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Combustible solid waste gasification gas characteristics simulation based on Aspen Plus

Li, Yanji / Zou, Kewei / Yang, Tianhua / Li, Rundong / Chi, Yong

Combustible solid waste gasification was simulated with Aspen Plus based on the principle of Gibbs free energy as well as mass and energy balance. Preheated air temperature and air equivalence ratio (ER) were found to have a crucial influence on gasification characteristics under 600 °C gasification conditions. Simulation results show that the optimum operating conditions are 0.4 air ER and 600 °C preheated air temperature. Aspen Plus is a favorable means to simulate the gasification process and provides good guidance for the experiment.

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Combustible solid waste gasification gas characteristics simulation based on Aspen Plus

Li, Yanji / Zou, Kewei / Yang, Tianhua / Li, Rundong / Chi, Yong

Combustible solid waste gasification was simulated with Aspen Plus based on the principle of Gibbs free energy as well as mass and energy balance. Preheated air temperature and air equivalence ratio (ER) were found to have a crucial influence on gasification characteristics under 600 °C gasification conditions. Simulation results show that the optimum operating conditions are 0.4 air ER and 600 °C preheated air temperature. Aspen Plus is a favorable means to simulate the gasification process and provides good guidance for the experiment.

Combustible solid waste gasification gas characteristics simulation based on Aspen Plus

Li, Yanji / Zou, Kewei / Yang, Tianhua / Li, Rundong / Chi, Yong

Combustible solid waste gasification was simulated with Aspen Plus based on the principle of Gibbs free energy as well as mass and energy balance. Preheated air temperature and air equivalence ratio (ER) were found to have a crucial influence on gasification characteristics under 600 °C gasification conditions. Simulation results show that the optimum operating conditions are 0.4 air ER and 600 °C preheated air temperature. Aspen Plus is a favorable means to simulate the gasification process and provides good guidance for the experiment.

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Document information

Title:

Combustible solid waste gasification gas characteristics simulation based on Aspen Plus

Contributors:

Li, Yanji (author) / Zou, Kewei (author) / Yang, Tianhua (author) / Li, Rundong (author) / Chi, Yong (author)

Published in:

Journal of Renewable and Sustainable Energy ; 5 ; 053113-

Publication date:

2013-09-01

Size:

9 pages

ISSN:

DOI:

https://doi.org/10.1063/1.4821519

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

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