YSZ基极限电流型NO_(x)传感器研究进展

随着汽车尾气排放标准更加严格,NO_(x)传感器作为主要排放处理技术-选择性催化还原系统(SCR)的核心部件成为当下的研究热点。YSZ作为固体电解质的极限电流型传感器在监测精度和控制成本上有着显著作用。综述了近年极限电流型氧传感器和NO_(x)传感器的研究进展。介绍了传感器的历史发展、结构和工作机理。重点阐述了扩散层、电极层的材料选择和结构组成对传感器性能的影响。基于目前集成MEMS气体薄膜传感器的发展以及传感单元结构多腔耦合组合模型的不断完善,提出未来亟待解决的问题,预测可能的发展方向。

铈基催化剂用于CO选择性催化还原NO_(x)的研究进展

CO选择性催化还原NO_(x)技术(CO-SCR)是利用烟气中CO作为还原剂,将NO_(x)还原为N_(2);与目前普遍应用的氨选择性催化脱硝(NH_(3)-SCR)相比,避免了氨还原剂的使用及逃逸等问题,且同时脱除CO和NO_(x)大气污染物,极具应用潜力。稀土金属铈氧化物因其优异的氧传递能力,可作为载体或助催化剂有效提高COSCR催化反应性能。本文系统比较以氧化铈(CeO_(2))作为载体和活性组分的两大类催化剂体系的CO-SCR脱硝性能,探讨烟气成分(O_(2)、SO_(2)和H_(2)O)对铈基催化剂CO-SCR活性的影响,揭示了催化剂的构效关系;并且归纳总结了铈基催化剂上CO-SCR可能的反应机理。可通过载体改性、活性金属掺杂、形貌调控、制备条件优化等手段,开发具有较宽反应温度区间及抗氧抗硫性能的铈基CO-SCR脱硝催化剂。

低负荷下CFB锅炉二次风优化对NO_(x)排放影响的数值模拟

为控制循环流化床(circulating fluidized bed,CFB)锅炉低负荷下NO_(x)的原始排放,以某350 MW超临界CFB锅炉为研究对象,基于计算颗粒流体力学(computational particle fluid dynamics,CPFD)方法对40%负荷下燃烧过程进行数值模拟。分析了不同二次风角度、新增二次风量对NO_(x)排放的影响。结果表明:随着射流角度的减小,炉膛出口NO浓度逐渐降低,CO浓度无明显增加。部分二次风上移后炉膛密相区氧浓度降低,不完全燃烧增加,还原性氛围增强,抑制了NO的生成。当新增风量从10%增加到30%时,NO排放浓度降低了17.2%。但随着比例的进一步提高,炉膛密相区的缺氧环境造成燃烧效率下降,温度大幅降低。因此,在不影响燃烧的前提下可以通过提高新增二次风比例来降低NO的原始排放浓度。

LOLIMOT模型在CNG发动机NO_(x)排放预测试验中的应用

为解决在选择性催化还原技术(selective catalytic reduction,SCR)的控制策略开发中局部线性模型树(local linear model tree,LOLIMOT)排放模型预测精度不足的问题,提出一种通过优化空间边界,将原模型的超矩形输入空间约束在物理意义范围内的改进LOLIMOT模型。通过某天然气发动机的辨识试验,从分布特征和计算原理角度,分析了该方法对预测结果的影响。结果表明:与原算法相比,改进算法的线性相关度R2提升了1.9%,验证了改进策略的有效性。改进LOLIMOT算法具备较高的收敛速度和稳定性,在排放模型领域具备一定的应用优势。

惰性气体射流协同控制火焰振荡和NO_(x)排放性能研究

预混火焰燃烧通常会出现热声振荡等问题,严重制约了燃气轮机或油气锅炉的安全运行和洁净排放。为此,提出通过惰性气体射流来调控预混燃烧过程,从而实现火焰振荡和NO_(x)排放的协同控制。惰性气体射流将导致预混火焰振荡模态迁移,既可降低火焰振荡幅值,还可使火焰振荡频率发生改变。相对原子质量大的氩气比相对原子质量小的氦气的控制效果好。惰性气体射流能够显著改变火焰结构,使预混火焰长度变短。

Could natural phytochemicals be used to reduce nitrogen excretion and excreta‑derived N_(2)O emissions from ruminants?

