Biomass as an energy source in coal co-firing and its feasibility enhancement via pre-treatment techniques

Biomass as an energy source in coal co-firing and its feasibility enhancement via pre-treatment techniques

Biomass co-firing is recognised as a crucial technology to aid in curbing the use of fossil fuels, particularly due to its relative ease of implementation. This article provides an introduction to biomass and its use as a fuel – as with any fuel, this includes its characterisation and energy convers...

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Bibliographic Details
Published in:Fuel processing technology Vol. 159; pp. 287 - 305
Main Authors: Madanayake, Buddhike Neminda, Gan, Suyin, Eastwick, Carol, Ng, Hoon Kiat
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 01-05-2017
Elsevier Science Ltd
Subjects:
Biomass
Biomass energy production
Carbon dioxide
Chemical properties
Co-firing
Coal
Drying
Energy
Energy conversion
Feasibility
Firing
Fossil fuels
Leaching
Pre-treatment
Pretreatment
Pyrolysis
Torrefaction
Torrefaction
Biomass
Co-firing
Pre-treatment
Leaching
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Summary:Biomass co-firing is recognised as a crucial technology to aid in curbing the use of fossil fuels, particularly due to its relative ease of implementation. This article provides an introduction to biomass and its use as a fuel – as with any fuel, this includes its characterisation and energy conversion. Key fuel properties, both chemical and thermochemical, are described. Combustion is the energy conversion technique that is focused on; the implications of biomass co-firing are discussed along with an overview of current co-firing technology. Biomass pre-treatment techniques are identified as a means of alleviating some of the drawbacks of co-firing, and this is the chief focus of this paper. A comprehensive review is carried out on torrefaction and leaching, which aim to enhance the physical/thermochemical and chemical properties of the biomass, respectively. Milling and pelletising are also looked at. Additionally, the practical aspects of implementing biomass pre-treatment are explored, and areas where further research work is needed are identified. The final section of the review is concerned with CO2 avoidance, which is one of the key drivers behind adopting biomass co-firing. •Implications of biomass co-firing and current co-firing technology are discussed.•Biomass pre-treatment techniques including torrefaction and leaching are appraised.•Practical aspects of implementing biomass pre-treatment are explored.
ISSN:0378-3820
1873-7188
DOI:10.1016/j.fuproc.2017.01.029