SCR脱硝催化剂抗砷中毒改性优化与再生研究进展

选择性催化还原（SCR）是目前应用最为广泛的烟气脱硝技术,催化剂是整个SCR脱硝系统的核心。在实际应用过程中,催化剂存在各种失活问题,其中砷中毒是催化剂失活的重要原因之一。本文详细阐述了SCR脱硝催化剂砷中毒的物理和化学失活机理,其中物理失活是由于As₂O₃在催化剂表面沉积、氧化造成催化剂孔道堵塞所致,而化学失活是由于砷氧化物破坏催化剂酸位点、改变活性基团形态、降低催化剂氨吸附及氧化还原能力所致。然后,系统介绍了抗砷中毒SCR脱硝催化剂的研发路线以及现有抗砷中毒催化剂优化改进的主要技术手段,主要包括调整催化剂孔隙结构、优化催化剂化学配方和烟气侧砷氧化物吸附固化等,其中MoO₃是优选的催化剂活性助剂,金属元素（如Bi、In、Sn、Mg）是主要的抗砷助剂,钙基物质是典型的烟气侧砷氧化物吸附添加剂。最后,对砷中毒废弃催化剂的再生技术进行了简要介绍,包括湿法清洗、热还原法、复合再生等,在实际工业应用中,主要以物理清扫、湿法清洗配合活性组分添加的复合再生方式实现中毒催化剂再生。本文可对未来抗砷中毒SCR脱硝催化剂的研发与优化提供重要支撑。     

结构化铜基催化剂电化学还原CO2为多碳产物研究进展

近年来,随着有关铜基催化剂价态、晶面、微观形态等结构化因素对其催化性能影响的研究不断深入,铜基催化剂电化学还原CO₂高选择性制备高附加值多碳（C₂₊）产物取得长足进展。本文系统综述了近五年来结构化铜基催化剂电化学还原CO₂生成C₂₊产物的研究报道,并分析总结了铜基催化剂表面混合价态、高活性晶面和丰富晶界的存在,以及富含限域空间的形态学结构（纳米线阵列、纳米树突和纳米多孔结构等）的构建与其电化学还原CO₂生成C₂₊产物的活性和选择性之间的构效关系。进一步提出了CO₂电化学还原领域发展的新趋势,即充分发挥各个结构化因素的协同作用,原位制备具有混合价态和丰富晶界的纳米多孔结构铜基催化剂,并在流通池中高效还原CO₂持续生成C₂₊产物。     

Cobalt nanoparticle decorated N-doped carbons derived from a cobalt covalent organic framework for oxygen electrochemistry

The low cost and highly efficient construction of electrocatalysts has attracted significant attention owing to the use of clean and sustainable energy technologies. In this work, cobalt nanoparticle decorated N-doped carbons (Co@NC) are synthesized by the pyrolysis of a cobalt covalent organic framework under an inert atmosphere. The Co@NC demonstrates improved electrocatalytic capabilities compared to N-doped carbon without the addition of Co nanoparticles, indicating the important role of cobalt. The well-dispersed active sites (Co–N_x) and the synergistic effect between the carbon matrix and Co nanoparticles greatly enhance the electrocatalytic activity for the oxygen reduction reaction. In addition, the Co content has a significant effect on the catalytic activity. The resulting Co@NC-0.86 exhibits a superb electrocatalytic activity for the oxygen reduction reaction in an alkaline electrolyte in terms of the onset potential (0.90 V), half-wave potential (0.80 V) and the limiting current density (4.84 mA·cm^–2), and a high selectivity, as well as a strong methanol tolerance and superior durability, these results are comparable to those of the Pt/C catalyst. Furthermore, the superior bifunctional activity of Co@NC-0.86 was also confirmed in a home-built Zn-air battery, signifying the possibility for application in electrode materials and in current energy conversion and storage devices.     

Synthesis and performance evaluation of a new drag reducer based on acrylamide/12-allyloxydodecyl acid sodium

Hydraulic fracturing with slickwater is a field-proven stimulation technology used in tight reservoirs. Because of the high pumping rate associated with slickwater fracturing, drag reduction (DR) is critical in minimizing pressure drop and the success of oilfield operations. In this paper, a new type of drag reducer (SPR) was synthesized with acrylamide and 12-allyloxydodecyl acid sodium, and its drag reduction performance was evaluated. The results showed that the new drag reducer features low molecular weight, fast-dissolving rate and low interfacial tension. The algorithm of estimating the drag reduction rate of non-Newtonian fluid SPR was proposed and validated. Empirical or semianalytical models for estimating the friction ratio (σ) or friction factor (λ or f) were used to simulate the turbulence behavior of the SPR drag reducer under different Reynolds numbers (Re). The modified Virk's correlation could accurately model the turbulent behavior of the SPR drag reducer. A unified calculation formula was established in this study for different pipe diameters.     

