1) 6-nitryl wastewater
6-硝废水
1.
Results showed that the adsorption behavior of the inhibition components in concentrated 6-nitryl wastewater on Q235 steel conformed well to Langmuir equation.
6-硝废水无法回收利用,但对钢铁有一定的缓蚀作用,它含有的缓蚀组分在Q235钢表面的吸附符合Langmuir等温式。
2) nitrate wastewater
硝氮废水
1.
Biological treatment of nitrate wastewater with aerobic denitrifiers in a bio-ceramic reactor was investigated.
利用好氧反硝化细菌强化生物陶粒反应器处理含硝氮废水,探讨了生物陶粒反应器中好氧反硝化生物脱氮的实现过程,并运用变性梯度凝胶电泳技术(DGGE)对微生物菌群结构稳定性进行了分析。
2.
The kinetics of denitrification treatment of high concentration nitrate wastewater was studied,obtaining the optimum kinetic conditions.
对反硝化法处理高浓度硝氮废水的动力学进行了研究 ,获得了最佳动力学条件。
3) nitrified wastewater
硝化废水
1.
Study on pro-treatment of nitrified wastewater by micro-electrolysis;
微电解法对硝化废水的预处理研究
4) nylon-6 production wastewater
尼龙6废水
1.
A combined system consisting of hydrolysis acidification, denitrification and nitrification reactors was used to removal carbon and nitrogen from the nylon-6 production wastewater.
用包含水解酸化、硝化和反硝化三个反应器的组合式生物脱氮除碳系统处理尼龙6废水,着重分析了该系统的回流比,溶解氧。
5) nitrocellulose wastewater
硝化棉废水
1.
The operation effect at different temperature and conditions was studied by using combined treatment process of coagulation and two phase activated sludge in nitrocellulose wastewater treatment works.
通过混凝+两段活性污泥法对硝化棉废水处理工程运行效果的分析,研究了在不同的温度条件下利用不同的运行方式所产生的运行效果,寻求系统的优化运行方法。
6) nitrobenzene wastewater
硝基苯废水
1.
Study on nitrobenzene wastewater treatment by iron carbon inner electrolysis;
铁炭内电解处理硝基苯废水的研究
2.
The electrolysis of nitrobenzene wastewater is investigated with three-dimensional electrode which is packed with membrane active carbon and active carbon.
以涂膜活性炭-活性炭为填充粒子,对三维电极电解硝基苯废水进行了研究。
3.
The supercritical water oxidation(SCWO) of nitrobenzene wastewater catalyzed by MnO2 was investigated.
以二氧化锰为催化剂进行了含硝基苯废水在超临界水中的催化氧化研究。
补充资料:硝铵炸药废水
分子式:
CAS号:
性质:粉状硝铵炸药生产过程中产生的废水。主要含梯恩梯(约50mg/L)、硝酸铵(约1%)和木粉(1~4g/L)。pH=6~7。可采用活性炭吸附法除去梯恩梯后用作农田灌溉,或采用厌氧法处理。
CAS号:
性质:粉状硝铵炸药生产过程中产生的废水。主要含梯恩梯(约50mg/L)、硝酸铵(约1%)和木粉(1~4g/L)。pH=6~7。可采用活性炭吸附法除去梯恩梯后用作农田灌溉,或采用厌氧法处理。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条