ENERGY-BASED INDUSTRIAL SYMBIOSIS IN CLIMATE NEUTRAL INDUSTRIAL ENERGY SYSTEMS: THE INFLUENCE OF TECHNOLOGICAL INNOVATION

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ENERGY-BASED INDUSTRIAL SYMBIOSIS IN CLIMATE NEUTRAL INDUSTRIAL ENERGY SYSTEMS: THE INFLUENCE OF TECHNOLOGICAL INNOVATION. / Pfleger-Schopf, Kerstin; Sleziakova, Petra; Kienberger, Thomas.
NEFI CONFERENCE 2024: Innovating Together: Paving the Path to Climate Neutrality. Wien, 2024. S. 46.

Publikationen: Beitrag in Buch/Bericht/KonferenzbandBeitrag in Konferenzband

Harvard

Pfleger-Schopf, K, Sleziakova, P & Kienberger, T 2024, ENERGY-BASED INDUSTRIAL SYMBIOSIS IN CLIMATE NEUTRAL INDUSTRIAL ENERGY SYSTEMS: THE INFLUENCE OF TECHNOLOGICAL INNOVATION. in NEFI CONFERENCE 2024: Innovating Together: Paving the Path to Climate Neutrality. Wien, S. 46. https://doi.org/10.5281/zenodo.13985900

APA

Pfleger-Schopf, K., Sleziakova, P., & Kienberger, T. (2024). ENERGY-BASED INDUSTRIAL SYMBIOSIS IN CLIMATE NEUTRAL INDUSTRIAL ENERGY SYSTEMS: THE INFLUENCE OF TECHNOLOGICAL INNOVATION. In NEFI CONFERENCE 2024: Innovating Together: Paving the Path to Climate Neutrality (S. 46). https://doi.org/10.5281/zenodo.13985900

Vancouver

Pfleger-Schopf K, Sleziakova P, Kienberger T. ENERGY-BASED INDUSTRIAL SYMBIOSIS IN CLIMATE NEUTRAL INDUSTRIAL ENERGY SYSTEMS: THE INFLUENCE OF TECHNOLOGICAL INNOVATION. in NEFI CONFERENCE 2024: Innovating Together: Paving the Path to Climate Neutrality. Wien. 2024. S. 46 doi: 10.5281/zenodo.13985900

Author

Pfleger-Schopf, Kerstin ; Sleziakova, Petra ; Kienberger, Thomas. / ENERGY-BASED INDUSTRIAL SYMBIOSIS IN CLIMATE NEUTRAL INDUSTRIAL ENERGY SYSTEMS: THE INFLUENCE OF TECHNOLOGICAL INNOVATION. NEFI CONFERENCE 2024: Innovating Together: Paving the Path to Climate Neutrality. Wien, 2024. S. 46

Bibtex - Download

@inproceedings{fe969874d0254cfebe84f000eab03480,
title = "ENERGY-BASED INDUSTRIAL SYMBIOSIS IN CLIMATE NEUTRAL INDUSTRIAL ENERGY SYSTEMS: THE INFLUENCE OF TECHNOLOGICAL INNOVATION",
abstract = "The Austrian industrial sector is a significant contributor to the national greenhouse gas emissions and energy consumption, making its transformation towards climate neutrality by 2040 essential. A promising strategy to reduce environmental impact and energy use is energy-based industrial symbiosis. This work explores how energy-based industrial symbiosis potentials will evolve in climate-neutral industrial energy systems, considering the introduction of new technologies for example to integrate renewables or facilitate electrification. A sector-specific technology map to design a generic industrial symbiosis network, a comprehensive framework for synthetic industrial load-, generation-, and waste heat profile generation, as well as system modelling and optimization methods provide the methodological background of the work. Expected results include quantifiable reductions in CO2 emissions and exergy demand by industrial symbiosis.",
keywords = "Industrielle Symbiose",
author = "Kerstin Pfleger-Schopf and Petra Sleziakova and Thomas Kienberger",
year = "2024",
month = oct,
day = "24",
doi = "10.5281/zenodo.13985900",
language = "Deutsch",
pages = "46",
booktitle = "NEFI CONFERENCE 2024",

}

RIS (suitable for import to EndNote) - Download

TY - GEN

T1 - ENERGY-BASED INDUSTRIAL SYMBIOSIS IN CLIMATE NEUTRAL INDUSTRIAL ENERGY SYSTEMS: THE INFLUENCE OF TECHNOLOGICAL INNOVATION

AU - Pfleger-Schopf, Kerstin

AU - Sleziakova, Petra

AU - Kienberger, Thomas

PY - 2024/10/24

Y1 - 2024/10/24

N2 - The Austrian industrial sector is a significant contributor to the national greenhouse gas emissions and energy consumption, making its transformation towards climate neutrality by 2040 essential. A promising strategy to reduce environmental impact and energy use is energy-based industrial symbiosis. This work explores how energy-based industrial symbiosis potentials will evolve in climate-neutral industrial energy systems, considering the introduction of new technologies for example to integrate renewables or facilitate electrification. A sector-specific technology map to design a generic industrial symbiosis network, a comprehensive framework for synthetic industrial load-, generation-, and waste heat profile generation, as well as system modelling and optimization methods provide the methodological background of the work. Expected results include quantifiable reductions in CO2 emissions and exergy demand by industrial symbiosis.

AB - The Austrian industrial sector is a significant contributor to the national greenhouse gas emissions and energy consumption, making its transformation towards climate neutrality by 2040 essential. A promising strategy to reduce environmental impact and energy use is energy-based industrial symbiosis. This work explores how energy-based industrial symbiosis potentials will evolve in climate-neutral industrial energy systems, considering the introduction of new technologies for example to integrate renewables or facilitate electrification. A sector-specific technology map to design a generic industrial symbiosis network, a comprehensive framework for synthetic industrial load-, generation-, and waste heat profile generation, as well as system modelling and optimization methods provide the methodological background of the work. Expected results include quantifiable reductions in CO2 emissions and exergy demand by industrial symbiosis.

KW - Industrielle Symbiose

U2 - 10.5281/zenodo.13985900

DO - 10.5281/zenodo.13985900

M3 - Beitrag in Konferenzband

SP - 46

BT - NEFI CONFERENCE 2024

CY - Wien

ER -

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