1) Butralin production wastewater
仲丁灵农药废水
1.
Treatment of Butralin production wastewater by iron-carbon microelectrolysis,Fenton oxidation and activated carbon adsorption
Fe/C微电解-超声波/Fenton氧化-活性炭吸附处理仲丁灵农药废水
2) butralin wastewater
仲丁灵废水
1.
According to the characteristics of butralin wastewater, such as high COD concentration, low BOD5/COD and biological toxicity, butralin wastewater was treated by Fenton oxidation, hydrolytic acidification and aerobic combined processes.
根据仲丁灵废水具有高浓度、难生物降解的特点,采用Fenton氧化-水解酸化-好氧组合工艺对该废水进行试验研究。
3) Pdibutalin
仲丁灵原药
1.
Experiment of the Sub-Chronic Toxicity of Pdibutalin on Rats;
仲丁灵原药对大鼠的亚慢性毒性试验
4) pesticide wastewater
农药废水
1.
Study on a catalyst for catalytic wet air oxidation of pesticide wastewater from imidacloprid production;
催化湿式氧化吡虫啉农药废水催化剂的研究
2.
Study on catalytic wet air oxidation of pesticide wastewater of imidacloprid production over Mn/Ce catalyst;
Mn/Ce复合催化剂湿式氧化降解高浓度吡虫啉农药废水的研究
3.
Treatment of degradation-resistant pesticide wastewater with high salinity by wet air oxidation;
湿式氧化法处理高盐度难降解农药废水
5) pesticides wastewater
农药废水
1.
Photoelectrocatalytic degradation of pesticides wastewater using nanosized RuO_2-TiO_2;
纳米RuO_2-TiO_2光电催化处理农药废水研究
2.
Photoelectrocatalytic Combined with Constructed Wetland Treatment with Organic Pesticides Wastewater;
纳米光电催化和人工湿地联合工艺处理有机农药废水的研究
3.
The application of photocatalytic oxidation,ozonation,Fenton reagent oxidation and the combination of these advanced oxidation processes in the treatment of pesticides wastewater were reviewed.
综述了光催化氧化(photocatalytic oxidation)、臭氧氧化(ozonation,O3)、芬顿试剂氧化(fenton reagent oxidation)等高级氧化技术以及它们的组合技术在农药废水处理中的应用研究进展,比较分析了各种高级氧化技术的特点与处理效果。
6) butralin
仲丁灵
1.
Determination of butralin by gas chromatography;
仲丁灵的气相色谱法测定
2.
Analytical Method of Butralin in Emulsifiable Concentrate Using High Performance Liquid Chromatography
仲丁灵乳油高效液相色谱分析方法研究
3.
The analysis method of butralin residue in soil and water was established and its analysis method includes that water and soil samples were ultrasonic extracted by the solvents with acetone +water and petroleum ether respectively and the samples were determined by capillary gas chromatography.
以丙酮+水、石油醚作为溶剂,分别对土壤和水样品进行超声萃取,采用毛细管-气相色谱法检测,外标法定量,建立了仲丁灵在土壤及水中的残留分析方法并进行分析。
补充资料:仲丁
商朝国王。仲丁,姓子名庄。生卒年不详。商王126022.htm>太戊子。太戊死后继位。在位13年(一说11年),病死,葬于狄泉。仲丁于己未年即位,仲丁元年,自亳迁都于嚣。(今河南省郑州市附近,一说在今河南省荥阳县东北)。当时,东南方的夷族兴起,仲丁六年,其中的蓝夷进攻6560.htm>商朝,仲丁出兵击退蓝夷。322859.htm>仲丁死后,诸弟争夺王位,造成继承上的96239.htm>九世之乱,商朝一度中衰。仲丁死后,其弟322881.htm>外壬即位。