BET等对该催化剂进行表征.研究发现,在有氧条件下,IB族金属(Cu,Ag,Au)催化剂中,Cu 海泡石对CO还原NO反应的催化活性最好;Cu负载量为5%、灼烧温度为400℃的催化剂表现出较高的活性;Cu 海泡石催化剂中加入Ce和Sm可以改善催化剂的性能.在实验条件基本相同的情况下,Cu 海泡石的催化活性好于Cu ZSM 5催化剂.     

外源NO介导Cu~(2+)胁迫下番茄幼苗活性氧与内源NO代谢的研究

采用营养液培养方法,研究Cu~(2+)胁迫下外源一氧化氮(nitric oxide,NO)介导的番茄幼苗活性氧及NO代谢途径。结果表明:在Cu~(2+)胁迫下,番茄叶片和根系氧自由基含量增加,NO释放量以及硝酸还原酶(nitrate reductase,NR)和一氧化氮合酶(nitric oxide synthase,NOS)活性降低。外源NO能提高Cu~(2+)胁迫下番茄叶片NR和NOS活性,促进NO的产生,根系NOS活性及NO产量也同时上升。外源NO使精氨酸含量显著增加,而Hb(牛血红蛋白,NO清除剂)可部分抵消NO的促进作用,使Cu~(2+)+SNP+Hb处理下番茄精氨酸含量显著下降。可见,外源NO的加入可通过酶促和非酶促途径促进Cu~(2+)胁迫下NO的合成,介导NO信号调控网络,调节内源NO、精氮酸和活性氧代谢途径,从而缓解过多Cu~(2+)引起的氧化伤害。     

大气PM_（2.5）在线监测仪对SO_4~（2-）、NO_3~-和NH_4~＋的测定评价

通过两套大气细颗粒物（PM2.5）水溶性离子在线监测仪与蜂巢式固气分离器膜采样系统作对比,评估了在线监测仪器对主要水溶性组分SO24-、NO3-和NH4＋的测定结果.美国URG公司生产的在线连续监测分析系统（AIM URG-9000B）对NH4＋和NO3-的监测结果较好,但对SO24-的测定结果存在明显高估,其原因是AIM的平板溶蚀器系统无法完全去除大气中高浓度SO2,从而对SO24-的测定结果有干扰.为解决这一问题,进行了一系列实验,结果表明采用两个溶蚀器串联并用5 mmol.L-1H2O2＋5 mmol.L-1NaOH混合溶液作吸收液时,高浓度的SO2（甚至达到260μg.m-3）可以被完全吸收而对SO24-的测定结果不产生影响.由荷兰能源研究所（ECN）、Metrohm和Applikon共同研制的在线气体组分及气溶胶监测系统（MARGA,ADI2080）对NH4＋和SO24-的监测结果较好,可以满足实验要求;但NO3-的测定结果偏高,其准确性需作进一步评估.新型监测仪器在不同大气环境中投入使用前需进行对比测试,以确定其准确性和精确性.     

Selective reduction of NO by photo-SCR with ammonia in an annular fixed-film photoreactor

Gaseous NO was photocatalytically reduced at room temperature by photo-assisted selective catalytic reduction (photo-SCR) with ammonia over TiO₂ in this study. NO reduction efficiency and N₂ selectivity were determined from gases composition at the outlet stream of photoreactor. Effect of operating conditions, e.g. light intensity and inlet concentrations of ammonia and oxygen, on the NO reduction efficiency and N₂ selectivity were discussed to determine the feasible operating condition for photocatalytic reduction of NO. Experimental results showed that selective catalytic reduction of NO with ammonia over TiO₂ in the presence of oxygen was a spontaneous reaction in dark. The photoirradiation on the TiO₂ surface caused remarkable photocatalytic reduction of NO to form N₂, NO₂, and N₂O under 254 nm UV illuminations, while almost 90% of N₂ selectivity was achieved in this study. The ammonia and oxygen molecules played the roles of reductant and oxidant for NO reduction and active sites regeneration, respectively. The reduction of NO was found to be increased with the increase of inlet ammonia and oxygen concentrations until specific concentrations because of the limited active sites on the surface of TiO₂. The kinetic model proposed in this study can be used to reasonably describe the reaction mechanism of photo-SCR.     

2006─2010年环保重点城市主要污染物浓度变化特征

利用2006─2010年全国环保重点城市的空气质量日报数据,分析了大气ρ(SO2)、ρ(NO2)和ρ(PM10)的变化特征. 结果表明:从年际变化看,ρ(SO2)和ρ(PM10)呈下降趋势,ρ(NO2)变化不显著.从季节变化看,ρ(SO2)、ρ(NO2)和ρ(PM10)均呈冬季高、夏季低的特征.从浓度谱分布看,全国大气中ρ(SO2)、ρ(NO2)和ρ(PM10)分别集中在0～0.150、0～0.100和0～0.250 mg/m3范围内,ρ(SO2)和ρ(PM10)谱峰区间逐渐向低浓度范围偏移,高浓度事件逐渐减少,表明SO2和PM10污染得到较明显的控制,而ρ(NO2)谱峰变化不大.从浓度变化看,山西ρ(SO2)、ρ(NO2)和ρ(PM10)下降最明显,年变化率分别为-11.2、-3.6和-14.2 μg/m3;青海ρ(SO2)、山东ρ(NO2)和ρ(PM10)的上升趋势最明显,年变化率分别为4.4、2.7和4.5 μg/m3.