Innovative combined in-cycle trigeneration technologies for food industries

The majority of integrated energy systems (IES) for combined electricity, heat and refrigeration generation, or trigeneration, are based on gas engines. The fuel efficiency of gas engines are strictly influenced by intake air temperatures. Practically in all IES the absorption lithium-bromide chille...

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Autores principales: Radchenko Andrii, Mikielewicz Dariusz, Radchenko Mykola, Forduy Serhiy, Rizun Oleksandr, Khaldobin Viktor
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Publicado: EDP Sciences 2021
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spelling oai:doaj.org-article:df91597fa5b1481cad43f5095502fee02021-11-12T11:44:46ZInnovative combined in-cycle trigeneration technologies for food industries2267-124210.1051/e3sconf/202132300029https://doaj.org/article/df91597fa5b1481cad43f5095502fee02021-01-01T00:00:00Zhttps://www.e3s-conferences.org/articles/e3sconf/pdf/2021/99/e3sconf_mpsu2021_00029.pdfhttps://doaj.org/toc/2267-1242The majority of integrated energy systems (IES) for combined electricity, heat and refrigeration generation, or trigeneration, are based on gas engines. The fuel efficiency of gas engines are strictly influenced by intake air temperatures. Practically in all IES the absorption lithium-bromide chillers (ACh) are applied for conversing the heat removed from the engine into refrigeration in the form of chilled water. The peculiarity of trigeneration in food industries is the use of chilled water of about 12°C for technological needs instead of 7°C as typical for ACh. This leads to a considerable great potential of engine intake air deeper cooling not realized by ACh, that can be used by ejector chiller (ECh) as the low temperature stage of two-stage absorption-ejector chiller (AECh) to provide engine cyclic air deep cooling and enhancing engine fuel efficiency. To evaluate the effect of gas engine cyclic air cooling the data on fuel consumption and power output of gas engine JMS 420 GS-N.L were analyzed.Radchenko AndriiMikielewicz DariuszRadchenko MykolaForduy SerhiyRizun OleksandrKhaldobin ViktorEDP SciencesarticleEnvironmental sciencesGE1-350ENFRE3S Web of Conferences, Vol 323, p 00029 (2021)
institution DOAJ
collection DOAJ
language EN
FR
topic Environmental sciences
GE1-350
spellingShingle Environmental sciences
GE1-350
Radchenko Andrii
Mikielewicz Dariusz
Radchenko Mykola
Forduy Serhiy
Rizun Oleksandr
Khaldobin Viktor
Innovative combined in-cycle trigeneration technologies for food industries
description The majority of integrated energy systems (IES) for combined electricity, heat and refrigeration generation, or trigeneration, are based on gas engines. The fuel efficiency of gas engines are strictly influenced by intake air temperatures. Practically in all IES the absorption lithium-bromide chillers (ACh) are applied for conversing the heat removed from the engine into refrigeration in the form of chilled water. The peculiarity of trigeneration in food industries is the use of chilled water of about 12°C for technological needs instead of 7°C as typical for ACh. This leads to a considerable great potential of engine intake air deeper cooling not realized by ACh, that can be used by ejector chiller (ECh) as the low temperature stage of two-stage absorption-ejector chiller (AECh) to provide engine cyclic air deep cooling and enhancing engine fuel efficiency. To evaluate the effect of gas engine cyclic air cooling the data on fuel consumption and power output of gas engine JMS 420 GS-N.L were analyzed.
format article
author Radchenko Andrii
Mikielewicz Dariusz
Radchenko Mykola
Forduy Serhiy
Rizun Oleksandr
Khaldobin Viktor
author_facet Radchenko Andrii
Mikielewicz Dariusz
Radchenko Mykola
Forduy Serhiy
Rizun Oleksandr
Khaldobin Viktor
author_sort Radchenko Andrii
title Innovative combined in-cycle trigeneration technologies for food industries
title_short Innovative combined in-cycle trigeneration technologies for food industries
title_full Innovative combined in-cycle trigeneration technologies for food industries
title_fullStr Innovative combined in-cycle trigeneration technologies for food industries
title_full_unstemmed Innovative combined in-cycle trigeneration technologies for food industries
title_sort innovative combined in-cycle trigeneration technologies for food industries
publisher EDP Sciences
publishDate 2021
url https://doaj.org/article/df91597fa5b1481cad43f5095502fee0
work_keys_str_mv AT radchenkoandrii innovativecombinedincycletrigenerationtechnologiesforfoodindustries
AT mikielewiczdariusz innovativecombinedincycletrigenerationtechnologiesforfoodindustries
AT radchenkomykola innovativecombinedincycletrigenerationtechnologiesforfoodindustries
AT forduyserhiy innovativecombinedincycletrigenerationtechnologiesforfoodindustries
AT rizunoleksandr innovativecombinedincycletrigenerationtechnologiesforfoodindustries
AT khaldobinviktor innovativecombinedincycletrigenerationtechnologiesforfoodindustries
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