刚柔组合桨强化软锰矿浸出过程的反应动力学特性

在软锰矿湿法浸出过程中,采用传统搅拌桨反应器,容易出现流体“打旋”现象,导致传质效果差,进而降低反应效率。因而,本研究将刚柔组合桨应用于软锰矿的还原浸出过程,强化浸出过程的传质行为,提高锰矿浸出率。结果表明,在黄铁矿与软锰矿质量比为0.20,硫酸浓度为1.5 mol/L,液固比为10,温度为363 K下,软锰矿中锰的浸出率达到90.12%,与传统桨叶相比,锰浸出率提高5.5%。同时,研究发现浸出过程遵循核收缩模型且受表面化学反应控制,黄铁矿与软锰矿质量比、初始硫酸浓度、液固比的反应级数分别为1.2679、0.4182、1.1959,反应动力学方程为1- （1-X）^1/3=0.96×10³（m_{\mathrm{F}\mathrm{e}{\mathrm{S}}_{\mathrm{2}}}/m_{\mathrm{M}\mathrm{n}{\mathrm{O}}_{\mathrm{2}}}）^1.2679 [H₂SO₄]^0.4182（L/S）^1.1959exp（-41.75 ×10³/RT）t,浸出反应的表观活化能为41.75 kJ/mol。刚柔组合桨体系下的软锰矿浸出反应表观活化能相比传统搅拌体系下的软锰矿浸出反应表观活化能的文献报道值降低4.515~20.54 kJ/mol。     

机器视觉技术在油田应用现状及展望

近年来,国际政治经济形势发生了深刻变革,中国的石油行业面临着严峻的多维挑战.在高成本开采压力之下,采取油气技术+互联网的方式,借助机器视觉技术建设智能油田有望成为当前油田降本增效的有效途径.通过调研机器视觉技术在油田应用现状及进展,对融合过程中存在的问题进行了分析挖掘,前瞻性地探讨了机器视觉与油田深度融合的建设目标、建...     

贵州天柱重晶石回转窑还原焙烧生产工艺研究

中国重晶石资源储量丰富,为科学合理利用,避免重晶石开发过程中浪费,采用?3.2 m×60 m回转窑还原焙烧处理贵州天柱重晶石,考察了焙烧温度、抛煤对重晶石还原效果的影响。结果表明,当高温区温度为1 050~1 200 ℃、窑尾温度为500~600 ℃、窑头温度为750~850 ℃、回转窑转速为0.20~0.40 r/min、处理量为15~20 t/h、吨矿耗煤为191.64 kg时,获得粗钡中硫化钡质量分数为70.5%、粗钡浸出率为91.3%的良好指标,焙烧矿石及浸出考核指标均合格,对合理利用中国储量巨大的重晶石矿资源具有重要的现实意义。     

C3H6选择性催化还原NO催化剂Ag／γ—A12O3的研究

采用低负载量的(0～3％)Ag／γ-A12O3体系作为C3H6选择性催化还原(C3H3-SCR)NO的催化剂，考察了银负载量、反应温度、空速对NO转化率的影响．同时对于原料气中氧的作用进行了研究．结果表明：银负载量为1．5％时，催化剂表现出最高的反应活性；在考察的条件范围内，原料气中含氧对NO的还原有促进作用，适宜的氧浓度为0．27％；反应温度的过高会导致还原气中C3H6大幅度转化为CO2。     

Voltammetric study of electrocatalysis for dioxygen reduction by trinuclear rutheniumammine complex confined in a polymer membrane

Electrocatalytic O₂ reduction was studied using a modified electrode coated with a Nafion membrane (Nf) dispersing a trinuclear ruthenium ammine complex ([(NH₃)₅Ru^IIIORu^IV(NH₃)₄ORu^III(NH₃)₅]Cl₆, Ru-red). When measuring cyclic voltammogram under O₂ atmosphere (at 0.5 mV s⁻¹), catalytic currents due to O₂ reduction were found to develop below −0.2 V (vs. Ag/AgCl). Since Ru-red undergoes irreversible decomposition into the mononuclear complexes via the reduced state (Ru^III-Ru^III-Ru^III) (∼−0.1 V), it is suggested that the electrocatalysis originates from the decomposed species (initial active species: Ru^II(NH₃)₅(OH₂) and Ru^II(NH₃)₄(OH₂)₂) rather than from the Ru-red. Although the present electrocatalyst was also applied to H₂O₂ reduction system, the catalytic activity was found to be poor from the voltammetric behavior. It appeared that the kinetics of the electrocatalysis is much faster in the O₂ reduction than in the H₂O₂ one. A selective and direct catalysis for O₂ reduction into H₂O was suggested from a ring-disk voltammogram to take place by an aggregate of the mononuclear ruthenium complexes in the polymer matrix. In addition, it was found that electrocatalytic O₂ reduction involves a slow kinetic process, so that factors affecting the overall kinetics were discussed in terms of the catalysis mechanism.     

碳氢化合物去除氮氧化物的研究进展

介绍了氮氧化物的形成机理以及用碳氢化合物选择性催化还原氮氧化物的研究状况,对今后去除氮氧化物的研究工作提出了建议。