The influence of crop dryer operation parameters on the efficiency of energy recovery from extract air

The influence of crop dryer operation parameters on the efficiency of energy recovery from extract air

Crop drying, especially maize drying, occurs at low external air temperatures, which are lower than the extract air temperature. Therefore, using heat exchangers, to recover thermal energy from the extract air to preheat the cold and dry external air, results in a significant reduction in the primar...

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Main Authors: Przydróżny Edward, Przydróżna Aleksandra, Szczęśniak Sylwia, Walaszczyk Juliusz
Format: Article
Language:English
Published: EDP Sciences 2019-01-01
Series:E3S Web of Conferences
Online Access:https://www.e3s-conferences.org/articles/e3sconf/pdf/2019/42/e3sconf_asee18_00064.pdf
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spelling doaj-55e519f0d436460f85a5e24423f4b5de2021-02-02T08:37:53ZengEDP SciencesE3S Web of Conferences2267-12422019-01-011160006410.1051/e3sconf/201911600064e3sconf_asee18_00064The influence of crop dryer operation parameters on the efficiency of energy recovery from extract airPrzydróżny Edward0Przydróżna Aleksandra1Szczęśniak Sylwia2Walaszczyk Juliusz3Wrocław University of Science and Technology, Department of Air Conditioning, Heating, Gas Engineering and Air ProtectionMax FordhamWrocław University of Science and Technology, Department of Air Conditioning, Heating, Gas Engineering and Air ProtectionWrocław University of Science and Technology, Department of Air Conditioning, Heating, Gas Engineering and Air ProtectionCrop drying, especially maize drying, occurs at low external air temperatures, which are lower than the extract air temperature. Therefore, using heat exchangers, to recover thermal energy from the extract air to preheat the cold and dry external air, results in a significant reduction in the primary energy demand for crop drying. The measurements of air parameters in the crop dryer, with a drying capacity of 19 Mg/h of maize, confirm the assumptions undertaken for the production of the heat recovery system. We apply the cross-counter-flow surface heat exchanger system to provide a significant improvement in the efficiency of crop drying. We perform the analysis of the thermal energy recovery system operation. Our results indicate the influence of the drying air set-point and the crop specific humidity on the efficiency of energy recovery from the exhaust air. We performed our measurements at different drying air temperature set-points and different crop relative humidity.https://www.e3s-conferences.org/articles/e3sconf/pdf/2019/42/e3sconf_asee18_00064.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Przydróżny Edward
Przydróżna Aleksandra
Szczęśniak Sylwia
Walaszczyk Juliusz
spellingShingle Przydróżny Edward
Przydróżna Aleksandra
Szczęśniak Sylwia
Walaszczyk Juliusz
The influence of crop dryer operation parameters on the efficiency of energy recovery from extract air
E3S Web of Conferences
author_facet Przydróżny Edward
Przydróżna Aleksandra
Szczęśniak Sylwia
Walaszczyk Juliusz
author_sort Przydróżny Edward
title The influence of crop dryer operation parameters on the efficiency of energy recovery from extract air
title_short The influence of crop dryer operation parameters on the efficiency of energy recovery from extract air
title_full The influence of crop dryer operation parameters on the efficiency of energy recovery from extract air
title_fullStr The influence of crop dryer operation parameters on the efficiency of energy recovery from extract air
title_full_unstemmed The influence of crop dryer operation parameters on the efficiency of energy recovery from extract air
title_sort influence of crop dryer operation parameters on the efficiency of energy recovery from extract air
publisher EDP Sciences
series E3S Web of Conferences
issn 2267-1242
publishDate 2019-01-01
description Crop drying, especially maize drying, occurs at low external air temperatures, which are lower than the extract air temperature. Therefore, using heat exchangers, to recover thermal energy from the extract air to preheat the cold and dry external air, results in a significant reduction in the primary energy demand for crop drying. The measurements of air parameters in the crop dryer, with a drying capacity of 19 Mg/h of maize, confirm the assumptions undertaken for the production of the heat recovery system. We apply the cross-counter-flow surface heat exchanger system to provide a significant improvement in the efficiency of crop drying. We perform the analysis of the thermal energy recovery system operation. Our results indicate the influence of the drying air set-point and the crop specific humidity on the efficiency of energy recovery from the exhaust air. We performed our measurements at different drying air temperature set-points and different crop relative humidity.
url https://www.e3s-conferences.org/articles/e3sconf/pdf/2019/42/e3sconf_asee18_00064.pdf
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