6m顶装焦炉焦侧炉头烟尘污染的治理措施

介绍了现有6m焦炉焦侧炉头烟尘污染情况,提出了相应的污染治理措施,阐述了吸气罩的设置方式、烟气量和除尘地面站性能参数的确定。

泡焦和炉头焦对焦炭热性能检测稳定性的影响

通过对焦炭弃去和保留泡焦、炉头焦的试样进行热性能分析,论证在检测焦炭CRI和CSR时弃去泡焦、炉头焦的必要性及对稳定、准确反应焦炭CRI和CSR的重要性。

焦炉炉头焦收集工艺改进

由于链板机炉头焦收集工艺存在操作不便、维护工作量大、使用寿命短等问题,安钢焦化厂改造采用水力清输机收集炉头焦。水力清输机采用PLC控制,不锈钢水冲槽,操作简便,维护工作量小,使用寿命可达5a以上。

马钢老龄化焦炉炉体维护的创新技术

马钢煤焦化公司经过几十年的发展，在老龄化焦炉炉体维护方面摸索总结了很多成功经验。本文介绍了这些成功经验的技术路线，便于同行交流、学习和借鉴，提高行业老龄化焦炉的炉体维护水平。

大型焦炉炉头倒焦探析

大型焦炉炉头倒焦给生产造成诸多不利影响,从倒焦的机理入手,结合在治理6m焦炉炉头倒焦上的实践经验,从入炉煤、焦炉炉温、生产操作、炉门设备等几方面对炉头倒焦的原因进行了较为全面的分析,为有针对性地治理大型焦炉炉头倒焦提供了理论依据和实践经验。

掉焦对炉膛空气动力场热冲击的分析和计算

对火电厂炉膛压力异常波动现象进行了调查分析,阐述了炉内掉焦引起炉底灰池中的水在很短时间内急剧汽化,造成炉膛压力波动的机理。根据相关边界条件,利用状态方程和能量平衡方程,计算了炉内掉焦对炉膛压力、温度等的影响关系。计算结果表明:掉焦对炉膛空气动力场热冲击的大小取决于掉焦自身的热量及与水池中水汽化的激烈程度。

用于高(焦)炉煤气风机的非接触螺旋槽干气密封的设计与分析

论述了高(焦)炉煤气离心风机的转轴密封正被干运行非接触气体密封所取代的技术趋势。针对干式布袋除尘反吹煤气风机转速低、压力波动频繁的难点,设计了非接触螺旋槽干气密封,包括高刚度目标的螺旋槽型优化、干气密封零压力开启转速和角向动态失稳界限频率的分析、关键零件功能结构的选取以及干气密封支持系统的确定等。按照美国石油协会(API)617的规定及沈阳万得孚工业公司的标准对所设计的干气密封进行了性能检验和试验,并经历了工业现场令人满意的运行。

7.63 m焦炉停产检修技术方案与应用实践

为解决焦炉煤气主管线腐蚀导致的安全隐患并配合脱硫脱硝项目建设施工,结合7.63m焦炉生产工艺特点,制定了长时间停产检修条件下“带焦焖炉保温”的技术方案。从生产调整、配合煤调整、炉温控制、烟道气开孔保温、PROven及荒煤气放散方面介绍了“带焦焖炉保温”技术方案的主要内容及实施后的效果。结果表明,复产后焦炉运行平稳;焦炭M40、M10由检修前的89.7%、5.2%优化为90.2%、5.1%;烟囱废气排放各项指标达到排放限值要求。

陶瓷焊补技术用于捣固焦炉

长钢2003年投产2座4.3m捣固焦炉,由于捣固焦炉特有的侧装煤方式使机、焦侧炉头有较长时间处于冷空气中,在急冷、急热的冲击下导致炉墙多处受损。投产以来,部分炉墙出现熔洞甚至炉墙烧穿的现象,直接导致与燃烧室窜漏,炉门口受损更为严重。

6m焦炉空炉保温技术探究

焦炉受热胀冷缩影响大,一旦烘炉投产,再空炉降温炉体易受损,因此在特殊情况下如何较好的完成炉体的停产保温是保证炉体完好的关键。本文以六米焦炉为例,从荒煤气系统、炉温管理、炉体密封等几个方面对较长时间空炉保温应采取的各项措施、实施的步骤和方法进行阐述。。

