主要研究了用二氧化钛薄膜在光催化下对苯酚溶液进行转化。
In this paper, the photocatalytic TiO2 thin film for treating phenol solution translate is studied.
以溶胶-凝胶法合成中孔纳米二氧化钛,考察不同光降解反应条件下其对苯酚溶液的降解效果。
The mesoporous nanoparticle TiO_2 is prepared by sol-gel process, and its effect on the degradation rate of phenol under different photocatalytic degradation conditions is investigated.
利用氯碱厂报废的DSA电极电解苯酚,结果显示:此电极对一定浓度的苯酚溶液有较好的去除效果。
The result indicates that a good phenol removal can be obtained under certain phenol concentration by the DSA electrode.
高效液相色谱分析结果表明:光催化降解苯酚溶液的产物有对苯二酚、邻苯二酚、苯醌、顺丁烯二酸和反丁烯二酸等。
The HPLC analysis results indicate that the products of photocatalytic degradation of phenol solution include hydroquinone, catechol, benzoquinone, maleic acid, fumaric acid and so on.
苯酚溶液的初始浓度对超声强化奥氧氧化有比较明显的影响,随着苯酚初始浓度的增大,超声强化臭氧氧化对其COD的降解率降低。
The initial concentration of phenol solution has effect on the ultrasound enhancement ozonization. The COD removal efficiency decreased with increasing of the initial concentration.
芦苇可以通过改变根际和非根际土壤性质以及溶液在土壤中的滞留时间,从而影响湿地土壤对苯酚的净化能力。
Through changing the residence time of solution in soil and physicochemical properties of rhizosphere, reed can disadvantageously affect the purifying efficiency of wetland soil to phenol.
本文报道在苯—氢氧化钠水溶液中,由苯酚和氯乙酸缩合制取苯氧乙酸的良好结果。
This work introduces nice results for the preparation of phenoxyacetio acid in benzene-sodium hydroxide aqueous system through condensation of phenol with chloroacetic acid.
用电化学法在铂片电极上实现了邻基苯酚在酸性溶液中的聚合。
Polymerization of O - aminophenol in acidic aqueous solutions was achieved electrochemically on platinum plate electrode.
本文采用硫酸苯酚法与焦糖化分光光度法相结合的方法,测定含藻水溶液中总糖浓度的变化。
In this article, the phenol-sulfuric acid method combined with caramelization - grating photometer method is used to determine and monitor the content of sugar in algae solution.
本标准溶液以对氯苯酚在超净实验室中准确配制并分装于5毫升安瓿中。
This standard solution was accurately prepared in super-clean laboratory with p-chlorophenol and sub-packed in 5ml ampoules.
本标准溶液以苯酚在超净实验室中准确配制并分装于20毫升安瓿中。
This standard solution was accurately prepared in super-clean laboratory with pre-standardized phenol and sub-packed in 20 ml ampoules.
本标准溶液以间硝基苯酚在超净实验室中准确配制并分装于5毫升安瓿中。
This standard solution was accurately prepared in super-clean laboratory with m-nitrophenol and sub-packed in 5ml ampoules.
本标准溶液以间氯苯酚在超净实验室中准确配制并分装于5毫升安瓿中。
This standard solution was accurately prepared in super-clean laboratory with m-chlorophenol and sub-packed in 5ml ampoules.
以太阳光和紫外灯为光源研究了2 烯丙基苯酚在溶液相中的光化学降解。
The photo-degradation of 2-Allylphenol by UV irradiation or sunlight in various solvents was examined.
通过控制PAN薄膜的电位可以方便地控制苯酚的置入与释放,从而达到分离溶液中苯酚的目的。
Phenol enter or release from film can controlled freely by modulating the potential of PAN films, this characteristic can be used to separate the phenol from the solution.
本标准溶液以3,5 -二甲基苯酚在超净实验室中准确配制并分装于5毫升安瓿中。
This standard solution was accurately prepared in super-clean laboratory with 3, 5-dimethylphenol and sub-packed in 5ml ampoules.
本标准溶液以2,6 -二甲基苯酚在超净实验室中准确配制并分装于5毫升安瓿中。
This standard solution was accurately prepared in super-clean laboratory with 2, 6-dimethylphenol and sub-packed in 5ml ampoules.
本标准溶液以邻硝基苯酚在超净实验室中准确配制并分装于5毫升安瓿中。
This standard solution was accurately prepared in super-clean laboratory with o-nitrophenol and sub-packed in 5ml ampoules.
芦苇可以通过改变根际和非根际土壤性质以及溶液在土壤中的滞留时间,从而影响湿地土壤对苯酚的净化能力。
Through changing the residence time of solution in soil and physicochemical properties of rhizosphere, reed can disadvantageously affect the puri…
水溶液中2,4,6 -三溴苯酚在银阴极上的选择性脱卤。
Selective Dehalogenation of 2, 4, 6-tribromophenol in Aqueous Solution on a Silver Cathode.
水溶液中2,4,6 -三溴苯酚在银阴极上的选择性脱卤。
Selective Dehalogenation of 2, 4, 6-tribromophenol in Aqueous Solution on a Silver Cathode.
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