Ruminants play a critical role in our food system by converting plant biomass that humans cannot or choose not to consume into edible high-quality food.However,ruminant excreta is a significant source of nitrous oxide(N_(2)O),a potent greenhouse gas with a long-term global warming potential 298 times that of carbon dioxide.Natural phytochemicals or forages containing phytochemicals have shown the potential to improve the efficiency of nitrogen(N)utilization and decrease N_(2)O emissions from the excreta of ruminants.Dietary inclusion of tannins can shift more of the excreted N to the feces,alter the urinary N composition and consequently reduce N_(2)O emissions from excreta.Essential oils or saponins could inhibit rumen ammonia production and decrease urinary N excretion.In grazed pastures,large amounts of glucosinolates or aucubin can be introduced into pasture soils when animals consume plants rich in these compounds and then excrete them or their metabolites in the urine or feces.If inhibitory compounds are excreted in the urine,they would be directly applied to the urine patch to reduce nitrification and subsequent N_(2)O emissions.The phytochemicals’role in sustainable ruminant production is undeniable,but much uncertainty remains.Inconsistency,transient effects,and adverse effects limit the effectiveness of these phytochemicals for reducing N losses.In this review,we will identify some current phytochemicals found in feed that have the potential to manipulate ruminant N excretion or mitigate N_(2)O production and deliberate the challenges and opportunities associated with using phytochemicals or forages rich in phytochemicals as dietary strategies for reducing N excretion and excreta-derived N_(2)O emissions.

Cu,N codoped carbon nanosheets encapsulating ultrasmall Cu nanoparticles for enhancing selective 1,2-propanediol oxidation

In the selective oxidation of biomass-based 1,2-propanediol(PDO)with oxygen as the terminal oxidant,it is challenging to improve the lactic acid(LA)selectivity for nonnoble metal nanoparticles(NPs)due to their limited oxygen reduction rate and easy C-C cleavage.Given the high economic feasibility of nonnoble metals,i.e.,Cu,in this work,copper and nitrogen codoped porous carbon nanosheets encapsulating ultrafine Cu nanoparticles(Cu@Cu-N-C)were developed to realize highly selective of PDO oxidation to LA.The carbon-encapsulated ultrasmall Cu^(0)NPs in Cu@Cu-N-C have high PDO dehydrogenation activity while N-coordinated Cu(Cu-N)sites are responsible for the high oxygen reduction efficacy.Therefore,the performance of catalytic PDO conversion to LA is optimized by a proposed pathway of PDO→hydroxylacetone→lactaldehyde→LA.Specifically,the enhanced LA selectivity is 88.5%,and the PDO conversion is up to 75.1%in an O_(2)-pressurized reaction system(1.0 MPa O_(2)),superior to other Cu-based catalysts,while in a milder nonpressurized system(O_(2)flow rate of 100 mL min-1),a remarkable LA selectivity(94.2%)is obtained with 39.8%PDO conversion,2.2 times higher than that of supported Au nanoparticles(1%Au/C).Moreover,carbon encapsulation offers Cu@Cu-N-C with strong leaching resistance for better recycling.

柴油车尾气中NO_(x)净化研究进展

柴油车尾气中氮氧化物的污染已经成为我国大气污染的主要因素之一,受到广泛关注。综述了现有柴油车尾气NO_(x)净化技术,目前柴油车尾气后处理技术主要有选择性催化还原技术、NO_(x)储存-催化还原技术、低温等离子技术、NO_(x)直接分解技术、NO_(x)和PM同时净化技术等,分析比较了不同净化技术的特点;未来需要进一步研发活性高、选择性强的低成本催化剂,以及配套的尾气净化设备。

PEG-2000添加量对Pr_(x)Zr_(1-x)O_(2-δ)催化氧化NO活性的影响

采用溶胶-凝胶法制备了Pr_(x)Zr_(1-x)O_(2-δ)催化剂,并用于NO催化氧化。以聚乙二醇-2000(PEG-2000)为模板剂对催化剂进行改性,研究了不同模板剂添加质量分数对NO催化氧化活性的影响。结果表明,催化剂活性随PEG-2000添加质量分数的增加而降低;在300℃、PEG-2000添加质量分数为2%时,Pr_(x)Zr_(1-x)O_(2-δ)的催化活性最高,NO转化率达到了94.81%。利用XRD、SEM、N2吸附-脱附、XPS及FT-IR对催化剂进行表征,结果表明,模板剂添加质量分数的变化不会改变催化剂Pr_(2)Zr_(2)O_(7)晶型;催化剂为介孔结构,质量分数为2%时的比表面积和孔容最大,有利于催化氧化NO。此外,模板剂质量分数的增加会增强催化剂的亲水性。

氢发动机SCR催化器的NO_(x)转化效率模拟

建立一维选择性催化还原(selective catalytic reduction,SCR)催化器模型,采用稳态、瞬态小样试验标定SCR化学反应动力学机理,并分析SCR催化器对氢发动机排气中NO_(x)的催化还原过程。结果表明:入口O2体积分数对NO_(x)催化还原有抑制作用,但入口H2O体积分数对NO_(x)转化效率没有明显影响;当温度为250~400℃时,线性温升工况NO_(x)转化效率高于稳态工况且超过98%;氢发动机排气温度和原排NO_(x)体积分数随功率增大而增大,当功率大于60 kW且氨氮比等于1时,SCR催化器转化效率小于95%;增加氨氮比对NO_(x)转化效率的提高作用较小,这是由于在高温条件下增加的NH3倾向与O2反应。

