硝酸铜

选择的系列均相催化剂显示了较高的催化活性，硝酸铜的催化活性最高，COD去除率达到97.5%。

The catalytic activity of copper nitrate was the highest among homogeneous catalyst selected and the removal rate of COD was 97.5 % at 190 ℃ .

制备了18-冠-6和15-冠-5两种冠醚与硝酸铜、氯化铜的配合物，用元素分析、红外光谱分析了配合物的结构，用DSC扫描仪考察了它们的热分解过程。

The conclusion as follows : 1 . The complexes of copper nitrate and chloride with 18-C-6,15-C-5 are prepared , and characterized by element analysis , IR spectra and thermal analysis .

通过XRD和TEM分析，证明在甲苯和水体系中，控制一定的硝酸铜浓度，可以得到棒状铜纳米粒子。

The results show that the rod-like copper nanoparticles could be obtained at a certain concentrations of copper nitrate in the toluene / water two-phase system by TEM and XRD measurements .

15-冠-5与硝酸铜配合物的分解温度超过了UHMWPE的加工温度，决定用它对UHMWPE进行填充改性。

The decomposing temperature of complex of copper nitrate with 15-C-5 is over the processing temperature of UHMWPE , so it is used filling in UHMWPE .

利用硝酸铜对颗粒活性炭浸渍改性，考察了影响改性活性炭吸附H2S效率的因素，研究了吸附催化氧化机理及其动力学过程。

The factors which influenced the modified activated carbon adsorbing H2S were investigated in the laboratory experiment . The adsorption-catalytic oxidation mechanism and dynamics process also have been discussed .

用硝酸溶解Mo-Cu合金废料，回收金属钼和硝酸铜。研究了硝酸浓度和废Mo-Cu合金板破碎颗粒大小对反应速度的影响。

A technic that reclaims molybdenum and copper from waste Mo-Cu alloy plates with nitric acid disposal has been explored .

实验结果表明，用硝酸处理Mo-Cu合金板材废料，可回收金属钼和硝酸铜，回收的金属钼粉纯度≥99.96%，杂质元素钾、铁、镍等含量很低；

Experiments prove that it may be reclaimed molybdenum and copper nitrate from waste Mo-Cu alloy plates with nitric acid disposal .

以硝酸铜[Cu（NO3）2]、硫代乙酰胺（TAA）为原料，用超声波化学法制备了硫化铜纳米粒子。

Copper monosulfide ( CuS ) nanoparticles were synthesized by sonochemistry from an copper nitrate [ Cu ( NO3 ) 2 ] and thioacetamide ( TAA ) .

考察了CuO的不同前驱体对铁铬系CO高温变换催化剂反应性能的影响，研究发现，CuO助剂可改善催化剂的低温活性，以硝酸铜的加入形式效果较为显著。

The effects of different precursors for CuO on the catalytic properties of Fe-Cr-based CO high-temperature shift ( HTS ) catalyst were investigated . It was shown that CuO improved low-temperature activity of the catalyst and doping of CuO as copper nitrate was preferable .

硝酸铜防结块添加剂的研制和应用

Development of additive for preventing agglomeration of copper nitrate and its application

硝酸铜生产过程中废气处理研究

Research for the Harmful Gas Treatment in the Production of Copper Nitrate

金属铁的含量是通过用硝酸铜溶液对铁进行电化学溶解的方法加以测定的。

Metallic iron contents were determined by electrochemical solution .

尼龙66与甲基丙烯酸甲酯接枝共聚合的研究&DMA/硝酸铜引发体系

GRAFT POLYMERIZATION OF METHYL METHACRYLATE ONTO NYLON 66 & Dimethylaniline / Copper Nitrate System

对比研究了在不同硝酸根和水杨酸甲酯配比条件下用硝酸铜和硝酸作硝化试剂时的硝化收率和区域选择性。

The yield and regioselectivity were investigated at various ratios of nitrate to salicylate with copper nitrate comparing with nitrous acid .

该沉淀经硝酸溶解和浓缩结晶可以得到硝酸铜，其回收率为82.32%（以铜含量为基准）。

By treating this precipitate with nitrous acid followed by a recrystallization process , copper ( II ) nitrate was recovered in82.32 % yield .

运用酒精、硬脂酸、氢氧化钠、酚酞、硝酸铜、硝酸钴等原料，制备彩色固体酒精。

The colored solidified alcohol has been prepared by utilizing alcohol , stearic acid , sodium hydroxide , phenolphthalein , copper nitrate and cobalt nitrate .

以硝酸铜和高氯酸锆为原料，氢氧化钠为沉淀剂，采用共沉淀法制备了Cu/ZrO2催化剂。

Cu / ZrO_2 catalyst for dehydrogenation of diethanolamine to diglycolamidic salt was prepared from copper nitrate and zirconium perchlorate by co-precipitation using sodium hydroxide as precipitating agent .

论文主要内容总结如下：1.利用生物小分子甘氨酸作模板，硝酸铜水溶液作铜源，制备了大孔的氧化铜。

The details are summarized as follows : 1 . The macroporous CuO has been produced with glycine as template and Cu ( NO3 ) 2 aqueous solution as copper source .

生产实践证明，此防结块添加剂对硝酸铜具有很好的防结块作用，使用方便，价格低廉。

The results show this additive has good effects to prevent the agglomeration of Cu ( N03 ) 2 . It 's also easy to use and has low price at that .

介绍了固体酒精燃料生产工艺的改进试验，利用工业酒精、硬脂酸、石蜡、硝酸铜为主要原料，开发出具有实用价值、安全、卫生、方便的固体酒精燃料。

This paper introduced an improved technique in the production of practical , safe , hygienic and convenient solid alcohol with industrial alcohol , stearic acid , paraffin , cupric nitrate as main materials .

本文使用硝酸银、硝酸铜、硝酸锌三种物质制备抗菌溶胶，分别制备了单一组分、双组分和三组分的抗菌溶胶，利用抗菌溶胶整理棉织物，赋予织物耐久的抗菌性能；

In this article , silver nitrate , copper nitrate , zinc nitrate were used for the preparation of single-ingredient , two-ingredient , three-ingredient antibacterial sol , the antibacterial sol was utilized to endue cotton fabrics with enduring antibacterial property ;