Datum
2017-05-10Autor
Philipp, MatthiasSchumm, GregorPeesel, Ron-HendrikWalmsley, Timothy GordonAtkins, Martin JohnSchlosser, FlorianHesselbach, JensSchlagwort
333 Boden- und Energiewirtschaft 600 Technik EnergiewendeKraft-Wärme-KopplungWärmepumpeTreibhausgasPrimärenergieEnergieeffizienzMetadata
Zur Langanzeige
Aufsatz
Optimal energy supply structures for industrial food processing sites in different countries considering energy transitions
Zusammenfassung
This study focuses on analysing the most energy efficient utility system supply structure in terms of carbon emissions, primary energy efficiency and energy costs. In the German food processing industry, the state-of-the-art technologies in the utility supply structure are a gas fired steam boiler for steam generation and ammonia chillers for chilled water generation. Low investment costs and its durability are attractive for industrial production sites. But, given the ongoing energy transition to renewable energy, opportunities to reduce emissions will become increasingly important. There are other energy supply options, such as Combined Heat and Power and Heat Pumps, that need to compete against the conventional energy supply systems. In the short-term, countries with presently high electricity Grid Emissions Factors (GEF) such as Germany and the USA, the use of decentralised CHP results in savings of primary energy and emissions. This option is less attractive for countries with already low GEF such as Norway. It is also less attractive in the long-term for countries like Germany as the on-going energy transition towards renewables is anticipated to decrease the current GEF by 50% in 2030. In these cases of low GEF, HP solutions provide the lowest emissions and highest primary energy efficiency.
Zitierform
In: Energy Volume 146 (2017-05-10) , S. 112-123 ; EISSN 0360-5442Zusätzliche Informationen
This is a post-peer-review version of the article "Optimal energy supply structures for industrial food processing sites in different countries considering energy transitions". The final authenticated version is available online at: https://doi.org/10.1016/j.energy.2017.05.062Zitieren
@article{doi:10.17170/kobra-202101273070,
author={Philipp, Matthias and Schumm, Gregor and Peesel, Ron-Hendrik and Walmsley, Timothy Gordon and Atkins, Martin John and Schlosser, Florian and Hesselbach, Jens},
title={Optimal energy supply structures for industrial food processing sites in different countries considering energy transitions},
journal={Energy},
year={2017}
}
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2021-03-09T16:40:19Z 2021-03-09T16:40:19Z 2017-05-10 doi:10.17170/kobra-202101273070 http://hdl.handle.net/123456789/12601 This is a post-peer-review version of the article "Optimal energy supply structures for industrial food processing sites in different countries considering energy transitions". The final authenticated version is available online at: https://doi.org/10.1016/j.energy.2017.05.062 eng Attribution-NonCommercial-NoDerivatives 4.0 International http://creativecommons.org/licenses/by-nc-nd/4.0/ energy transition combined heat and power heat pump separate conversion greenhouse gas emissions primary energy factor 333 600 Optimal energy supply structures for industrial food processing sites in different countries considering energy transitions Aufsatz This study focuses on analysing the most energy efficient utility system supply structure in terms of carbon emissions, primary energy efficiency and energy costs. In the German food processing industry, the state-of-the-art technologies in the utility supply structure are a gas fired steam boiler for steam generation and ammonia chillers for chilled water generation. Low investment costs and its durability are attractive for industrial production sites. But, given the ongoing energy transition to renewable energy, opportunities to reduce emissions will become increasingly important. There are other energy supply options, such as Combined Heat and Power and Heat Pumps, that need to compete against the conventional energy supply systems. In the short-term, countries with presently high electricity Grid Emissions Factors (GEF) such as Germany and the USA, the use of decentralised CHP results in savings of primary energy and emissions. This option is less attractive for countries with already low GEF such as Norway. It is also less attractive in the long-term for countries like Germany as the on-going energy transition towards renewables is anticipated to decrease the current GEF by 50% in 2030. In these cases of low GEF, HP solutions provide the lowest emissions and highest primary energy efficiency. open access Philipp, Matthias Schumm, Gregor Peesel, Ron-Hendrik Walmsley, Timothy Gordon Atkins, Martin John Schlosser, Florian Hesselbach, Jens doi:10.1016/j.energy.2017.05.062 Energiewende Kraft-Wärme-Kopplung Wärmepumpe Treibhausgas Primärenergie Energieeffizienz acceptedVersion EISSN 0360-5442 Energy 112-123 Volume 146 false
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