In view of generation of huge amount of iron ore and coal fines there is a need to develop a technique to utilize these fines. The present project work has been undertaken to study reduction and swelling characteristics of hematite iron ore pellets made from iron ore fines under different conditions. The physical properties of fired iron ore pellets were studied. The compressive strength and drop number of fired pellets increased with the increase of firing temperature due to the enhancement in the extent of sintering and consolidation of iron ore fines. The main objectives of the present work have been to study the effects of (i) Firing temperature (ii) Reduction temperature and time (iii) Addition of concentrated sugarcane juice on the reduction and swelling behaviours of fired iron ore pellets. The results indicated a decrease in the extent of reduction with increase of firing temperature. The reduction rate of fired iron pellets were found to increase with rise of reduction temperature from (850°C-1000°C). The degree of reduction of fired pellet increased with increase of reduction time, the rate being faster in the initial 20-30 minutes followed by a decrease thereafter. Extent of swelling in fired sakaruddin hematite iron ore pellets, in general, was found to be highest in the pellets reduced at 900°C followed by 950-1000°C. Reduction at a temperature of 850°C, in general, gave lowest degree of swelling in the reduced pellets. The highest degree of swelling at a reduction temperature of 900°C appears to be due to fibrous growth of iron in the reduced pellets. Slightly lower values swelling in the fired iron ore pellets reduced at 950°C and 1000°C appear to be due to sintering of iron particles in the pellets, as indicated by their SEM micrographs. Effect of reduction time in the range studied on the extent of swelling was not found to be distinguishable. The Indian coal gave higher rate of reduction than Australian, Indonesian and South African coals because of highest CO2 reactivity of Indian coal.udud
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机译:考虑到产生大量的铁矿石和煤粉,需要开发一种利用这些粉矿的技术。本项目的工作是为了研究在不同条件下由铁矿粉制成的赤铁矿铁矿球团的还原和溶胀特性。研究了烧成的铁矿石球团的物理性质。随着烧结温度的提高,烧结后的球团的抗压强度和落粒数增加,这归因于铁矿粉的烧结和固结程度的提高。本工作的主要目的是研究(i)烧成温度(ii)降低温度和时间(iii)添加浓缩的甘蔗汁对烧过的铁矿石球团的还原和溶胀行为的影响。结果表明,降低程度随着焙烧温度的升高而降低。发现从(850℃〜1000℃)的还原温度上升,烧成的铁丸的还原率增加。烧结后的丸粒的还原度随还原时间的增加而增加,在开始的20-30分钟内速率更快,随后降低。通常,经焙烧的萨卡鲁丁赤铁矿球团中的溶胀程度最高,在900°C,然后在950-1000°C下还原的球团中最高。通常,在850℃的温度下还原在还原的粒料中给出最低的溶胀度。在还原温度为900°C时,最高溶胀程度似乎是由于还原后的颗粒中铁的纤维状生长。如SEM显微照片所示,在950°C和1000°C下降低的烧结铁矿石球团中的溶胀值略低,这似乎是由于球团中铁颗粒的烧结所致。没有发现还原时间在研究范围内对肿胀程度的影响是可区分的。由于印度煤炭的最高CO2反应性,印度煤炭的还原率高于澳大利亚,印度尼西亚和南非煤炭。 ud ud
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