1) magnetic seed
磁种
1.
Removal of phosphate from sewage by “magnetic seed-high gradient magnetic separation” method;
“磁种-高梯度磁分离”污水除磷技术的研究
2.
Function of magnetic seed in the selective flocculation and desliming process for separation of hematite in Tilden;
磁种在选择性絮凝—脱泥工艺分选蒂尔登铁矿石中的作用
3.
Magnetic seed is added into the selective flocculation process to improve the susceptibility of flocks,aiming at separating the flocks by magnetic separaton or combined magnetic and gravity separation method.
在选择性絮凝分选过程中加入磁种 ,以增加絮团的磁化率 ,达到用磁选或磁选、重选联合方法分离絮团的目的。
2) magnetic seeds
磁种
1.
The modalities of the aggregates between magnetic seeds and fly ash particles, and the influence of particle size, magnetic flux density, particle residence time and mass concentration on aggregation were examined.
在均匀磁场中,通过添加Fe3O4磁种对东胜烟煤燃烧产生的0。
2.
High gradient magnetic separation (HGMS) was applied for treatment of the wastewater from fermented molasses and the regeneration of magnetic seeds was studied.
采用投磁种的方法进行强化,高梯度磁分离技术可以有效地用于处理有机工业废水,废水经处理后其浊度、色度和COD都大大降低。
3) magnetic flocculation
磁种絮凝
1.
The scale-up continuous test of magnetic flocculation and high gradient magnetic separation of municipal sewage was carried out on the basis of lab experiment.
在小试研究基础上 ,开展了磁种絮凝 高梯度磁分离净化处理城镇污水的扩大连续试验研究。
4) magnetic seeding separation
磁种分离
1.
The application of magnetic seeding separation process in refining kaolinite containing coal has been studied.
本文较详细介绍了磁种分离技术在煤系高岭土这一新领域的应用研究。
5) magnetic seed-magnetic filtration
磁种-磁滤技术
1.
The oily wastewater from an oily field was treated by magnetic seed-magnetic filtration with magnetic powder and particles as magnetic seed and filter media,and effluent oil content and oil removal rate as test indexes.
将表面改性后的磁粉、磁性颗粒分别作为磁种和磁滤材料,以出水含油量、除油率为试验指标,采用磁种-磁滤技术处理江苏油田废水。
6) Surface magnetic coating
表面磁种法
补充资料:磁种分选
磁种分选
separation of magnetic seeds
e IZhong fenxuan磁种分选(separation of magnetic、eeds) 能选择性地附着于弱磁性或非磁性矿物表面,显著增加矿物磁性的铁磁性或亚铁磁性物质称为磁种。利用磁种的这种性质,使弱磁性或非磁性矿物形成磁性团聚体,从而与不附着磁种的、分散的矿物相互分离的磁选方法即磁种分选。磁种分选有凝聚磁种分选、疏水团聚磁种分选和高分子絮凝磁种分选三种方法。其中应用较广的是疏水团聚磁种分选。凝聚磁种分选是在电解质作用下,欲选矿粒与磁种发生选择性粘附,从而与不附着磁种的矿粒在弱磁场磁选机上进行分选。疏水团聚磁种分选是使欲选矿粒与磁种在表面活性剂作用下发生疏水团聚,与不团聚矿粒在弱磁选机上进行分离。分离过程中,磁种与矿粒的团聚主要取决于矿粒表面的疏水程度,而疏水程度则由表面活胜剂的种类和用量来调节。高分子絮凝磁种分选是在高分子絮凝剂作用下,磁种与欲选矿粒形成絮团,与非絮凝物在弱磁选机上进行分选。 (蒋朝斓)
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