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What about heat integration? Quantifying energy saving potentials for Germany

: Aydemir, Ali; Rohde, Clemens

Volltext urn:nbn:de:0011-n-5032737 (355 KByte PDF)
MD5 Fingerprint: c033fa5ab16a9953cf42c092df58f062
Erstellt am: 18.7.2018

European Council for an Energy-Efficient Economy -ECEEE-, Paris:
eceee Industrial Summer Study 2018. Proceedings : Industrial Efficiency 2018: Leading the low-carbon transition; 11-13 June 2018, Kalkscheune, Berlin, Germany
Stockholm: ECEEE, 2018
ISBN: 978-91-983878-2-7 (Print)
ISBN: 978-91-983878-3-4 (Online)
European Council for an Energy-Efficient Economy (ECEEE Industrial Summer Study) <2018, Berlin>
Konferenzbeitrag, Elektronische Publikation
Fraunhofer ISI ()
waste heat recovery; energy savings potential; industrial symbiosis

Industry accounts for approximately 30 % of the final energy demand in Germany. 75 % of this is used to provide heat. A quite substantial fraction of this heat leaves processes and factories unused. Current bottom-up estimations indicate that the available excess heat potential in Germany equals up to 13 % of industrials fuel consumption. The most common approach to utilize excess heat is to recover it for heating up other processes, also known as heat integration. However, heat integration within a company requires the presence of heat demands with lower temperatures than the temperature of the excess heat currently unused. If this is not given, inter-company heat integration offers an alternative. Nevertheless, up to now there is no quantification of energy saving potentials for heat integration at all, or inter-company heat integration in particular. Thus, we make a start by applying a top-down cascade approach for Germany. First, we estimate excess heat potentials differentiated by industry sectors and temperature intervals for Germany using a top-down approach. Therefore, we use energy balances for Germany differentiating heat demand by industry sector and temperature intervals. Second, we calculate which fraction of the excess heat is usable within the industry sector it comes from. Therefore, we balance cascade like excess heat and heat demand at lower temperature levels in the same sector, which results in the energy saving by intra-company heat integration. The previous step leads to the conclusion that some industry sectors have still excess heat after the cascade balancing and some don’t. Consequently, we calculate how much of this excess heat can still be used to heat up demands at lower temperatures in other industry sectors as a third step. Adding up energy saving potentials by intra- and inter-company heat integration, the final results indicate energy saving potentials of roughly 11 % referred to industrials final energy demand in Germany.