Research on Catalytic Reaction of Cotton Straw Pyrolysis Based on Model Compounds

Qian Dong; Hantao Hu; Yijian Du

doi:10.54097/mrtymn70

Authors

Qian Dong
Hantao Hu
Yijian Du

DOI:

https://doi.org/10.54097/mrtymn70

Keywords:

Catalytic Pyrolysis, Langmuir-Hinshelwood Model, Model Compound, Regression Analysis.

Abstract

The study starts from the clean conversion of desulfurized ash and biomass resources, based on correlation analysis and Langmuir-Hinshelwood model, studies the components of cotton stalk pyrolysis products and describes the mechanism and effects of desulfurized ash as a catalyst in the pyrolysis process. Regression analysis, support vector machine, and other methods are used to predict the yield or output of pyrolysis products, which is of great significance for the efficient utilization and sustainable development of cotton stalks. The study found that desulfurized ash significantly promoted the thermal decomposition of cotton stalks, increased the pyrolysis gas yield and lower heating value, increased the production of hydrogen-rich gas in the pyrolysis gas, and reduced the production of carbon oxides. Through the study of model compounds, it was found that desulfurized ash has different catalytic effects on the process of cellulose and lignin components in cotton stalks generating pyrolysis gas.

Downloads

Download data is not yet available.

References

Du Qi, Tang Chuyang, An Xinyuan, Wang Yi, Zhou Shankun, Huang Chunhong, Wang Ziqi. Study on biomass pyrolysis gas by desulfurization ash based on model compounds [J]. Renewable Energy, 2023, 41 (06): 711 - 716.

Zhao Jiaxing. Experimental study on mass improvement of biomass pyrolysis gas phase products by desulfurization ash [D]. Liaoning University of Science and Technology, 2022.

Ma Xiaoqian, Liao Yanfen, Chen Xinfei. Research progress in CO 2 reforming technology of biomass thermoroltar [J]. Clean coal Technology, 2023, 29 (12): 1 - 10.

Li Xueqin, Wu Youqing, Lei Tingzhou, Wu Shiyong, Liu Peng, Chen Wenxuan. Research progress and prospect of biomass tar pyrolysis [J]. Journal of Solar Energy, 2023, 44 (07): 530 - 535.

Liu Letong. Experimental study and mechanism analysis of hydrogen-rich gas by pyrolysis [D]. Beijing University of Chemical Technology, 2023.

Li Ke. Study on the characteristics and dynamics of coal / biomass hemicoke gasification under CO_2 / H_2O atmosphere [D]. China University of Mining and Technology, 2021.

Ren Yizhou, Wang Yifei, Zhu Longchu, Jin Weilong, Wang Fuchen, Yu Guangsuo. A Langmuir-Hinshelwood kinetic model of the high-temperature coal-coke gasification reaction [J]. Journal of Chemical Industry, 2014, 65 (10): 3906 - 3915.

Zhong Xiaoxing, Hou Fei, Cao Weijun Hu, Zhong Qiu, Judy. Test method of kinetic parameters of coal oxidation based on isoconversion method [J]. Journal of Coal, 2021, 46 (06): 1727 - 1737.

Li Zhiwen, Liu Ruochen, Yang Fusheng, Zhang Shuang, Sun Kai, Wang Zebin, Li Jihui, Ma Liqiang. The kinetics of biomass pyrolysis based on the differential integral method and the Friedman isoconversion method [J]. Modern Agricultural Science and Technology, 2022, (19): 152 - 157 + 162.

Li Chengyu, Zhang Jun, Yuan Haoran, Wang Shurong, Chen Yong. Progress in cellulose pyrolysis conversion [J]. Journal of Fuel Chemistry, 2021, 49 (12): 1733 - 1751.