A Comprehensive Review on Biomass Torrefaction

Nhuchhen, Daya Ram; Basu, Prabir; Acharya, Bishnu

doi:10.5171/2014.506376

Cited by 170 publications

(187 citation statements)

References 97 publications

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“…Torrefied biomass is thus considered a potential substituent for coal in pulverized coal-power plants. This process is performed within a narrow temperature range of 200 to 300 °C at a low heating rate and in a non-oxidizing environment (Tumuluru et al 2010;Nhuchhen et al 2014). Conventional pyrolysis that is carried out at a higher temperature range primarily produces liquid fuels, whereas the torrefaction process mainly produces a solid product (Tumuluru et al 2010;Nhuchhen et al 2014).…”

Section: Introductionmentioning

confidence: 99%

“…Much work has been done to understand the process of torrefaction and to study the effects of different operating parameters (temperature, residence time, size, presence of oxygen) on the yield and qualities of torrefied products from various biomasses (Nhuchhen et al 2014;Chen et al 2015). However, little attention has been directed towards defining a numerical representation of the quality of the torrefied product.…”

Section: Introductionmentioning

confidence: 99%

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An Index for Quantifying the Degree of Torrefaction

Basu¹,

Kulshreshtha²,

Acharya³

2017

BioResources

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Torrefaction, a thermochemical pre-treatment process, is used to enhance the properties of biomass to make it more compatible with solid fossil fuels. A quantitative index (TI) is proposed here to define the degree or quality of torrefaction especially for its use in the energy industries. Torrefaction index is defined as the ratio of energy density enhancement factor of the product at the specified condition to that at a reference condition, which is torrefaction at 300 °C for 60 min. The index, calculated for a wide range of data shows a linear dependence on torrefaction temperature. Numerical values of this index were in range of 0.93 to 0.95, 0.95 to 0.97, and 0.97 to 1.0 for light, medium, and severe torrefaction conditions, respectively. Based on a wide range of experimental data of woody biomass, two empirical correlations for mass and energy yields were developed. These correlations permitted prediction of TI without performing torrefaction of the biomass.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

An Index for Quantifying the Degree of Torrefaction

Basu¹,

Kulshreshtha²,

Acharya³

2017

BioResources

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“…Among all the sustainable energies, biomass energy has the broad availability worldwide and this makes it an interesting option [2]. On the other hand, as an energy resource, biomass has its disadvantages such as structural heterogeneity, nonuniform physical properties, low energy density, hygroscopic nature, and low bulk density [3]. These characteristics prevent the use of biomass instead of fossil fuels.…”

Section: Introductionmentioning

confidence: 99%

Comparison of solid biofuels produced from olive pomace with two different conversion methods: torrefaction and hydrothermal carbonization

Gultekin¹,

Olgun²,

Çeliktaş³

2018

IJET

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Olive pomace is a by-product of olive oil production process and has the potential to be a solid biofuel after thermal treatment. In this study, olive pomace was treated by two thermal conversion methods: hydrothermal carbonization (HTC) and torrefaction. Experiments were carried out under the temperature values of 250, 275, 300 and 350°C; reaction times of 10, 20 and 30 minutes for torrefaction and temperature values of 180, 200 and 220°C; reaction time of 2, 3 and 4 hours for HTC. Products with the same energy yield value (62 %) obtained the higher heating values of 23.73 and 25.20 MJ/kg for torrefaction (275°C for 20 minutes) and hydrothermal carbonization (220°C for 2 hours), respectively. Hydrothermal carbonization method has the potential to produce chars at lower temperature values and without a drying process; and obtain products with improved higher heating values, energy yields and atomic O/C and H/C ratios compare to torrefaction products.

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“…The reason for the high calorific value obtained may be attributed to alteration in chemical properties caused by torrefaction, especially with regards to the reduced oxygen-carbon and hydrogen-carbon ratios. Low oxygen-carbon and hydrogen-carbon ratios of biomass will increase calorific value and will lead to improved gasification characteristics of the biomass in terms of efficiency [21,22].…”

mentioning

confidence: 99%

Assessment of the Influence of Torrefied Biomass Physical Characteristics, Design and Operating Variables on Gasification Efficiency

Anukam¹,

Mamphweli²,

Reddy³

et al. 2016

JCCE

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Gasification efficiency is an important factor that determines the actual technical operation as well as the economic viability of using a gasifier system for energy production. In this study, the impact of the physical properties of torrefied bagasse and the influence of gasifier design and operating variables were investigated in a computer simulated downdraft gasification system. Results obtained from the study indicated an interrelationship between feedstock characteristics, especially with regard to feed size, design variables such as throat angle and throat diameter as well as gasifier operating conditions such as temperature of input air and feed input. These variables influenced the efficiency of the gasification process of sugarcane bagasse because of increased enhancement of combustion zone reactions, which liberated huge amount of heat that led to a rise in the temperature of the gasification process. This condition also created increased tar cracking within the gasification system, contributing to reduction in the overall yield of tar.

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A Comprehensive Review on Biomass Torrefaction

Cited by 170 publications

References 97 publications

An Index for Quantifying the Degree of Torrefaction

An Index for Quantifying the Degree of Torrefaction

Comparison of solid biofuels produced from olive pomace with two different conversion methods: torrefaction and hydrothermal carbonization

Assessment of the Influence of Torrefied Biomass Physical Characteristics, Design and Operating Variables on Gasification Efficiency

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