价值工程
價值工程
개치공정
Value Engineering
2015年
34期
98-100
,共3页
张弦%沈强华%黄超%李枫
張絃%瀋彊華%黃超%李楓
장현%침강화%황초%리풍
烟煤%无烟煤%石油焦%粒度%配煤比%热强度
煙煤%無煙煤%石油焦%粒度%配煤比%熱彊度
연매%무연매%석유초%립도%배매비%열강도
bituminous coal%anthracite%petroleum coke%granularity%ratio%thermal strength
以西南地区丰富的烟煤与无烟煤及石油焦为原料,通过改变粉煤粒度及配煤比例,在氮气保护气氛下制备出半焦,揭示了粉煤粒度与配煤比例对型焦热强度的影响。研究结果表明控制无烟煤粒度从0.38mm降至0.15mm,型焦热强度呈上升趋势,随着无烟煤粒度的降低至<0.15mm后出现平台区,粒度改变对热强度提升不明显。最佳配煤比例为烟煤:无烟煤=60%:40%,烟煤:石油焦=50%:50%。且从半焦的SEM电镜照片中可看出,在此最佳配比以及粒度条件下半焦的致密度最高。
以西南地區豐富的煙煤與無煙煤及石油焦為原料,通過改變粉煤粒度及配煤比例,在氮氣保護氣氛下製備齣半焦,揭示瞭粉煤粒度與配煤比例對型焦熱彊度的影響。研究結果錶明控製無煙煤粒度從0.38mm降至0.15mm,型焦熱彊度呈上升趨勢,隨著無煙煤粒度的降低至<0.15mm後齣現平檯區,粒度改變對熱彊度提升不明顯。最佳配煤比例為煙煤:無煙煤=60%:40%,煙煤:石油焦=50%:50%。且從半焦的SEM電鏡照片中可看齣,在此最佳配比以及粒度條件下半焦的緻密度最高。
이서남지구봉부적연매여무연매급석유초위원료,통과개변분매립도급배매비례,재담기보호기분하제비출반초,게시료분매립도여배매비례대형초열강도적영향。연구결과표명공제무연매립도종0.38mm강지0.15mm,형초열강도정상승추세,수착무연매립도적강저지<0.15mm후출현평태구,립도개변대열강도제승불명현。최가배매비례위연매:무연매=60%:40%,연매:석유초=50%:50%。차종반초적SEM전경조편중가간출,재차최가배비이급립도조건하반초적치밀도최고。
Use the bituminous coal and anthracite which is rich in southwest China and the petroleum coke as the raw material to make some semi-coke in nitrogen atmosphere by changing the particle size and coal blending ratio. The result reveals the influence of coal particle size and coal blending ratio on coke thermal strength. The result shows that the anthracite coal particle size decreases from 0.38mm to 0.15mm, coke thermal strength shows an increasing trend, with the anthracite coal particle size <0.15mm, the platform area appears, the thermal strength gains are not noticeable. Best coal blending ratio is that, bituminous coal: anthracite =60%:40%, bituminous coal:petroleum coke =50%:50%. And the SEM electron microscope photos show that density of char under the optimum ratio and the particle size reached the maximum.