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0.12t/d油页岩干馏炉预热过程中温度分布特性
引用本文:秦宏,李伟伟,张立栋,刘云雨,刘洪鹏,王擎,刘斌. 0.12t/d油页岩干馏炉预热过程中温度分布特性[J]. 石油学报(石油加工), 2016, 32(5): 921-929. DOI: 10.3969/j.issn.1001-8719.2016.05.008
作者姓名:秦宏  李伟伟  张立栋  刘云雨  刘洪鹏  王擎  刘斌
作者单位:1东北电力大学 能源与动力工程学院, 吉林 吉林 132012;2华能巢湖发电有限责任公司, 安徽 巢湖 238015;3吉顺油页岩开发有限公司, 吉林 吉林 132000
基金项目:长江学者和创新团队发展计划项目(IRT13052)、吉林省科技厅项目(20150204012SF和20150101033JC)和吉林省教育厅项目(吉教科合字[2015]第251号)资助
摘    要:油页岩干馏炉启动升温过程中,其炉内的温度分布特性对油页岩的预热具有显著影响。干馏炉内气体在固体物料间的空隙内流动十分复杂,难以实现模拟研究。试验结果表明,空炉与填料时水平截面的温度分布变化基本相似,可通过空炉时的温度分布特性来进行近似分析。在进气量12 m3/s、进气比1的工况下,采用LES和RNS模型分别对空炉下干馏段和布气装置的升温过程进行数值模拟,分析干馏段和布气装置内温度及流速的变化。结果表明,布气方式决定炉内不同区域油页岩发生热解的顺序,率先发生热解的油页岩吸热减少,该位置温度加速上升,加剧炉内温度分布不均;加权平均数公式能更加准确反映截面温度不均性;炉内温度分布主要由不同区域的喷嘴加热功率与该区域的流场特性共同作用形成。

关 键 词:油页岩  分布  气体热载体  不均性  数值模拟  加热功率  
收稿时间:2015-09-17

Temperature Distribution During Pre-Heating Process in a 0.12 t/d Oil Shale Retorting Reactor
QIN Hong,LI Weiwei,ZHANG Lidong,LIU Yunyu,LIU Hongpeng,WANG Qing,LIU Bin. Temperature Distribution During Pre-Heating Process in a 0.12 t/d Oil Shale Retorting Reactor[J]. Acta Petrolei Sinica (Petroleum Processing Section), 2016, 32(5): 921-929. DOI: 10.3969/j.issn.1001-8719.2016.05.008
Authors:QIN Hong  LI Weiwei  ZHANG Lidong  LIU Yunyu  LIU Hongpeng  WANG Qing  LIU Bin
Affiliation:1College of Power and Energy, Northeast Dianli University, Jilin 132012, China;2Huaneng Chaohu Power Generation Co. Ltd, Chaohu 238015, China;3Jishun Oil Shale Development Co. Ltd, Jilin 132000, China
Abstract:Distributions of temperature affects oil shale pre heating obviously during starting up and heating process inside retorting reactor. It is hard to conduct numerical simulation for the gas flow behavior, owing to the complexity of gas running through the intervals among the solid material. The experimental results have showed that the trend of interface temperature distribution variation in an empty furnace was similar to that in a packed one. And a numerical simulation of an empty furnace can be carried out to describe approximatively the temperature distribution in the full filled reactor. LES and RNS models were adopted to simulate the heating process in the furnace, under the gas input of 12 m3/s and the quantity ratio of centre and wall gas inlet of 1. The simulation results showed that the pyrolysis sequence of oil shale at different regions depended on the gas distribution. The temperature rising was accelerated at a place where thermal decomposition took place earlier, resulting in intensifing non uniform distribution of temperature. The weighted mean formula was better than the traditional formula for studying the temperature distribution of sections. The combined action of both the heating power of hot gas from different nozzles and the flow distribution at the same area affected the temperature distribution in retorting reactor.
Keywords:oil shale  distribution  gas heat carrier  nonuniformity  numerical simulation  heating power  
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