Comparison of Energy Consumption of Cereal Grain Dryer Powered by LPG and Hard Coal in Polish Conditions

Comparison of Energy Consumption of Cereal Grain Dryer Powered by LPG and Hard Coal in Polish Conditions

The calculation method commonly used in the industry takes into consideration mainly fuel consumption (excluding electricity) and the amount of removed moisture which is reflected in the unit MJ·(Mg·%)<sup>−1</sup>. This is not a scientific approach because the result will change if the...

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Main Authors: Marcin Dębowski, Przemysław Bukowski, Przemysław Kobel, Jerzy Bieniek, Leszek Romański, Bernard Knutel
Format: Article
Language:English
Published: MDPI AG 2021-07-01
Series:Energies
Subjects:
cereal drying
LPG
hard coal
energy efficiency
gas emission
Online Access:https://www.mdpi.com/1996-1073/14/14/4340
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spelling doaj-894e91372e5d463e9ed93d4f9ea017212021-07-23T13:39:17ZengMDPI AGEnergies1996-10732021-07-01144340434010.3390/en14144340Comparison of Energy Consumption of Cereal Grain Dryer Powered by LPG and Hard Coal in Polish ConditionsMarcin Dębowski0Przemysław Bukowski1Przemysław Kobel2Jerzy Bieniek3Leszek Romański4Bernard Knutel5Division of Low-Emission Energy Sources and Waste Management, Wroclaw University of Environmental and Life Sciences, 51-630 Wroclaw, PolandDivision of Low-Emission Energy Sources and Waste Management, Wroclaw University of Environmental and Life Sciences, 51-630 Wroclaw, PolandDivision of Low-Emission Energy Sources and Waste Management, Wroclaw University of Environmental and Life Sciences, 51-630 Wroclaw, PolandDivision of Low-Emission Energy Sources and Waste Management, Wroclaw University of Environmental and Life Sciences, 51-630 Wroclaw, PolandDivision of Low-Emission Energy Sources and Waste Management, Wroclaw University of Environmental and Life Sciences, 51-630 Wroclaw, PolandDivision of Low-Emission Energy Sources and Waste Management, Wroclaw University of Environmental and Life Sciences, 51-630 Wroclaw, PolandThe calculation method commonly used in the industry takes into consideration mainly fuel consumption (excluding electricity) and the amount of removed moisture which is reflected in the unit MJ·(Mg·%)<sup>−1</sup>. This is not a scientific approach because the result will change if the basic moisture is different (drying from 21% to 18% will consume less energy than drying from 18% to 15%). This paper aims to compare the energy consumption of two industrial continuous flow grain dryers powered by LPG and hard coal based on a comprehensive approach to energy efficiency calculation enriched with electricity consumption, flow measurements, and control of grain moisture. It could be useful for manufacturers who could use this method to generate more reliable data in their product datasheets, and it could also be legally regulated as an appropriate tool for calculating the energy consumption of agricultural grain dryers. According to the approach presented in this paper, the S428.CS construction powered by LPG gas had an energy consumption that was 6.14% lower than the DT2532 dryer construction, which used hard coal.https://www.mdpi.com/1996-1073/14/14/4340cereal dryingLPGhard coalenergy efficiencygas emission
collection DOAJ
language English
format Article
sources DOAJ
author Marcin Dębowski
Przemysław Bukowski
Przemysław Kobel
Jerzy Bieniek
Leszek Romański
Bernard Knutel
spellingShingle Marcin Dębowski
Przemysław Bukowski
Przemysław Kobel
Jerzy Bieniek
Leszek Romański
Bernard Knutel
Comparison of Energy Consumption of Cereal Grain Dryer Powered by LPG and Hard Coal in Polish Conditions
Energies
cereal drying
LPG
hard coal
energy efficiency
gas emission
author_facet Marcin Dębowski
Przemysław Bukowski
Przemysław Kobel
Jerzy Bieniek
Leszek Romański
Bernard Knutel
author_sort Marcin Dębowski
title Comparison of Energy Consumption of Cereal Grain Dryer Powered by LPG and Hard Coal in Polish Conditions
title_short Comparison of Energy Consumption of Cereal Grain Dryer Powered by LPG and Hard Coal in Polish Conditions
title_full Comparison of Energy Consumption of Cereal Grain Dryer Powered by LPG and Hard Coal in Polish Conditions
title_fullStr Comparison of Energy Consumption of Cereal Grain Dryer Powered by LPG and Hard Coal in Polish Conditions
title_full_unstemmed Comparison of Energy Consumption of Cereal Grain Dryer Powered by LPG and Hard Coal in Polish Conditions
title_sort comparison of energy consumption of cereal grain dryer powered by lpg and hard coal in polish conditions
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2021-07-01
description The calculation method commonly used in the industry takes into consideration mainly fuel consumption (excluding electricity) and the amount of removed moisture which is reflected in the unit MJ·(Mg·%)<sup>−1</sup>. This is not a scientific approach because the result will change if the basic moisture is different (drying from 21% to 18% will consume less energy than drying from 18% to 15%). This paper aims to compare the energy consumption of two industrial continuous flow grain dryers powered by LPG and hard coal based on a comprehensive approach to energy efficiency calculation enriched with electricity consumption, flow measurements, and control of grain moisture. It could be useful for manufacturers who could use this method to generate more reliable data in their product datasheets, and it could also be legally regulated as an appropriate tool for calculating the energy consumption of agricultural grain dryers. According to the approach presented in this paper, the S428.CS construction powered by LPG gas had an energy consumption that was 6.14% lower than the DT2532 dryer construction, which used hard coal.
topic cereal drying
LPG
hard coal
energy efficiency
gas emission
url https://www.mdpi.com/1996-1073/14/14/4340
work_keys_str_mv AT marcindebowski comparisonofenergyconsumptionofcerealgraindryerpoweredbylpgandhardcoalinpolishconditions
AT przemysławbukowski comparisonofenergyconsumptionofcerealgraindryerpoweredbylpgandhardcoalinpolishconditions
AT przemysławkobel comparisonofenergyconsumptionofcerealgraindryerpoweredbylpgandhardcoalinpolishconditions
AT jerzybieniek comparisonofenergyconsumptionofcerealgraindryerpoweredbylpgandhardcoalinpolishconditions
AT leszekromanski comparisonofenergyconsumptionofcerealgraindryerpoweredbylpgandhardcoalinpolishconditions
AT bernardknutel comparisonofenergyconsumptionofcerealgraindryerpoweredbylpgandhardcoalinpolishconditions
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