STUDY ON THE QUANTITATIVE MODEL OF OIL SHALE POROSITY IN THE PYROLYSIS PROCESS BASED ON PYROLYSIS KINETICS

Liu Jian; Liang Weiguo; Kang Zhiqin; Lian Haojie; Geng Yide

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STUDY ON THE QUANTITATIVE MODEL OF OIL SHALE POROSITY IN THE PYROLYSIS PROCESS BASED ON PYROLYSIS KINETICS

机译：基于热解动力学的热解过程中油页岩孔隙率定量模型研究

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Investigation of the porosity variation of oil shale during the pyrolysis process is of great importance in understanding the migration mechanism of pyrolysis products. Using the Fushun oil shale of China as an example and taking into account the fact that the porosity change of oil shale arises from pyrolysis of kerogen at high temperature, in this paper, the thermal curve of oil shale was employed to obtain its pyrolysis rate equation. A quantitative model of oil shale porosity during pyrolysis was constructed. The porosity of oil shale under different pyrolysis conditions was determined using the conventional method, computed tomography (CT) and the mercury intrusion method. The calculated results were in good agreement with the experimental data.

机译：在热解过程中对油页岩的孔隙率变化的研究非常重要，在理解热解产品的迁移机制方面具有重要意义。使用中国的抚顺油页岩作为一个例子，同时考虑到油页岩的孔隙率变化在高温下产生的孔隙率变化，在本文中，采用了油页岩的热曲线来获得其热解率方程。构建了热解期间油页岩孔隙率的定量模型。使用常规方法，计算机断层扫描（CT）和汞入侵方法测定不同热解病症下的油页岩的孔隙率。计算结果与实验数据一致。

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来源
《Oil Shale》 |2018年第2期|共16页
作者
Liu Jian; Liang Weiguo; Kang Zhiqin; Lian Haojie; Geng Yide;
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作者单位

Taiyuan Univ Technol Coll Min Engn Taiyuan 030024 Shanxi Peoples R China;

Taiyuan Univ Technol Coll Min Engn Taiyuan 030024 Shanxi Peoples R China;

Minist Educ Key Lab In Situ Property Improving Min Taiyuan 030024 Shanxi Peoples R China;

Taiyuan Univ Technol Coll Min Engn Taiyuan 030024 Shanxi Peoples R China;

Taiyuan Univ Technol Coll Min Engn Taiyuan 030024 Shanxi Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类地质学;
关键词
oil shale pyrolysis; porosity change mechanism; quantitative model; conventional method; computed tomography; mercury intrusion method;

机译：油页岩热解;孔隙率变化机制;定量模型;常规方法;计算断层扫描;水银入侵方法;
入库时间 2022-08-20 05:16:53

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专利

1. STUDY ON THE QUANTITATIVE MODEL OF OIL SHALE POROSITY IN THE PYROLYSIS PROCESS BASED ON PYROLYSIS KINETICS [J] . Liu Jian, Liang Weiguo, Kang Zhiqin, Oil Shale . 2018,第2期

机译：基于热解动力学的热解过程中油页岩孔隙率定量模型研究
2. STUDY ON THE QUANTITATIVE MODEL OF THE ELASTIC MODULUS OF OIL SHALE DURING PYROLYSIS - A CASE STUDY OF FUSHUN OIL SHALE [J] . Liu Jian, Liang Weiguo, Lian Haojie, Oil Shale . 2018,第4期

机译：热解过程中油页岩弹性模量的定量模型研究 - 以抚顺油页岩为例
3. Simulation analysis of Co-Pyrolysis of oil shale and wheat straw based on the combination of chain reaction kinetics and improved CPD models [J] . Chen Bin, Yuan Mengxue, You Yulong, Energy Conversion & Management . 2021,第Sepa期

机译：基于链式反应动力学组合及改进的CPD模型的油页岩和小麦秸秆共热解剖
4. Study on The Kinetic Characteristics in Pyrolysis Process of Huadian Oil Shales by Isoconversional Method [C] . rn, rn Challenges of Power Engineering and Environment . 2007

机译：等电转换法研究花店油页岩热解过程中的动力学特征。
5. The kinetic model of oil shale pyrolysis. [D] . Wang, Chia-Chung. 1980

机译：油页岩热解动力学模型。
6. A Novel Energy-Efficient Pyrolysis Process: Self-pyrolysis of Oil Shale Triggered by Topochemical Heat in a Horizontal Fixed Bed [O] . You-Hong Sun, Feng-Tian Bai, Xiao-Shu Lü, -1

机译：一种新型节能热解工艺：水平固定床中拓扑化学加热触发油页岩的自热解
7. A Novel Energy-Efficient Pyrolysis Process: Self-pyrolysis of Oil Shale Triggered by Topochemical Heat in a Horizontal Fixed Bed [O] . Sun, You-Hong., Bai, Feng-Tian., Lü, Xiaoshu, 2015

机译：一种新型的节能热解工艺：水平固定床中拓扑化学热触发油页岩的自热解

STUDY ON THE QUANTITATIVE MODEL OF OIL SHALE POROSITY IN THE PYROLYSIS PROCESS BASED ON PYROLYSIS KINETICS

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