煤的灰化学
收录论文详情 共“11”篇论文
1. 煤气化灰渣中残炭对灰渣流动性影响的研究进展 2021年27卷第1期
王冀,孔令学,白进,等.煤气化灰渣中残炭对灰渣流动性影响的研究进展[J].洁净煤技术,2021,27(1):181-192.WANG Ji,KONG Lingxue,BAI Jin,et al.Research progress on the effect of residual carbon in coal gasification slag on ash and slag flow property[J].Clean Coal Technology,2021,27(1):181-192.
2. 煤灰流动性研究方法进展 2020年26卷第1期
颜婷珪,白进,孔令学,等.煤灰流动性研究方法进展[J].洁净煤技术,2020,26(1):90-98. YAN Tinggui,BAI Jin,KONG Lingxue,et al.Advances in research methods of coal ash fluidity[J].Clean Coal Technology,2020,26(1):90-98.
3. 煤中典型矿物在高温下演变规律 2019年25卷第6期
邵徇,张凝凝,麻栋,等. 煤中典型矿物在高温下演变规律[J]. 洁净煤技术,2019,25(6):111-117. SHAO Xun,ZHANG Ningning,MA Dong,et al. Evolution law of typical minerals in coal under high temperature[J]. Clean Coal Technology,2019,25(6):111-117.
4. 我国典型特低灰煤深度脱灰影响因素 2018年24卷第6期
朱川,白向飞,涂华,等. 我国典型特低灰煤深度脱灰影响因素[J]. 洁净煤技术,2018,24(6):27-31. ZHU Chuan,BAI Xiangfei,TU Hua,et al. Deep de-ashing influencing factors of typical ultra-low ash coal in China[J]. Clean Coal Technology,2018,24(6):27-31.
5. 超洁净煤制备过程中矿物质的反应热力学特性 2018年24卷第4期
尹洪清. 超洁净煤制备过程中矿物质的反应热力学特性[J]. 洁净煤技术,2018,24(4):34-39,45. YIN Hongqing. Thermodynamic properties of minerals during the preparation of ultra-clean coal[J]. Clean Coal Technology,2018,24(4):34-39,45.
6. 准东粉煤不均匀熔融规律研究 2018年24卷第3期
张衡,张鹏启,王祖威,等. 准东粉煤不均匀熔融规律研究[J]. 洁净煤技术,2018,24(3):91-95. ZHANG Heng,ZHANG Pengqi,WANG Zuwei,et al. Heterogeneous ash melting behavior of pulverized Zhundong coal[J]. Clean Coal Technology,2018,24(3):91-95.
7. 冷轧摩擦铁粉对河南九里山煤灰熔融性的影响 2018年24卷第2期
王航,袁春伟,赵基钢,等. 冷轧摩擦铁粉对河南九里山煤灰熔融性的影响[J]. 洁净煤技术,2018,24(2):79-82. WANG Hang,YUAN Chunwei,ZHAO Jigang,et al. Effect of iron powder by cold rolled friction as flux on the melting characteristics of coal ash from Jiulishan Coal Mine in Henan province[J]. Clean
8. 煤灰成分与灰熔融性的关联性分析 2018年24卷第2期
卢财,赵俊梅,荣令坤,等. 煤灰成分与灰熔融性的关联性分析[J]. 洁净煤技术,2018,24(2):74-78. LU Cai,ZHAO Junmei,RONG Lingkun,et al. Correlative analysis of coal ash composition and ash fusion[J]. Clean Coal Technology,2018,24(2):74-78.
9. 基于FactSage软件的煤灰熔融行为预测 2018年24卷第2期
宋明光,王群英,岳益锋,等. 基于FactSage软件的煤灰熔融行为预测[J]. 洁净煤技术,2018,24(2):68-73. SONG Mingguang,WANG Qunying,YUE Yifeng,et al. Prediction of coal ash melting behavior using FactSage[J]. Clean Coal Technology,2018,24(2):68-73.
10. 还原气氛下煤和生物质灰熔融行为 2017年23卷第6期
张冠军. 还原气氛下煤和生物质灰熔融行为[J]. 洁净煤技术,2017,23(6):65-69. ZHANG Guanjun. Ash melting behavior of coal and biomass in reducing atmosphere[J]. Clean Coal Technology,2017,23(6):65-69.
11. 煤灰熔融温度预测方法研究现状 2016年22卷第1期
刘 硕,杨伏生,张小艳,等. 煤灰熔融温度预测方法研究现状[J]. 洁净煤技术,2016,22(1):60-65. LIU Shuo,YANG Fusheng,ZHANG Xiaoyan,et al. Research progress on prediction methods of coal ash melting temperature[J]. Clean Coal Technology,2016,22(1):60-65.
