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171.
Tong Li Xiange Du Jieqiong Deng Kai Qi Jiandong Zhang Lili Gao Xiuping Yue 《环境科学学报(英文版)》2021,33(10):188-200
Environment-friendly nano-catalysts capable of activating peroxymonosulfate (PMS) have received increasing attention recently. Nevertheless, traditional nano-catalysts are generally well dispersed and difficult to be separated from reaction system, so it is particularly important to develop nano-catalysts with both good catalytic activity and excellent recycling efficiency. In this work, magnetically recoverable Fe3O4-modified ternary CoFeCu-layered double hydroxides (Fe3O4/CoFeCu-LDHs) was prepared by a simple co-precipitation method and initially applied to activate PMS for the degradation of Rhodamine B (RhB). X-ray diffraction (XRD), fourier transform infrared spectrometer (FT-IR), scanning electron microscope (SEM), transmission electron microscopy (TEM), Brunauer-Emmett-Teller method (BET), and vibrating sample magnetometer (VSM) were applied to characterize morphology, structure, specific surface area and magnetism. In addition, the effects of several key parameters were evaluated. The Fe3O4/CoFeCu-LDHs exhibited high catalytic activity, and RhB degradation efficiency could reach 100% within 20 min by adding 0.2 g/L of catalyst and 1 mmol/L of PMS into 50 mg/L of RhB solution under a wide pH condition (3.0-7.0). Notably, the Fe3O4/CoFeCu-LDHs showed good super-paramagnetism and excellent stability, which could be effectively and quickly recovered under magnetic condition, and the degradation efficiency after ten cycles could still maintain 98.95%. Both radicals quenching tests and electron spin resonance (ESR) identified both HO? and SO4?? were involved and SO4?? played a dominant role on the RhB degradation. Finally, the chemical states of the sample's surface elements were measured by X-ray photoelectron spectroscopy (XPS), and the possible activation mechanism in Fe3O4/CoFeCu-LDHs/PMS system was proposed according to comprehensive analysis. 相似文献
172.
Chen Xing Daihui Yang Yan Zhang Tian Sun Junfei Duan Hussein A.Younus Shiguo Zhang 《绿色能源与环境(英文)》2022,7(1):43-52
Heteroatom-doped meso/micro-porous carbon materials are conventionally produced by harsh carbonization under an inert atmosphere involving specific precursors, hard/soft templates, and heteroatom-containing agents. Herein, we report a facile synthesis of N and O co-doped meso/micro-porous carbon (NOMC) by template-free carbonization of a small-molecule precursor in a semi-closed system. The semi-closed carbonizaiton process yields hydrophilic NOMCs with large surface area in a high yield. The porous structure as well as the elemental composition of NOMCs can be modulated by changing the holding time at a particular temperature. NOMCs as metal-free heterogeneous catalysts can selectively oxidize benzyl alcohol and its derivatives into aldehydes/ketones with>85%conversion in aqueous solution, which is much higher than that of the control sample obtained in tube furnace (21%conversion), mainly due to their high N content, high percentage of pyridinic N, and large surface area. The presence of O-containing moieties also helps to improve the hydrophilicity and dispersion ability of catalysts and thus facilitates the mass transfer process during aqueous oxidation. The NOMC catalysts also dispayed excellent activity for a wide range of substrates with a selectivity of>99%. 相似文献
173.
采用溶胶-凝胶法制备了MnOx/TiO2催化剂,考察了n(Mn):n(Ti)、催化剂载体、气体流量对催化燃烧去除废气中正己烷效果的影响.实验结果表明:随着n(Mn):n(Ti)的增加,正己烷去除率先增加后减小,气体流量减小正己烷去除率增大;当n (Mn):n(Ti)为7.85%、气体流量为100 mL/min时,在240℃时正己烷的去除率为90%,MnOx/TiO2催化活性最大;MnOx/TiO2的催化活性优于MnOx/SiO2;SEM和XRD表征结果表明,所制备的MnOx/TiO2是一种活性物种MnOx高度分散的纳米结构催化剂. 相似文献
174.
介绍了LSH-02G克劳斯尾气加氢催化剂的生产工艺及工业应用情况。LSH-02G催化剂具有一定的大孔,可减少CO在催化剂孔道中的停留时间,显著提高催化剂的COS水解率。LSH-02G催化剂工业应用结果表明:装置在80%、100%和110%负荷下运行,各项参数运行正常,急冷水pH稳定在7.8~8.0,急冷塔顶在线氢气含量(φ)维持在1.8%~2.2%,加氢反应器无SO2穿透。加氢反应器中SO2加氢转化率均为100%,COS水解率均在92%以上,符合普光天然气净化厂加氢催化剂技术规格书要求(SO2加氢转化率100%,COS水解率达90%以上)。 相似文献
175.
在对废SCR催化剂组成进行分析的基础上,采用草酸和酒石酸两种有机酸浸取废SCR催化剂中的V和W。实验结果表明:草酸对V、W的浸出率均大于酒石酸;在草酸浓度为1.00 mol/L、浸取温度为80 ℃、液固比为10 mL/g、浸取时间为180 min时,V和W的浸出率分别为63.50%和13.12%;在酒石酸浓度为0.5 mol/L、浸取温度为100 ℃、液固比为10 mL/g、浸取时间为180 min时,V和W的浸出率分别为44.00%和9.00%。酸性浸出未改变SCR催化剂中TiO2的晶型,剩余残渣中依然保留着TiO2骨架,可继续作为催化剂载体使用。 相似文献
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178.
The cracking of styrene derivative polymers dissolved in decalin was conducted with metal-supported carbon catalysts under
an inert gas atmosphere to recover monosubstituted styrene or monosubstituted ethylbenzene in higher yields than is obtained
by pyrolysis, and to elucidate the detailed reaction mechanisms in the solvent. Poly-(4-methylstyrene), poly-(4-t-butylstyrene), poly-(α-methylstyrene), and polystyrene were used. In decalin without a catalyst, each polymer was decomposed
into the monomer, dimer, and trimer derived from the corresponding polymer except for poly-(α-methylstyrene), which was decomposed
into the monomer and styrene. By using metal-supported carbon, the olefinic compounds derived from the corresponding polymer
were thoroughly hydrogenated to the saturated form in a nitrogen atmosphere by a hydrogen transfer reaction from decalin,
which was simultaneously dehydrogenated to tetralin and naphthalene with the evolution of hydrogen gas. In comparison with
metal species, Pd- and Ru-supported carbon catalysts maintained the hydrogenation activity for a longer time and with a lower
evolution of hydrogen than Pt or Rh. The dehydrogenation of decalin was mainly observed not on the metal surfaces, but on
the carbon surfaces over Pd-supported carbon. Stabilization of the monomers will be able to suppress the coking which occurs
with repolymerization in long running process.
Received: July 19, 2000 / Accepted: March 16, 2001 相似文献
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