基于GWO-LSTM的柴油机NO_(x)排放预测

柴油机NO_(x)是机动车主要的有害排放物质,精确测量NO_(x)排放有利于SCR尿素喷射的控制从而减少排放,而现有的氮氧传感器和通过标定获得的排放MAP均难以实现瞬态条件下NO_(x)的实时测量。使用主成分分析法(PCA)对全球统一瞬态试验循环(WHTC)的柴油机工况参数进行降维处理,基于长短期记忆神经网络(LSTM)搭建柴油机NO_(x)实时预测模型,并利用灰狼优化算法(GWO)对LSTM模型进行参数优化。结果显示:GWO-LSTM预测模型在未训练的数据集上的平均相对误差(MAPE)为3.23%,证明该模型能够精准实现柴油机NO_(x)排放的实时预测,并具有良好的泛化能力和可靠性,为以软件替代硬件实现柴油排放控制提供了参考。

Ag/Al_(2)O_(3)对船舶发动机尾气HC与NO_(x)协同催化净化

船舶发动机尾气中的氮氧化物(NO_(x))和碳氢化合物(HC)对大气环境有较大的危害.直接利用HC作为还原剂与NO_(x)发生选择性催化还原脱硝反应(HC-SCR),实现对发动机尾气中的HC和NO_(x)协同催化净化,是非常具有应用前景的船舶尾气净化技术之一,而开发高性能的HC-SCR催化剂是该技术的核心.采用商业伽马型氧化铝(γ-Al_(2)O_(3))作为载体、硝酸银(AgNO_(3))作为前驱体,通过湿浸渍法制备了负载型银基氧化铝(Ag/Al_(2)O_(3))催化剂.经固定床反应器活性测试发现,纯γ-Al_(2)O_(3)载体在甲烷-SCR(CH_(4)-SCR)和丙烷-SCR(C_(3)H_(8)-SCR)中具有一定的催化活性,而负载银(Ag)后得到的催化剂(Ag/Al_(2)O_(3))在反应中的低温催化性能得到进一步提高.利用粉末X射线衍射技术(XRD)、紫外可见分光光谱(UV-Vis)、HC完全氧化、NO_(x)程序升温脱附(NO-O_(2)-TPD)及原位红外光谱(in situ DRIFTS)等表征手段,分析了Ag/Al_(2)O_(3)催化剂的主要物相组成以及Ag物种的状态,并详细阐述了Ag/Al_(2)O_(3)催化剂表面HC-SCR反应的反应路径,即:HC在催化剂表面Ag物种的作用下部分氧化形成活性中间体醋酸类物种;一氧化氮(NO)在催化剂载体表面吸附活化成单齿硝酸盐类物种;HC部分氧化中间体醋酸类物种与NO吸附活化物种单齿硝酸盐物种发生反应,生成氮气(N2)和水(H2O).

Novel sandwich structured glass fiber Cloth/Poly(ethylene oxide)-MXene composite electrolyte

Recently,poly(ethylene oxide)(PEO)-based solid polymer electrolytes have been attracting great attention,and efforts are currently underway to develop PEO-based composite electrolytes for next generation high performance all-solid-state lithium metal batteries.In this article,a novel sandwich structured solid-state PEO composite electrolyte is developed for high performance all-solid-state lithium metal batteries.The PEO-based composite electrolyte is fabricated by hot-pressing PEO,LiTFSI and Ti_(3)C_(2)T_(x) MXene nanosheets into glass fiber cloth(GFC).The as-prepared GFC@PEO-MXene electrolyte shows high mechanical properties,good electrochemical stability,and high lithium-ion migration number,which indicates an obvious synergistic effect from the microscale GFC and the nanoscale MXene.Such as,the GFC@PEO-1 wt%MXene electrolyte shows a high tensile strength of 43.43 MPa and an impressive Young's modulus of 496 MPa,which are increased by 1205%and 6048%over those of PEO.Meanwhile,the ionic conductivity of GFC@PEO-1 wt%MXene at 60℃ reaches 5.01×10^(-2) S m^(-1),which is increased by around 200%compared with that of GFC@PEO electrolyte.In addition,the Li/Li symmetric battery based on GFC@PEO-1 wt%MXene electrolyte shows an excellent cycling stability over 800 h(0.3 mA cm^(-2),0.3 mAh cm^(-2)),which is obviously longer than that based on PEO and GFC@PEO electrolytes due to the better compatibility of GFC@PEO-1 wt%MXene electrolyte with Li anode.Furthermore,the solid-state Li/LiFePO_(4) battery with GFC@PEO-1 wt%MXene as electrolyte demonstrates a high capacity of 110.2–166.1 mAh g^(-1) in a wide temperature range of 25–60C,and an excellent capacity retention rate.The developed sandwich structured GFC@PEO-1 wt%MXene electrolyte with the excellent overall performance is promising for next generation high performance all-solid-state lithium metal batteries.

