dc.description |
The authors wish to express their gratitude towards Dr. G.D.
Acharya, Principal, Atmiya College of Engineering, Rajkot,
India; and Dr. Subarna Maiti and Dr. Himanshu Patel
from CSIR-CSMCRI, Bhavnagar, India for their support
and granting permission to utilize the laboratory and other
resources required for this ongoing research. Also, special
thanks go to the Directorate of Technical Education, Gujarat
state, India for providing encouragement to carry out this
research work |
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dc.description.abstract |
Burning of post-harvest non-edible agro residues (biomass) are the major source of environmental and soil pollution,
affecting the lives of millions of people, especially in certain demography of developing countries like India. Non edible
agro residues contain toxic structural constituents, making it unsuitable for cattle feed. However, due to its cellulosic
and lignocellulosic constituents, it has the potential to be used as a promising feedstock to develop value added energy
products. Authors in this review paper have comprehensively reviewed the technological aspects related to conversion
of agro residues into value added energy products like bio-oil, bio-char, and pyro gas. Various non-edible agro residues
like Cotton stalk, castor stalk, Maize stalk, Rice straw, Rice husk, Corn cob, Sugarcane bagasse, and wheat straw etc.,
have been reviewed for its potential as feedstock material for thermo chemical conversion to obtain energy products like
bio-oil, bio-char, and pyro-gas. Different physio-chemical properties, its chemical characterization methods, different bio-oil upgradation techniques, Techno-economic analysis (TEA), and Life Cycle Assessment (LCA) have been reviewed for
different thermo-chemical conversion processes. The reviewed works reveal that byproducts derived from pyrolysis of non-edible agro residues have potential to be used as biofuels. Bio-oils after upgradation may be used as fuel, bio-char with
appropriate pulversing may be used as soil nutrient, and pyro-gas may be used as energy gas or carrier gas for process
industries. LCA of different processes for different agro residue-based biofuels indicate that conversion of biomass into
energy fuels is an sustainable, and economical solution for the environment point of view and economic point of view
through pyrolysis process as compare to the other conversion processes because pyrolysis process can accommodate agro
waste and produce bio-char and pyro-gas along with bio-oil having capacity to generate good revenue. |
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