Feasibility Study of Biomass Gasification Integrated with Reheating Furnaces in Steelmaking Process

Yukun Hu; Jahedul Islam Chowdhury; Giannis Katsaros; CK Tan; Nazmiye Balta-Ozkan; Liz Varga; Savvas  Tassou; Chunsheng Wang

doi:10.12783/dteees/iceee2019/31824

Feasibility Study of Biomass Gasification Integrated with Reheating Furnaces in Steelmaking Process

Yukun Hu, Jahedul Islam Chowdhury, Giannis Katsaros, CK Tan, Nazmiye Balta-Ozkan, Liz Varga, Savvas Tassou, Chunsheng Wang

Allbwn ymchwil: Pennod mewn Llyfr/Adroddiad/Trafodion Cynhadledd › Cyfraniad i gynhadledd › adolygiad gan gymheiriaid

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This paper investigates the integration of biosyngas production, reheating furnace and heat recovery steam cycle, in order to use biosyngas directly as fuel in the furnace. A system model was developed to evaluate the feasibility of the proposed system from the perspective of heat and mass balance. To particularly study the impacts of fuel switching on the heating quality of the furnace, a three-dimensional furnace model considering detailed heat transfer processes was embedded into the system through an Aspen PlusTM user defined model. The simulation results show that biosyngas is suitable for direct use as fuel for reheating furnaces. Should CO2 capture be considered in the proposed system, it has a potential to achieve the capture without external energy input which results in so-called negative emissions of CO2.

Iaith wreiddiol	Saesneg
Teitl	3rd International Conference on Energy, Ecology and Environment (ICEEE 2019)
Cyhoeddwr	DEStech
ISBN (Argraffiad)	978-1-60595-641-1
Dynodwyr Gwrthrych Digidol (DOIs)	https://doi.org/10.12783/dteees/iceee2019/31824
Statws	Cyhoeddwyd - 2019

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10.12783/dteees/iceee2019/31824

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@inproceedings{5249ceec570d44b39261c881a093ccf0,

title = "Feasibility Study of Biomass Gasification Integrated with Reheating Furnaces in Steelmaking Process",

abstract = "This paper investigates the integration of biosyngas production, reheating furnace and heat recovery steam cycle, in order to use biosyngas directly as fuel in the furnace. A system model was developed to evaluate the feasibility of the proposed system from the perspective of heat and mass balance. To particularly study the impacts of fuel switching on the heating quality of the furnace, a three-dimensional furnace model considering detailed heat transfer processes was embedded into the system through an Aspen PlusTM user defined model. The simulation results show that biosyngas is suitable for direct use as fuel for reheating furnaces. Should CO2 capture be considered in the proposed system, it has a potential to achieve the capture without external energy input which results in so-called negative emissions of CO2.",

author = "Yukun Hu and Chowdhury, {Jahedul Islam} and Giannis Katsaros and CK Tan and Nazmiye Balta-Ozkan and Liz Varga and Savvas Tassou and Chunsheng Wang",

year = "2019",

doi = "10.12783/dteees/iceee2019/31824",

language = "English",

isbn = "978-1-60595-641-1 ",

booktitle = "3rd International Conference on Energy, Ecology and Environment (ICEEE 2019)",

publisher = "DEStech",

}

Feasibility Study of Biomass Gasification Integrated with Reheating Furnaces in Steelmaking Process. / Hu, Yukun; Chowdhury, Jahedul Islam; Katsaros, Giannis et al.

3rd International Conference on Energy, Ecology and Environment (ICEEE 2019). DEStech, 2019.

Allbwn ymchwil: Pennod mewn Llyfr/Adroddiad/Trafodion Cynhadledd › Cyfraniad i gynhadledd › adolygiad gan gymheiriaid

TY - GEN

T1 - Feasibility Study of Biomass Gasification Integrated with Reheating Furnaces in Steelmaking Process

AU - Hu, Yukun

AU - Chowdhury, Jahedul Islam

AU - Katsaros, Giannis

AU - Tan, CK

AU - Balta-Ozkan, Nazmiye

AU - Varga, Liz

AU - Tassou, Savvas

AU - Wang, Chunsheng

PY - 2019

Y1 - 2019

N2 - This paper investigates the integration of biosyngas production, reheating furnace and heat recovery steam cycle, in order to use biosyngas directly as fuel in the furnace. A system model was developed to evaluate the feasibility of the proposed system from the perspective of heat and mass balance. To particularly study the impacts of fuel switching on the heating quality of the furnace, a three-dimensional furnace model considering detailed heat transfer processes was embedded into the system through an Aspen PlusTM user defined model. The simulation results show that biosyngas is suitable for direct use as fuel for reheating furnaces. Should CO2 capture be considered in the proposed system, it has a potential to achieve the capture without external energy input which results in so-called negative emissions of CO2.

AB - This paper investigates the integration of biosyngas production, reheating furnace and heat recovery steam cycle, in order to use biosyngas directly as fuel in the furnace. A system model was developed to evaluate the feasibility of the proposed system from the perspective of heat and mass balance. To particularly study the impacts of fuel switching on the heating quality of the furnace, a three-dimensional furnace model considering detailed heat transfer processes was embedded into the system through an Aspen PlusTM user defined model. The simulation results show that biosyngas is suitable for direct use as fuel for reheating furnaces. Should CO2 capture be considered in the proposed system, it has a potential to achieve the capture without external energy input which results in so-called negative emissions of CO2.

U2 - 10.12783/dteees/iceee2019/31824

DO - 10.12783/dteees/iceee2019/31824

M3 - Conference contribution

SN - 978-1-60595-641-1

BT - 3rd International Conference on Energy, Ecology and Environment (ICEEE 2019)

PB - DEStech

ER -

Feasibility Study of Biomass Gasification Integrated with Reheating Furnaces in Steelmaking Process

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