较为成熟的技术是臭氧一生物活性炭组合工艺,对硝基苯废水、印染废水、焦化废水、制革废水的深度处理都已有报道。BAC一膜分离(超滤或微滤)联用技术得到了国内研究工作者的关注,超滤或微滤对水中悬浮固体具有较高的去除率,但对水中溶解性固体的去除能力有限,活性炭恰恰弥补了膜分离技术的不足,同时还能提高系统的生物量,降低膜过滤阻力。
...沉降; 生化法; 高级氧化技术; Fe / C 微电解 [gap=715]Keywords: fracturing fluid recovery; flocculation; biochemical; advanced oxidization; Fe / C micro-electrolysis ..
基于16个网页-相关网页
...生化法;电化学氧化法 [中图分类号]X5 [文献标识码]A [文章编号]1007-1865(2010)08-0137-01 [gap=1031]Keywords: printing and dyeing wastewater;biochemical technology;electrochemical oxidation technology ..
基于6个网页-相关网页
衍生化法 derivatization method ; derivatization SPME ; Chiral Derivatization Reagent
手性衍生化法 chiral derivation method
柱前衍生化法 precolumn derivatization
原位杂交组织生化法 in situ hybridization histochemistry
综合生化法 integrated biologicalchemical process
指手性试剂衍生化法 Chiral Reagent Derivatization
手性试剂衍生化法 CRD ; Chiral Reagent Derivatization
微量生化法 Micro-biochemistry
快速生化法 RPIR
On the basis of insight into the characteristics of copper phthalocynine wastewater, a combined chemical and biochemical treatment method was suggested.
通过试验研究 ,提出了一种物化—生化法处理铜酞菁颜料废水的新工艺。
参考来源 - 铜酞菁颜料废水处理试验研究·2,447,543篇论文数据,部分数据来源于NoteExpress
生化法检测细胞内外不溶性钙。
Insoluble calcium of cellular layer was determined by biochemical method.
介绍了利用加压生化法处理印染废水的研究成果。
This paper describes the treatment of printing and dyeing wastewater by pressurized activated sludge process.
传统的化学法和生化法几乎达到技术极限,处理效果很难提高。
Conventional biochemical treatment has reached its technical limit and is hard to improve its treatment effectiveness.
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