Survey of Industrial Excess Heat Potentials in Austria

Publikationen: KonferenzbeitragAbstract/Zusammenfassung(peer-reviewed)

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Survey of Industrial Excess Heat Potentials in Austria. / Hammer, Andreas; Lachner, Elisabeth; Kienberger, Thomas.
2024. Abstract von 3rd International Sustainable Energy Conference 2024, Graz, Österreich.

Publikationen: KonferenzbeitragAbstract/Zusammenfassung(peer-reviewed)

Harvard

Hammer, A, Lachner, E & Kienberger, T 2024, 'Survey of Industrial Excess Heat Potentials in Austria', 3rd International Sustainable Energy Conference 2024, Graz, Österreich, 10/04/24 - 11/04/24.

APA

Hammer, A., Lachner, E., & Kienberger, T. (2024). Survey of Industrial Excess Heat Potentials in Austria. Abstract von 3rd International Sustainable Energy Conference 2024, Graz, Österreich.

Vancouver

Hammer A, Lachner E, Kienberger T. Survey of Industrial Excess Heat Potentials in Austria. 2024. Abstract von 3rd International Sustainable Energy Conference 2024, Graz, Österreich.

Author

Hammer, Andreas ; Lachner, Elisabeth ; Kienberger, Thomas. / Survey of Industrial Excess Heat Potentials in Austria. Abstract von 3rd International Sustainable Energy Conference 2024, Graz, Österreich.

Bibtex - Download

@conference{72902cf1a94e416fa64d9be5d1a05bc8,
title = "Survey of Industrial Excess Heat Potentials in Austria",
abstract = "In the research and service study for the Energy Transition 2050 program, the tech-nical excess heat potentials for both energy-intensive and energy-extensive Austrian industry were surveyed. A bottom-up approach for most of the energy-intensive industry and a top-down approach for most of the energy-extensive industry were used by the consortium under the leadership of the Chair of Energy Network Technology EVT of Montanuniversit{\"a}t Leoben. The surveyed potentials were classified according to temperature level of excess heat, origin from the process, spatial occurrence and industry sectors. In order to estimate the future in-dustrial excess heat potentials, a database of the innovation network {"}New Energy for Industry{"} (NEFI) was used. For the geographical localization, the results were integrated into the existing Austrian Heat Map, which enables a comparison with heat demand densities and existing heat-ing networks. A technical excess heat potential of about 34 TWh could be identified. Thereof, about 300 companies of the energy-intensive industry, which were mainly calculated by the bottom-up method, account for a technical excess heat potential of about 26 TWh. For the energy-extensive industry, an excess heat potential of about 4 TWh was identified for more than 1500 companies using mostly the statistical top-down method. Due to existing know-how in the consortium, the technical excess heat potentials of more than 600 sewage treatment plants could also be estimated at approx. 4 TWh.",
keywords = "excess heat, waste heat, Industry, Excess heat, Waste Heat, Industry",
author = "Andreas Hammer and Elisabeth Lachner and Thomas Kienberger",
year = "2024",
month = apr,
day = "9",
language = "English",
note = "3rd International Sustainable Energy Conference 2024 ; Conference date: 10-04-2024 Through 11-04-2024",
url = "https://www.aee-intec-events.at/program-isec.html",

}

RIS (suitable for import to EndNote) - Download

TY - CONF

T1 - Survey of Industrial Excess Heat Potentials in Austria

AU - Hammer, Andreas

AU - Lachner, Elisabeth

AU - Kienberger, Thomas

PY - 2024/4/9

Y1 - 2024/4/9

N2 - In the research and service study for the Energy Transition 2050 program, the tech-nical excess heat potentials for both energy-intensive and energy-extensive Austrian industry were surveyed. A bottom-up approach for most of the energy-intensive industry and a top-down approach for most of the energy-extensive industry were used by the consortium under the leadership of the Chair of Energy Network Technology EVT of Montanuniversität Leoben. The surveyed potentials were classified according to temperature level of excess heat, origin from the process, spatial occurrence and industry sectors. In order to estimate the future in-dustrial excess heat potentials, a database of the innovation network "New Energy for Industry" (NEFI) was used. For the geographical localization, the results were integrated into the existing Austrian Heat Map, which enables a comparison with heat demand densities and existing heat-ing networks. A technical excess heat potential of about 34 TWh could be identified. Thereof, about 300 companies of the energy-intensive industry, which were mainly calculated by the bottom-up method, account for a technical excess heat potential of about 26 TWh. For the energy-extensive industry, an excess heat potential of about 4 TWh was identified for more than 1500 companies using mostly the statistical top-down method. Due to existing know-how in the consortium, the technical excess heat potentials of more than 600 sewage treatment plants could also be estimated at approx. 4 TWh.

AB - In the research and service study for the Energy Transition 2050 program, the tech-nical excess heat potentials for both energy-intensive and energy-extensive Austrian industry were surveyed. A bottom-up approach for most of the energy-intensive industry and a top-down approach for most of the energy-extensive industry were used by the consortium under the leadership of the Chair of Energy Network Technology EVT of Montanuniversität Leoben. The surveyed potentials were classified according to temperature level of excess heat, origin from the process, spatial occurrence and industry sectors. In order to estimate the future in-dustrial excess heat potentials, a database of the innovation network "New Energy for Industry" (NEFI) was used. For the geographical localization, the results were integrated into the existing Austrian Heat Map, which enables a comparison with heat demand densities and existing heat-ing networks. A technical excess heat potential of about 34 TWh could be identified. Thereof, about 300 companies of the energy-intensive industry, which were mainly calculated by the bottom-up method, account for a technical excess heat potential of about 26 TWh. For the energy-extensive industry, an excess heat potential of about 4 TWh was identified for more than 1500 companies using mostly the statistical top-down method. Due to existing know-how in the consortium, the technical excess heat potentials of more than 600 sewage treatment plants could also be estimated at approx. 4 TWh.

KW - excess heat

KW - waste heat

KW - Industry

KW - Excess heat

KW - Waste Heat

KW - Industry

UR - https://www.aee-intec.at/isec-2024-presentations-pu371

M3 - Abstract

T2 - 3rd International Sustainable Energy Conference 2024

Y2 - 10 April 2024 through 11 April 2024

ER -