SOP制酸装置降低排放尾气中NO_(x)含量的研究

简述了SOP制酸装置工艺流程和运行参数,阐述了燃烧过程中NO_(x)的生成机理及为降低NO_(x)含量所采取的措施,可作为SOP制酸装置控制NO_(x)排放的参考。

洁净型煤NO_(x)生成特性与排放规律实验研究

为了研究民用洁净型煤中NO_(x)生成特性与排放规律,通过管式炉燃烧实验装置研究了燃烧温度、燃烧氛围、氧浓度、一次风比例、模拟烟气再循环和半焦掺混比例等因素对于洁净型煤NO_(x)排放的影响。结果表明:在900~1200℃范围内,NO_(x)随着燃烧温度升高而呈线性趋势下降;在O_(2)/N_(2)和O_(2)/CO_(2)气氛下,氮转化率总体上均随着氧气浓度增加而下降,随着一次风比例的增加,NO_(x)生成量整体呈上升趋势;采用烟气再循环方式有利于降低氮转化率,但只有烟气再循环比例较大时,NO_(x)才有明显下降;在600℃、800℃、1000℃三种温度下制备半焦,当制焦温度为600℃时,半焦与型煤掺混后NO_(x)排放量最低,并且氮转化率随着半焦比例的增加而下降。

球团生产烟气中NO_(x)的治理技术与实践

介绍了淄博铁鹰球团制造有限公司链篦机-回转窑球团工艺NO_(x)治理技术措施和生产实践。根据链篦机-回转窑NO_(x)的产生特点和排放量,通过市场调研、实地考察、技术分析及方案论证,选用了SCR-SNCR联合脱硝技术,实施了链篦机分段及其烟道结构创新改造。提高了烟气中NO_(x)收集率,实现了稳定达标排放;还原剂实际消耗量较设计值下降约15%,降低了脱硝运行成本。

基于智能算法的重型车辆NOx排放量预测方法

重型车辆NOx排放量的传统预测方法中,由于没有利用误差反馈来修正预测算法,导致预测出的NOx排放量数据与真实数据相差较大。为此提出基于智能算法的重型车辆NOx排放量预测方法。收集大量的重型车辆真实的NOx排放数据,计算出重型车辆NOx综合排放因子,基于智能算法构建BP人工神经网络,设置隐含模式的工作层,输入收集到的真实数据对智能算法进行训练,利用BP神经网络误差反传的功能对每个数据对进行训练,通过误差反馈修正算法的预测误差。设计道路预测实验,将基于智能算法得出的重型车辆NOx排放量数据与真实排放量数据进行对比,得出两者数据结果高度一致的结论,表明该方法的预测数据误差较小,能够进行有效的重型车辆Nox排放量预测。

低NO_(x)燃烧器改造及数值模拟分析

依托某化纤公司现役的10 MW有机热载体炉用燃气燃烧器超低氮改造项目,对有机热载体炉超低氮改造方案、改造前后的炉膛内火焰变化以及氮氧化物生成量进行整理分析,进一步对改造后的燃烧器进行适当简化后建模。通过Fluent软件对其进行数值模拟,分析氮氧化物随有机热载体炉负荷变化的生成规律,为有机热载体炉用燃烧器的超低氮改造及使用提供理论及试验案例支撑,为超低氮燃烧器的进一步优化改造提供参考。

Catalyst-Packed Non-Thermal Plasma Reactor for Removal of Nitrogen Oxides

A single-stage plasma-catalytic reactor in which catalytic materials werepacked was used to remove nitrogen oxides. The packing material was scoria being made of variousmetal oxides including Al_2O_3, MgO, TiO_2, etc. Scoria was able to act not only as dielectricpellets but also as a catalyst in the presence of reducing agent such as ethylene and ammonia.Without plasma discharge, scoria did not work well as a catalyst in the temperature range of 100 ℃to 200 ℃, showing less than 10% of NOx removal efficiency. When plasma is produced inside thereactor, the NOx removal efficiency could be increased to 60% in this temperature range.

STUDIES ON TBP-NO_x——A NEW OXIDIZING AGENT PREPARED FROM NITROGEN OXIDES

Nitrogen oxides(NO_2 and NO)are absorbed by tributyl phosphorate(TBP)to fom a new complex mixture of TBP-NO_x. which is used as a selective oddizing agent to oxidize benzylalcohols to corresponding sldehydes or ketones In high yield. In the reaction process, nitrogen oxides are llberated mildly and mainly reduced to nitrogen, while tributyl phosphorate is recovered end recycled.