Evaluation of Co and Nox Emissions in Real-Life Operating Conditions of Herbaceous Biomass Briquettes Combustion

Evaluation of Co and Nox Emissions in Real-Life Operating Conditions of Herbaceous Biomass Briquettes Combustion

The issue of carbon monoxide and nitrogen oxides emissions into the atmosphere is very current. This article thus focuses on the assessment of elemental composition of selected herbal biomass species and emission concentrations during combustion in a commonly available grate combustion device for br...

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Main Authors: Malaťák Jan, Velebil Jan, Bradna Jiří, Gendek Arkadiusz, Tamelová Barbora
Format: Article
Language:English
Published: Sciendo 2020-06-01
Series:Acta Technologica Agriculturae
Subjects:
calorific value
elementary analysis
stoichiometry
coefficient of excess air
flue gas
Online Access:https://doi.org/10.2478/ata-2020-0009
id doaj-659706b3aa5d48d78f12f33ecc8bea68
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spelling doaj-659706b3aa5d48d78f12f33ecc8bea682021-09-06T19:41:21ZengSciendoActa Technologica Agriculturae1338-52672020-06-01232535910.2478/ata-2020-0009ata-2020-0009Evaluation of Co and Nox Emissions in Real-Life Operating Conditions of Herbaceous Biomass Briquettes CombustionMalaťák Jan0Velebil Jan1Bradna Jiří2Gendek Arkadiusz3Tamelová Barbora4Czech University of Life Sciences Prague, Czech RepublicCzech University of Life Sciences Prague, Czech RepublicCzech University of Life Sciences Prague, Czech RepublicWarsaw University of Life Sciences – SGGW,Warsaw, PolandCzech University of Life Sciences Prague, Czech RepublicThe issue of carbon monoxide and nitrogen oxides emissions into the atmosphere is very current. This article thus focuses on the assessment of elemental composition of selected herbal biomass species and emission concentrations during combustion in a commonly available grate combustion device for briquetted fuel. In tests, emission concentrations were evaluated in contrast to the oxygen concentration in flue gas and flue gas temperatures. Samples of camelina (Camelina sativa), giant miscanthus (Miscanthus gigantheus), reed canary grass (Phalaris arundinacea L.) and sorghum (Sorghum bicolor) were used. Elementary and stoichiometric combustion analyses were conducted for these samples (LECO AC-600 semi-automatic calorimeter, CHN628 + S elemental analyser and LECO TGA-701 analyser). Analyses of C, H, N and S concentrations and calorific values showed that samples of briquetted herb biomass had insignificant differences and could be used for energy purposes without limitation. The limiting factor was the high amount of ash, which amounted to 6.59% of dry weight in reed canary grass briquette sample. Furthermore, a high percentage (1.91% wt.) of nitrogen was observed in reed canary grass briquettes. Such a high amount of nitrogen during combustion tests resulted in an increase in NOx emission levels in flue gas of the Phalaris arundinacea L. sample, in which it reached the maximum concentration of 375.20 mg·m−3. The combustion tests showed that even under steady-state conditions, high concentrations of carbon monoxide could not be avoided for tested briquetted biofuels without active regulation of the combustion process.https://doi.org/10.2478/ata-2020-0009calorific valueelementary analysisstoichiometrycoefficient of excess airflue gas
collection DOAJ
language English
format Article
sources DOAJ
author Malaťák Jan
Velebil Jan
Bradna Jiří
Gendek Arkadiusz
Tamelová Barbora
spellingShingle Malaťák Jan
Velebil Jan
Bradna Jiří
Gendek Arkadiusz
Tamelová Barbora
Evaluation of Co and Nox Emissions in Real-Life Operating Conditions of Herbaceous Biomass Briquettes Combustion
Acta Technologica Agriculturae
calorific value
elementary analysis
stoichiometry
coefficient of excess air
flue gas
author_facet Malaťák Jan
Velebil Jan
Bradna Jiří
Gendek Arkadiusz
Tamelová Barbora
author_sort Malaťák Jan
title Evaluation of Co and Nox Emissions in Real-Life Operating Conditions of Herbaceous Biomass Briquettes Combustion
title_short Evaluation of Co and Nox Emissions in Real-Life Operating Conditions of Herbaceous Biomass Briquettes Combustion
title_full Evaluation of Co and Nox Emissions in Real-Life Operating Conditions of Herbaceous Biomass Briquettes Combustion
title_fullStr Evaluation of Co and Nox Emissions in Real-Life Operating Conditions of Herbaceous Biomass Briquettes Combustion
title_full_unstemmed Evaluation of Co and Nox Emissions in Real-Life Operating Conditions of Herbaceous Biomass Briquettes Combustion
title_sort evaluation of co and nox emissions in real-life operating conditions of herbaceous biomass briquettes combustion
publisher Sciendo
series Acta Technologica Agriculturae
issn 1338-5267
publishDate 2020-06-01
description The issue of carbon monoxide and nitrogen oxides emissions into the atmosphere is very current. This article thus focuses on the assessment of elemental composition of selected herbal biomass species and emission concentrations during combustion in a commonly available grate combustion device for briquetted fuel. In tests, emission concentrations were evaluated in contrast to the oxygen concentration in flue gas and flue gas temperatures. Samples of camelina (Camelina sativa), giant miscanthus (Miscanthus gigantheus), reed canary grass (Phalaris arundinacea L.) and sorghum (Sorghum bicolor) were used. Elementary and stoichiometric combustion analyses were conducted for these samples (LECO AC-600 semi-automatic calorimeter, CHN628 + S elemental analyser and LECO TGA-701 analyser). Analyses of C, H, N and S concentrations and calorific values showed that samples of briquetted herb biomass had insignificant differences and could be used for energy purposes without limitation. The limiting factor was the high amount of ash, which amounted to 6.59% of dry weight in reed canary grass briquette sample. Furthermore, a high percentage (1.91% wt.) of nitrogen was observed in reed canary grass briquettes. Such a high amount of nitrogen during combustion tests resulted in an increase in NOx emission levels in flue gas of the Phalaris arundinacea L. sample, in which it reached the maximum concentration of 375.20 mg·m−3. The combustion tests showed that even under steady-state conditions, high concentrations of carbon monoxide could not be avoided for tested briquetted biofuels without active regulation of the combustion process.
topic calorific value
elementary analysis
stoichiometry
coefficient of excess air
flue gas
url https://doi.org/10.2478/ata-2020-0009
work_keys_str_mv AT malatakjan evaluationofcoandnoxemissionsinreallifeoperatingconditionsofherbaceousbiomassbriquettescombustion
AT velebiljan evaluationofcoandnoxemissionsinreallifeoperatingconditionsofherbaceousbiomassbriquettescombustion
AT bradnajiri evaluationofcoandnoxemissionsinreallifeoperatingconditionsofherbaceousbiomassbriquettescombustion
AT gendekarkadiusz evaluationofcoandnoxemissionsinreallifeoperatingconditionsofherbaceousbiomassbriquettescombustion
AT tamelovabarbora evaluationofcoandnoxemissionsinreallifeoperatingconditionsofherbaceousbiomassbriquettescombustion
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