A Study on Gasification behavior of woody biomass Using ASPEN

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Karan Nair; Prof K.K. Jain; pooja tiwari

A Study on Gasification behavior of woody biomass Using ASPEN

Authors: Karan Nair, Prof K.K. Jain, pooja tiwari

Unique Paper ID: 145447
PageNo: 985-992

Keywords: No Keywords Found

Abstract:
The use of wood for electricity generation and heat in modern (non-traditional) technologies has grown rapidly in recent years. For its supporters, it represents a relatively cheap and flexible way of supplying renewable energy, with benefits to the global climate and to forest industries. To its critics, it can release more greenhouse gas emissions into the atmosphere than the fossil fuels it replaces, and threatens the maintenance of natural forests and the biodiversity that depends on them. Biomass is classified as a source of renewable energy in national policy frameworks, benefiting from financial and regulatory support on the grounds that, like other renewables, it is a carbon-neutral energy source. The gasification can be the alternative way for woody biomass to cope up these threatens. A simulation based study has been carried out in this work for two woody biomass Kasai and Babool available in central India to find out the gasification behavior of both of them. The three gasification variables has been considered for the study i.e. Air to Biomass ratio, Gasification temperature and air inlet temperature. Thus the objective of the study is â€¢ To present a simulation based investigation aimed at developing an efficient process for air gasification of woody biomass in the absence of added catalysts. â€¢ To study the effect of the Air to Biomass ratio, Gasification temperature and air inlet temperature used for gasification process syngas quality.

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Copyright © 2026 Authors retain the copyright of this article. This article is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

BibTeX

@article{145447,
        author = {Karan Nair and Prof K.K. Jain and pooja tiwari},
        title = {A Study on Gasification behavior of woody biomass Using ASPEN},
        journal = {International Journal of Innovative Research in Technology},
        year = {},
        volume = {4},
        number = {10},
        pages = {985-992},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=145447},
        abstract = {The use of wood for electricity generation and heat in modern (non-traditional) technologies has grown rapidly in recent years. For its supporters, it represents a relatively cheap and flexible way of supplying renewable energy, with benefits to the global climate and to forest industries. To its critics, it can release more greenhouse gas emissions into the atmosphere than the fossil fuels it replaces, and threatens the maintenance of natural forests and the biodiversity that depends on them. 
	Biomass is classified as a source of renewable energy in national policy frameworks, benefiting from financial and regulatory support on the grounds that, like other renewables, it is a carbon-neutral energy source. The gasification can be the alternative way for woody biomass to cope up these threatens. A simulation based study has been carried out in this work for two woody biomass Kasai and Babool available in central India to find out the gasification behavior of both of them. The three gasification variables has been considered for the study i.e. Air to Biomass ratio, Gasification temperature and air inlet temperature.
Thus the objective of the study is 
â€¢	To present a simulation based investigation aimed at developing an efficient process for air gasification of woody biomass in the absence of added catalysts. 
â€¢	To study the effect of the Air to Biomass ratio, Gasification temperature and air inlet temperature used for gasification process syngas quality.
},
        keywords = {},
        month = {},
        }

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Cite This Article

Nair, K., & Jain, P. K., & tiwari, P. (). A Study on Gasification behavior of woody biomass Using ASPEN. International Journal of Innovative Research in Technology (IJIRT), 4(10), 985–992.

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