低阶碎煤有氧热解制备兰炭的工艺条件

›› 2012, Vol. 12 ›› Issue (2): 231-238.

低阶碎煤有氧热解制备兰炭的工艺条件

钟梅高士秋张志凯岳君容许光文

中国科学院过程工程研究所多相复杂国家重点实验室中国科学院过程工程研究所多相反应重点实验室中国科学院过程工程研究所多相反应重点实验室中国科学院过程工程研究所多相反应重点实验室中国科学院过程工程研究所，多相复杂系统国家重点实验室

收稿日期:2012-02-10 修回日期:2012-03-01 出版日期:2012-04-20 发布日期:2012-04-20
通讯作者: 钟梅

Preparation Conditions of Char via Pyrolysis of Low-rank Particulate Coal in Oxygen-containing Atmosphere

ZHONG Mei GAO Shi-qiu ZHANG Zhi-kai YUE Jun-rong XU Guang-wen

State Key Laboratory of Multi-Phase Complex System, Institute of Process Engineering Multi-phase Reaction Laboratory, Institute of Process Engineering, CAS Multi-phase Reaction Laboratory, Institute of Process Engineering, CAS Multi-phase Reaction Laboratory, Institute of Process Engineering, CAS （1. State Key Laboratory of Multi-phase Complex Systems, Institute of Process Engineering, Chinese Academy of Sciences

Received:2012-02-10 Revised:2012-03-01 Online:2012-04-20 Published:2012-04-20
Contact: ZHONG Mei

摘要/Abstract

摘要： 以流化石英砂为介质，研究了热解温度、O2浓度、原煤停留时间及粒径等流化条件对由小粒径低阶碎煤所制半焦的理化性质的影响. 结果表明，1~13 mm小粒径低阶煤在热解温度大于850℃及O2浓度、热解时间分别不低于3%(j)和120 s的条件下，可制得固定碳含量高于82%(w)、挥发分含量低于7%(w)的兰炭. 热解温度由650℃升至950℃，碳晶格的微晶晶面间距(d002)由0.383 nm减小至0.372 nm，半焦晶格的有序化程度增加. 氧气浓度为7%(j)时，半焦的比表面积最大，为242.71 m2/g，同时氧化反应活性也最大. 延长有氧气氛下的热解时间，半焦孔隙结构因烧蚀而坍塌，半焦的比表面积和活性降低.

关键词: 低阶煤, 半焦, 热解, 有氧气氛

Abstract: Physicochemical properties of char made by pyrolyzing a kind of low-rank particulate coal in O2-containing atmosphere and a quartz sand fluidized bed were investigated. The tested conditions included coal particle size, O2 concentration, pyrolysis temperature and residence time. The char with fixed carbon content over 82%(w) and volatile matter below 7%(w) was obtained by pyrolyzing the coal with particle size of 1~13 mm at the temperatures above 850℃ in the atmosphere with O2 content not below 3%(j) for pyrolysis time not shorter than 120 s. With the increase of temperature from 650℃ to 950℃, the corresponding interlayer spacing (d002) of the crystallite structure calculated from the XRD intensities was in the range from 0.383 to 0.372 nm, indicating a gradually condensed and ordered structure. BET specific surface area first increased then decreased with O2 concentration, and reached its maximum 242.71 m2/g at O2 7%(j), corresponding to the highest oxidation reactivity of char. The char produced via long-time pyrolysis in the O2-contaning atmosphere lowered the specific surface area and reactivity due to the burn-off of some formed pores.

Key words: low-rank coal, char, pyrolysis, O2-containing atmosphere

中图分类号:

TQ53

钟梅高士秋张志凯岳君容许光文. 低阶碎煤有氧热解制备兰炭的工艺条件[J]. , 2012, 12(2): 231-238.

ZHONG Mei GAO Shi-qiu ZHANG Zhi-kai YUE Jun-rong XU Guang-wen. Preparation Conditions of Char via Pyrolysis of Low-rank Particulate Coal in Oxygen-containing Atmosphere[J]. , 2012, 12(2): 231-238.

[1]	高华鑫刘雪东张炜查晓峰吕圣男刘佳君吕开新. 新型热解炉燃烧室流热固耦合仿真与结构优化[J]. 过程工程学报, 2022, 22(9): 1203-1212.
[2]	白浩隆付亮亮许光文白丁荣. 典型尺寸燃煤颗粒富氧燃烧特性及燃烧本征动力学研究[J]. 过程工程学报, 2022, 22(8): 1115-1123.
[3]	李福俊刘周恩高士秋金鑫谢以民何志鹏. 黏结煤与不黏煤共热解特性研究[J]. 过程工程学报, 2022, 22(5): 640-650.
[4]	丁桂珍郑刘根吴盾迟文飞. 基于非等温法的废弃环氧树脂电路板热解动力学分析[J]. 过程工程学报, 2022, 22(5): 680-688.
[5]	丁宝平刘慧利李法社. 小桐子壳热解及其挥发性产物特性分析[J]. 过程工程学报, 2022, 22(3): 366-375.
[6]	陈冠益邱旭辉郭倩倩李健刘彬旦增颜蓓蓓董磊张兆玲. 含水率及温度对中药渣热解特性影响[J]. 过程工程学报, 2021, 21(9): 1108-1116.
[7]	陈英春陈杭于建国. 粒径对微米级氢氧化镁热解动力学的影响[J]. 过程工程学报, 2021, 21(12): 1463-1472.
[8]	吴浩邹冲何江永王凯刘占伟师帅. 低阶煤热解条件对高炉喷吹半焦燃烧性能及动力学特性的影响[J]. 过程工程学报, 2020, 20(4): 449-457.
[9]	王金德裴海鹏金保昇戴昕孙漪清. 高铝矾土改性对稻草热解与气化特性的影响[J]. 过程工程学报, 2019, 19(4): 783-791.
[10]	刘亮蔡宜捷田红夏辉曹亚. 丙氨酸热解反应机理[J]. 过程工程学报, 2019, 19(4): 792-800.
[11]	宋文立李松庚都林林伟刚崔丽杰姚建中. 低阶煤热解多联产与混合发电系统[J]. 过程工程学报, 2018, 18(5): 893-899.
[12]	董安瑞罗孟杰姜炜刘程琳李平于建国. 亚熔盐分解钾长石矿样中钾铝硅的分离[J]. 过程工程学报, 2018, 18(5): 972-980.
[13]	杨兴卫杨茂立安海杨兴卫张少朋梁志松. 玉米芯炭质燃料的理化性能及热解过程分析[J]. 过程工程学报, 2018, 18(4): 851-857.
[14]	杨颂刘守军杨颂杜文广上官炬赵艳平. 红土镍矿与硫酸钠共热解动力学及其机理分析[J]. 过程工程学报, 2018, 18(2): 369-374.
[15]	敦启孟陈兆辉皇甫林周杨余剑高士秋刘鸿雁. 温度和停留时间对煤热解挥发分二次反应的影响[J]. 过程工程学报, 2018, 18(1): 140-147.