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排序方式: 共有516条查询结果,搜索用时 15 毫秒
1.
以溶胶-凝胶法制备了纳米TiO2和掺杂Tb的TiO2(Tb-TiO2),用X射线衍射、示差扫描量热、热重分析、红外光谱和荧光光谱等技术对纳米TiO2和Tb-TiO2的结构进行了表征;考察了以纳米TiO2及Tb-TiO2为催化剂光催化氧化环己烷合成环己酮和环己醇的情况。表征结果表明,掺杂Tb后明显抑制了TiO2中锐钛矿相向金红石相的转变,提高了TiO2催化剂的热稳定性,晶格发生了膨胀现象,晶格膨胀可有效降低光生载流子的复合几率,减小晶粒尺寸,提高光催化活性;光催化氧化环己烷的实验结果表明,与TiO2催化剂相比,Tb-TiO2催化剂的环己烷转化率和环己酮、环己醇的选择性大幅度提高,表明Tb-TiO2催化剂的光催化活性和光催化效率提高。 相似文献
2.
研究了用于催化卤素置换反应后的氯化锌催化剂的再生方法。其过程包括:用石灰乳中和,沉淀出氢氧化锌,用氢氧化锌中和氯化锌废液至pH值为5—6,通入氯气氧化氯化锌废液中的有机物,蒸发至必要的浓度。 相似文献
3.
固载于SBA-15分子筛中的同双核金属配合物催化剂 总被引:3,自引:1,他引:2
合成了3种同双核金属配合物[M2LCl3]Cl(L代表配体三亚乙基四胺,M代表Co,Cu,Cr),采用微波加热法合成了SBA-15分子筛,采用浸渍法将3种同双核金属配合物分别固载在表面官能化的SBA-15分子筛(SBA-15-NH2分子筛)中制得负载型催化剂。傅里叶变换红外光谱、X射线衍射、紫外可见光谱和热分析表征结果表明,同双核金属配合物被固载后,其结构仍保持完整。以环己烷氧化反应为探针反应,考察了[Co2LCl3]Cl/SBA-15-NH2,[Cu2LCl3]Cl/SBA-15-NH2,[Cr2LCl3]Cl/SBA-15-NH2催化剂的活性,环己烷转化率分别为11.0%,49.5%,57.9%;对于[Cr2LCl3]Cl/SBA-15-NH2催化剂,当分别以乙睛、丙酮和冰醋酸为溶剂时,环己烷转化率分别为57.9%,52.1%,34.2%,3次重复实验的环己烷转化率分别为57.9%,47.8%,46.5%,表明该催化剂具有较好的活性和重复使用性。 相似文献
4.
Girendra N. Kulsrestha Uma Shankar Jaipal S. Sharma Jasvinder Singh 《Journal of chemical technology and biotechnology (Oxford, Oxfordshire : 1986)》1991,50(1):57-65
Liquid-phase oxidation of cyclohexane with Co(III) catalyst and gaseous oxygen was found to be influenced by reaction temperature, catalyst concentration and the duration. Maximum adipic acid product selectivity (77%) with about 85% cyclohexane conversion was attained at 100°C using catalyst: cyclohexane molar ratio 0·08. Under these conditions more than 80% cyclohexane was converted in the first hour, although selectivity to adipic acid continued to increase for the next 5 h. Cyclohexyl acetate and cyclohexyl monoadipate were identified as important intermediates. This study supports the mechanism proposed by Schultz, J. G. D. and Opchenko, A., J. Org. Chem., 38 (21) (1973) 3729. 相似文献
5.
萃取精馏回收环己烷的双组分溶剂的研究 总被引:3,自引:0,他引:3
在研究萃取精馏分离回收环己烷的单溶剂的基础上,研究了双组分溶剂。当剂油比为7:1时,环己醇和四甘醇双组分溶剂可以将正庚烷对环己烷的相对挥发度由单溶剂时的小于1提高到1.11;将2,3—二甲基戊烷对环己烷的相对挥发度由单溶剂时的小于1.07提高到1.21。用该溶剂在小型萃取精馏实验装置上运行,结果表明,环己烷的纯度为98.5%,收率为80%。 相似文献
6.
