Some Chemical Compositional Changes in Miscanthus and White Oak Sawdust Samples during Torrefaction

Tumuluru, Jaya Shankar; Boardman, Richard; Wright, Christopher T.; Hess, J. Richard

doi:10.3390/en5103928

Cited by 31 publications

(29 citation statements)

References 31 publications

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“…Tulumuru et al [52] also suggested that temperatures above 300 • C are not necessary for torrefying biomass.…”

Section: Gas Analysismentioning

confidence: 99%

“…This study concludes that 250-300 °C can be a suitable range for torrefaction of sewage sludge as the temperature above 300 °C results in significant loss of volatiles, resulting in higher relative ash content, which is not suitable for energy applications. Tulumuru et al [52] also suggested that temperatures above 300 °C are not necessary for torrefying biomass.…”

Section: Gas Analysismentioning

confidence: 99%

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Thermal Pre-Treatment of Sewage Sludge in a Lab-Scale Fluidized Bed for Enhancing Its Solid Fuel Properties

Karki

Poudel

2018

Applied Sciences

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Thermal pre-treatment of non-lignocellulosic biomass, sewage sludge, using a lab-scale fluidized bed reactor was carried out in order to enhance its solid fuel properties. The influence of the torrefaction temperature range from 200-350 • C and 0-50 min residence time on the physical and chemical properties of the torrefied product was investigated. Properties of the torrefied product were analyzed on the basis of the degree of torrefaction, ultimate and proximate analysis, and gas analysis. An attempt was made to obtain the chemical exergy of sewage sludge. An elevated torrefaction temperature presented a beneficial impact on the degree of torrefaction and chemical exergy. Moreover, the effect of the torrefaction temperature and residence time on the elemental variation of sewage sludge exhibited an increase in the weight percentage of carbon while the H/C and O/C molar ratios deteriorated. Additionally, the product gas emitted during torrefaction was analyzed to study the pathway of hydrocarbons and oxygen containing compounds. The compounds with oxygen were emitted at higher temperatures in contrast to hydrocarbon gases. In addition, the study of various correlations for predicting the calorific value of torrefied sewage sludge was made.

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“…Tulumuru et al [52] also suggested that temperatures above 300 • C are not necessary for torrefying biomass.…”

Section: Gas Analysismentioning

confidence: 99%

Section: Gas Analysismentioning

confidence: 99%

Thermal Pre-Treatment of Sewage Sludge in a Lab-Scale Fluidized Bed for Enhancing Its Solid Fuel Properties

Karki

Poudel

2018

Applied Sciences

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“…making it hydrophobic and suitable for thermochemical applications like pyrolysis, gasification, and co-firing [19][20][21][22][23]. Torrefaction of biomass is a thermochemical process that can be described as a mild form of pyrolysis at temperatures typically ranging between 200 and 300 °C in an inert and reduced environment, resulting in a solid, uniform product with lower moisture and higher energy content [24][25][26][27]. Tumuluru et al [19] described the physiochemical and structural changes in biomass at different temperature regimes.…”

Section: Introductionmentioning

confidence: 99%

Analysis on Storage Off-Gas Emissions from Woody, Herbaceous, and Torrefied Biomass

Tumuluru

Lim

et al. 2015

Energies

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Wood chips, torrefied wood chips, ground switchgrass, and wood pellets were tested for off-gas emissions during storage. Storage canisters with gas-collection ports were used to conduct experiments at room temperature of 20 °C and in a laboratory oven set at 40 °C . Commercially-produced wood pellets yielded the highest carbon monoxide (CO) emissions at both 20 and 40 °C (1600 and 13,000 ppmv), whereas torrefied wood chips emitted the lowest of about <200 and <2000 ppmv. Carbon dioxide (CO2) emissions from wood pellets were 3000 ppmv and 42,000 ppmv, whereas torrefied wood chips registered at about 2000 and 25,000 ppmv, at 20 and 40 °C at the end of 11 days of storage. CO emission factors (milligrams per kilogram of biomass) calculated were lowest for ground switchgrass and torrefied wood chips (2.68 and 4.86 mg/kg) whereas wood pellets had the highest CO of OPEN ACCESSEnergies 2015, 8 1746 about 10.60 mg/kg, respectively, at 40 °C after 11 days of storage. In the case of CO2, wood pellets recorded the lowest value of 55.46 mg/kg, whereas switchgrass recorded the highest value of 318.72 mg/kg. This study concludes that CO emission factor is highest for wood pellets, CO2 is highest for switchgrass and CH4 is negligible for all feedstocks except for wood pellets, which is about 0.374 mg/kg at the end of 11-day storage at 40 °C.

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“…Torrefaction leads to breakage in the amorphous and crystalline regions of biomass, which indicates improved characteristics of the torrefied biomass that makes it more amenable to gasification [28][29][30].…”

Section: Influence Of Feed Input On Gasification Efficiencymentioning

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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Some Chemical Compositional Changes in Miscanthus and White Oak Sawdust Samples during Torrefaction

Cited by 31 publications

References 31 publications

Thermal Pre-Treatment of Sewage Sludge in a Lab-Scale Fluidized Bed for Enhancing Its Solid Fuel Properties

Thermal Pre-Treatment of Sewage Sludge in a Lab-Scale Fluidized Bed for Enhancing Its Solid Fuel Properties

Analysis on Storage Off-Gas Emissions from Woody, Herbaceous, and Torrefied Biomass

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

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