Optimization of hydrogen and syngas production from PKS gasification by using coal bottom ash

Muhammad Shahbaz; Suzana Yusup; Abrar Inayat; David Onoja Patrick; Angga Pratama; Muhammad Ammar

doi:10.1016/j.biortech.2017.05.119

Optimization of hydrogen and syngas production from PKS gasification by using coal bottom ash

Muhammad Shahbaz
, Suzana Yusup
, Abrar Inayat
, David Onoja Patrick
, Angga Pratama
, Muhammad Ammar

Research output: Contribution to journal › Article › peer-review

Abstract

Catalytic steam gasification of palm kernel shell is investigated to optimize operating parameters for hydrogen and syngas production using TGA-MS setup. RSM is used for experimental design and evaluating the effect of temperature, particle size, CaO/biomass ratio, and coal bottom ash wt% on hydrogen and syngas. Hydrogen production appears highly sensitive to all factors, especially temperature and coal bottom ash wt%. In case of syngas, the order of parametric influence is: CaO/biomass > coal bottom ash wt% > temperature > particle size. The significant catalytic effect of coal bottom ash is due to the presence of Fe2O3, MgO, Al2O3, and CaO. A temperature of 692 °C, coal bottom ash wt% of 0.07, CaO/biomass of 1.42, and particle size of 0.75 mm are the optimum conditions for augmented yield of hydrogen and syngas. The production of hydrogen and syngas is 1.5% higher in the pilot scale gasifier as compared to TGA-MS setup.

Original language	English
Pages (from-to)	284-295
Number of pages	12
Journal	Bioresource Technology
Volume	241
Early online date	24 May 2017
DOIs	https://doi.org/10.1016/j.biortech.2017.05.119
Publication status	Published - 1 Oct 2017
Externally published	Yes

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@article{1533f41e69a94a8cb84b9feb9507271c,

title = "Optimization of hydrogen and syngas production from PKS gasification by using coal bottom ash",

abstract = "Catalytic steam gasification of palm kernel shell is investigated to optimize operating parameters for hydrogen and syngas production using TGA-MS setup. RSM is used for experimental design and evaluating the effect of temperature, particle size, CaO/biomass ratio, and coal bottom ash wt\% on hydrogen and syngas. Hydrogen production appears highly sensitive to all factors, especially temperature and coal bottom ash wt\%. In case of syngas, the order of parametric influence is: CaO/biomass > coal bottom ash wt\% > temperature > particle size. The significant catalytic effect of coal bottom ash is due to the presence of Fe2O3, MgO, Al2O3, and CaO. A temperature of 692 °C, coal bottom ash wt\% of 0.07, CaO/biomass of 1.42, and particle size of 0.75 mm are the optimum conditions for augmented yield of hydrogen and syngas. The production of hydrogen and syngas is 1.5\% higher in the pilot scale gasifier as compared to TGA-MS setup.",

author = "Muhammad Shahbaz and Suzana Yusup and Abrar Inayat and Patrick, \{David Onoja\} and Angga Pratama and Muhammad Ammar",

year = "2017",

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doi = "10.1016/j.biortech.2017.05.119",

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journal = "Bioresource Technology",

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TY - JOUR

T1 - Optimization of hydrogen and syngas production from PKS gasification by using coal bottom ash

AU - Shahbaz, Muhammad

AU - Yusup, Suzana

AU - Inayat, Abrar

AU - Patrick, David Onoja

AU - Pratama, Angga

AU - Ammar, Muhammad

PY - 2017/10/1

Y1 - 2017/10/1

N2 - Catalytic steam gasification of palm kernel shell is investigated to optimize operating parameters for hydrogen and syngas production using TGA-MS setup. RSM is used for experimental design and evaluating the effect of temperature, particle size, CaO/biomass ratio, and coal bottom ash wt% on hydrogen and syngas. Hydrogen production appears highly sensitive to all factors, especially temperature and coal bottom ash wt%. In case of syngas, the order of parametric influence is: CaO/biomass > coal bottom ash wt% > temperature > particle size. The significant catalytic effect of coal bottom ash is due to the presence of Fe2O3, MgO, Al2O3, and CaO. A temperature of 692 °C, coal bottom ash wt% of 0.07, CaO/biomass of 1.42, and particle size of 0.75 mm are the optimum conditions for augmented yield of hydrogen and syngas. The production of hydrogen and syngas is 1.5% higher in the pilot scale gasifier as compared to TGA-MS setup.

AB - Catalytic steam gasification of palm kernel shell is investigated to optimize operating parameters for hydrogen and syngas production using TGA-MS setup. RSM is used for experimental design and evaluating the effect of temperature, particle size, CaO/biomass ratio, and coal bottom ash wt% on hydrogen and syngas. Hydrogen production appears highly sensitive to all factors, especially temperature and coal bottom ash wt%. In case of syngas, the order of parametric influence is: CaO/biomass > coal bottom ash wt% > temperature > particle size. The significant catalytic effect of coal bottom ash is due to the presence of Fe2O3, MgO, Al2O3, and CaO. A temperature of 692 °C, coal bottom ash wt% of 0.07, CaO/biomass of 1.42, and particle size of 0.75 mm are the optimum conditions for augmented yield of hydrogen and syngas. The production of hydrogen and syngas is 1.5% higher in the pilot scale gasifier as compared to TGA-MS setup.

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DO - 10.1016/j.biortech.2017.05.119

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SN - 0960-8524

VL - 241

SP - 284

EP - 295

JO - Bioresource Technology

JF - Bioresource Technology

ER -

Optimization of hydrogen and syngas production from PKS gasification by using coal bottom ash

Abstract

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