J. J. van Loef 《International Journal of Thermophysics》1986,7(1):125-137
The thermal conductivity, , is one of the few transport coefficients which shows a relatively small change at the solid-liquid phase transition, and hence it is a property that can be used in comparing dynamic properties of both ordered and disordered systems. Although the discontinuity in can be accounted for largely by the difference in density, , of solid and liquid at the phase transition, its volume dependence is examined more closely. The thermal diffusivity, which is known to dominate the dynamic structure factor of liquid argon, has been determined around the phase transition also; the sound velocity has been considered in addition. The results are discussed and a comparison is made with these properties in solid and liquid benzene and cyclohexane.Paper presented at the Ninth Symposium on Thermophysical Properties, June 24–27, 1985, Boulder, Colorado, U.S.A. 相似文献
7.
8.
Refractive index increments and density increments have been measured at 307.6K for polystyrene in binary solvents of 1,2,3,4-tetrahydronaphthalene (tetralin, TET) and cyclohexane over the whole range of solvent composition. Comparison of these increments with the corresponding values obtained at dialysis equilibrium (i.e. at constant chemical potential of low molecular weight species) yielded the coefficients of selective adsorption (γ1) of TET by the polymer. Positive values of γ1 were exhibited at solvent compositions up to 78% (v/v) of the thermodynamically better solvent, TET. Theoretical curves of γ1 vs. composition were calculated on the basis of, firstly, relevant interaction parameters and, secondly, interaction parameters in conjunction with solubility parameters. Both procedures afforded self-consistent results, which were, however, uniformly lower than the experimental values of γ1. 相似文献
9.
Stuart M. Barlow Anthony P. Bimbo Eric L. Miller Snorri Thorisson D. E. Walters 《Journal of the American Oil Chemists' Society》1997,74(9):1077-1083
Twenty-two laboratories participated in a collaborative test to determine the iodine value (IV) of eight samples of fish oil
(four with IV<150, four with IV>150) with either carbon tetrachloride (AOCS Official Method Cd 1–25) or cyclohexane (AOCS
Recommended Practice Cd 1b-87) as solvent and either 1 or 2 h of reaction time. Laboratories received coded duplicate samples
(hidden duplicates) and carried out duplicate determinations on each oil by each solvent-time combination (open duplicates).
Replacing carbon tetrachloride with cyclohexane resulted in a lower IV (P<0.001). The decrease averaged 1.6 IV units for low-IV oils and 3.8 IV units for high-IV oils; this difference in response
of 2.2 IV units between low- and high-IV oils was significant (P<0.001). Increasing the reaction time had a relatively small effect (0.34±0.18). There was no interaction of reaction time
with solvent or oil type. Cyclohexane caused emulsions, which made it difficult to titrate residual iodine and thus increased
the variability of the determination. The repeatability standard deviations (s
r
), based on hidden duplicates, for 1-h reaction time with carbon tetrachloride and cyclohexane were 2.17 and 3.35, respectively.
The corresponding reproducibility standard deviations were 2.73 and 4.53. 相似文献
10.
Alternative hydrocarbon solvents for cottonseed extraction 总被引:3,自引:0,他引:3
P. J. Wan D. R. Pakarinen R. J. Hron Sr. O. L. Richard E. J. Conkerton 《Journal of the American Oil Chemists' Society》1995,72(6):653-659
Hexane has been used for decades to extract edible oil from cottonseed. However, due to increased regulations affecting hexane
because of the 1990 Clean Air Act and potential health risks, the oil-extraction industry urgently needs alternative hydrocarbon
solvents to replace hexane. Five solvents,n-heptane, isohexane, neohexane, cyclohexane, and cylopentane, were compared with commercial hexane using a benchscale extractor.
The extractions were done with a solvent to cottonseed flake ratio of 5.5 to 1 (w/w) and a miscella recycle flow rate of 36
mL/min/sq cm (9 gal/min/sq ft) at a temperature of 10 to 45°C below the boiling point of the solvent. After a 10-min single-stage
extraction, commercial hexane removed 100% of the oil from the flakes at 55°C; heptane extracted 100% at 75°C and 95.9% at
55°C; isohexane extracted 93.1% at 45°C; while cyclopentane, cyclohexane, and neohexane removed 93.3, 89.4, and 89.6% at 35,
55, and 35°C, respectively. Each solvent removed gossypol from cottonseed flakes at a different rate, with cyclopentane being
most and neohexane least effective. Based on the bench-scale extraction results and the availability of these candidate solvents,
heptane and isohexane are the alternative hydrocarbon solvents most likely to replace hexane.
Presented in part at the AOCS Annual Meeting & Expo, Atlanta, Georgia, May 1994. 相似文献