锅炉防焦箱前侧炉墙破裂变形问题的探讨

针对锅炉防焦箱前侧炉墙玻裂的问题进行探讨。认为炉墙破裂的主要原因是锅炉设计选用煤种与实际使用煤种发热量相差较大;其次是施工单位,在砌筑炉墙时单纯着重炉墙的严密性而忽略了钢材与炉墙砌筑材料的膨胀率不同,致使防焦箱与炉墙间隙太小。防焦箱在高温情况下发生膨胀而挤压炉墙;再次是司炉操作不当,炉膛中火区不均匀,炉体受热程度不同,加之锅炉出现大马拉小车的情况,多数锅炉不能正常连续工作,炉体出现骤然高温,骤然低温,使炉体受热部件发生反复变形的情况较多,最终防焦箱经过多次反复变形挤垮炉墙。针对这些情况提出了一些改进意见。

电石炉炉气净化技术

电石炉炉气湿法和干法处理技术的比较,炉气干法净化后除焦技术。

深入开展对标活动 进一步挖潜堵漏提高效益

今年以来,邯钢与其他冶金企业一样,生产经营工作遇到了前所未有的困难。一是钢材市场极度疲软,价格持续大幅度下跌,1～4月份钢材平均售价比去年同期下降146元/吨,钢坯平均售价比去年同期下降133元/吨,因价格下降一项影响利润比去年同期减少11291万元。二是执行限产政策以来,公司内部生产组织困难加大,个别单位成本回升,加上可供销售的资源量比去年减少。

找老哥 学老哥 赶老哥——安阳钢铁集团有限责任公司

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Influence of hydrogen-enriched atmosphere under coke oven gas injection on reduction swelling behaviors of oxidized pellet

It is of great importance to elucidate reduction swelling behaviors and reaction mechanism of oxidized pellet in hydrogen-enriched atmosphere under coke oven gas injection. In this work, the effects of hydrogen concentration in N_2-CO-H_2 atmosphere with unchanged CO content on reduction swelling behaviors of oxidized pellet at 1173 K were studied, to clarify the mechanism of hydrogen-enriched reduction and exclude the influences of CO. Then, the reduction swelling behaviors of oxidized pellet at 1173 K in actual atmosphere under coke oven gas(COG) injection, got from the simulation results of multi-fluid blast furnace model, were investigated. The results show that with the concentration of hydrogen increasing in N_2-CO-H_2 gas from 2% to 18%, the reduction swelling index of pellet decreases from 10.12% to 5.57% while the reduction ratio of pellet increases obviously from 39.85% to 69.58%. In addition, with COG injection rate increasing from 0 to 152.34 m^3/t, the reduction swelling index of pellet decreases slightly from 10.71% to 9.54% while the reduction ratio of pellet is increased from 31.57% to 36.39%. The microstructures of pellet are transformed from the platy structure to the flocculent structure.

Effect of B2O3 addition on oxidation induration and reduction swelling behavior of chromium-bearing vanadium titanomagnetite pellets with simulated coke oven gas

The oxidation induration and reduction swelling behavior of the chromium-bearing vanadium titanomagnetite pellets (CVTP) with B2O3 addition were investigated. Besides, the reduction swelling index (RSI) and compressive strength (CS) of the reduced CVTP were also examined using the simulated coke oven gas (COG). The results suggested that the CS of CVTP was increased from 2448 to 3819.2 N, while the porosity of CVTP was decreased from 14.86% to 10.03% with the increase in B2O3 addition amounts. Moreover, the B2O3 mainly existed in the forms of TiB0.024O2 and Fe3BO5 in both CVTP and the reduced CVTP. Specifically, the CS of the reduced CVTP was elevated from 901 to 956.2 N, while the RSI was reduced from 5.87% to 3.81% as the B2O3 addition amounts were increased. Taken together, B2O3 addition would facilitate the aggregation and diffusion of metallic iron particles, which contributed to reducing the formation of metal iron whiskers and weakening the reduction swelling behavior.