1) acid pelletizing sinter
酸性球团烧结矿
1.
The viscosities, surface tensions and melting points of the binding phases in acid pelletizing sinters with different adding amounts of CaF 2, MgO or TiO 2 have been measured.
为了解决酒泉钢铁公司3号烧结机酸性球团烧结矿在烧结过程中负压偏高的问题,对添加不同配比的CaF2、MgO和TiO2的球团烧结矿粘结相的粘度、表面张力和熔点进行了测定。
2) acid MPS
酸性小球团烧结矿
1.
,№3 sinter plant operations for acid MPS production, were analyzed.
对酒钢3 号烧结机,在酸性小球团烧结矿生产实践过程中所暴露出的烧结负压过高、利用系数低及成品烧结矿中小粒级(5~10m m )含量高等问题进行了分析。
3) acid pellet sintering process
酸性球团烧结
1.
In the acid pellet sintering process,whatever adding limestone powder or killed lime powder,experimentation and research of distribution of dividing flux indicated that the productivity of the sinter machine increased,the achievement was the increase of 25%,and that the metallurgical performance of the sinter also improved.
酸性球团烧结熔剂分加试验表明,无论外配生石灰还是消石灰,均可大幅度提高烧结利用系数,提高幅度在25%左右,而且烧结矿冶金性能也有改善。
4) acid pellets
酸性球团矿
5) acid sinter
酸性烧结矿
1.
The experiment and production of low silica acid sinter in ANGANG were presented in this paper.
介绍了安钢进行低硅酸性烧结矿的试验及生产。
2.
The aspect of acid sinter production on 75m 2 sintering machine in BENGANG №2 ironmaking plant was presented in this paper A quater's operation shows that this acid sinter possess higher strenth and stable basicity,and the BF operation gained obvious benefits with the charge burden of 32% acid sinter and 68% high basicity sinte
本文介绍了本钢二铁厂在 75m2 烧结机上生产酸性烧结矿的情况。
6) pellet sintering
球团烧结
1.
The results show that the pellet sintering technique for Yamansu′s net iron concentrate has obvious advantages over concentional sintering processes.
研究了全精矿球团烧结中焦粉内配比例、焦粉粒度、烧结矿碱度的选取,并进行了配加生矿粉试验,试验结果表明,雅满苏铁精矿全精矿球团烧结工艺明显优于普通烧结工艺。
2.
So by comparing with conventional sintering, chromite pellet sintering technology (PST) and its agglomeration mechanism have been studied.
通过查阅国内外大量文献,在对不同铬铁矿造块方法进行综合分析对比的基础上,开展了铬铁矿球团烧结工艺及机理研究。
3.
Iiuquan Iron and Steel Company) had developed a new acid pellet sintering process, but there are still some problems to be dissolved, such as poor gas permeability and higher rate of fine material in product.
本文针对酸性球团烧结新工艺工业生产中存在着烧结过程透气性差、成品烧结矿细粒级含量高的问题,通过对酸性球团烧结工艺原始料层透气性和普通烧结工艺原始料层透气性、酸性球团烧结工艺实际生产过程中料层温度变化和负压变化等的测定及对添加白云石、钒钛矿、萤石的酸性球团烧结矿矿相分析及粘结相粘度测试、配加白云石、钒钛矿工业生产试验、外滚生石灰改善酸性球团烧结过程透气性等试验,探讨了解决问题的途径。
补充资料:烧结、球团成品率
烧结、球团成品率
yield of finished product of sintering and pelletizing
shaoj浦e qiutuan ehengPinl。烧结、球团成品率(yield。f finished produetof sinteringand pelletizing)烧结成品率为干烧结料〔其中包括返矿)的成品烧结矿产出率;球团成品率为干球团料(其中包括返矿)的成品球团矿产出率。用公式表示为p一(Q。/Q:)x10o%。尸为烧结料或球团料的成品率,%;Q:为成品烧结矿或球团矿的数量,t;Q:为干烧结料或干球团料的数量,t。 烧结料和球团料的成品率,实为二者的收得率。在铁矿石造块工艺操作稳定的条件下,返矿量基本不变,P值大小仅与烧结料或球团料的烧损量有关,配人烧损量大的物料多,p值小;反之,尸值大。因此,造块配料的矿石种类、燃料和熔荆的数量,对尸值都有直接影响。在原料条件和造块成分确定之后,烧损量变化不大,尸值取决于造块工艺操作水平,凡能提高烧结矿和球团矿强度和降低返矿量的操作,都将使QZ增加,Ql减少,结果尸值升高。提高烧结料和球团料的成品率,是提高二者生产率和降低能耗的重要途径之一。此外,还可以用尸值变化情况检验操作制度的合理性。 除烧结料成品率外,还有烧结矿成品率的指标,即单位质量烧结饼(即全部烧结残存物)中成品烧结矿的数量。它同烧结矿强度直接有关。 (朱家骥)
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