Experimental study of the co‐gasification of wood and polyethylene in a two‐stage gasifier

Ibrahim G. Harouna; Benjamin Berger; Jeanmart Hervé; Oumar Sanogo; Tizane Daho; Salifou K. Ouiminga; Jean Koulidiati

doi:10.1002/ese3.667

Energy Science & Engineering (Jul 2020)

Experimental study of the co‐gasification of wood and polyethylene in a two‐stage gasifier

Ibrahim G. Harouna,
Benjamin Berger,
Jeanmart Hervé,
Oumar Sanogo,
Tizane Daho,
Salifou K. Ouiminga,
Jean Koulidiati

Affiliations

Ibrahim G. Harouna: Physic Department University Dan Dicko Dankoulodo of Maradi Maradi Niger
Benjamin Berger: Institute of Mechanics Materials and Civil Engineering Université catholique de Louvain Louvain la neuve Belgium
Jeanmart Hervé: Institute of Mechanics Materials and Civil Engineering Université catholique de Louvain Louvain la neuve Belgium
Oumar Sanogo: IRSAT Institute of Research of Applied Sciences and Technology Ouagadougou Burkina Faso
Tizane Daho: LPCE Université Ouaga I Joseph Ki‐Zerbo de Ouagadougou Ouagadougou 03 Burkina Faso
Salifou K. Ouiminga: LPCE Université Ouaga I Joseph Ki‐Zerbo de Ouagadougou Ouagadougou 03 Burkina Faso
Jean Koulidiati: LPCE Université Ouaga I Joseph Ki‐Zerbo de Ouagadougou Ouagadougou 03 Burkina Faso

DOI: https://doi.org/10.1002/ese3.667
Journal volume & issue: Vol. 8, no. 7
pp. 2322 – 2334

Abstract

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Abstract Co‐gasification of wood mixed with 20% (mass fraction) of polyethylene (PE) in a two‐stage NOTAR® fixed‐bed gasifier was studied in the present paper. The ratio of air flow injected in the pyrolyzer and air flow injected in the oxidation zone is called the air ratio (AR). The AR of 0.35, 0.43, and 0.49 were used for test runs. Mass and energy balances were established. The study showed the feasibility of co‐gasification of wood mixed with 20% of PE in the two‐stage gasifier. However, considerable quantity of residues rich in fixed carbon content (17% of the fuel mass and 69% of fixed carbon content) was produced due to a low reactivity of the charcoal obtained after the pyrolysis. AR increasing reduces the gas CO content due to overconsumption of char at the pyrolysis stage. H2 and CH4 highest values are obtained for the intermediate AR = 0.43 which maximized the LHV, energy efficiency, and carbon conversion with respectively 4674 kJ/Nm3, 64.35%, and 74.52%. Low reactivity and carbon content of the pyrolysis char likely lead to lower performance of co‐gasification of PE mixed with wood compared to wood gasification.

Published in Energy Science & Engineering

ISSN: 2050-0505 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Technology; Science
Website: https://onlinelibrary.wiley.com/journal/20500505

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