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SCCER FEEB&D Work Package 2 (WP2) «Renewable Energy Systems from Building to District» SCCER FEEB&D Work Package 2 (WP2) «Renewable Energy Systems from Building to District»

SCCER FEEB&D Work Package 2 (WP2) «Renewable Energy Systems from Building to District»

Within the WP2, the goals of HSLU is to advance the understanding of low-temperature networks, the understanding of their technical design aspects and enhance the development of Multi Energy Grid (MEG)-technologies.

Overview

Detailed technical simulations of energy hubs will give insights into the dynamics of specific systems and provide feedback to the more aggregated optimisations. The developed infrastructure will support planners and engineers in their detailed planning, dimensioning and technical optimisation. A further goal is to provide guidelines for practitioners on renewable energy potentials and energy demands determination, and on the design, planning and operation of thermal networks (with BFE «Heat Networks»).

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Facts

Type of project

Forschung

Internal organisations involved

Center for Integrated Building Technology

External project partner

External project funder

Komission für Technologie und Innovation, KTI

Funding

KTI-HSLU als Nicht-Hauptgesuchsteller/in

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Persons involved: internal

Project manager

Stefan Mennel

Project Co-Head

Nadège Vetterli

Member of project team

Curdin Derungs
Frank Gubser
Diego Hangartner
Stefan Ineichen
Stefan Kötzsch
Philipp Kräuchi
Urs-Peter Menti
Mathias Niffeler
Ernst Peter Sandmeier
Thomas Schluck
Axel Seerig
Tobias Sommer
Artem Sotnikov
Olivier Steiger
Christoph Stettler
Matthias Sulzer
Andrii Zakovorotnyi

Publications

Article, review; peer reviewed (3)
- Sommer, Tobias; Sulzer, Matthias; Wetter, Michael; Sotnikov, Artem; Mennel, Stefan & Stettler, Christoph (2020). The reservoir network: A new network topology for district heating and cooling. Energy, 2020, 117418. doi: 10.1016/j.energy.2020.117418
- Sommer, Tobias; Mennel, Stefan & Sulzer, Matthias (2019). Lowering the pressure in district heating and cooling networks by alternating the connection of the expansion vessel. Energy, 2019, 991-996. doi: 10.1016/j.energy.2019.02.010
- Stettler, Christoph; Schluck, Thomas; Sulzer, Matthias; Mennel, Stefan & Sommer, Tobias (2019). Electricity Consumption of Heat Pumps in Thermal Networks depends on Network Topology. Building Simulation Rome 2019, 2018, 1.
Article, review; not peer reviewed (1)
- Sommer, Tobias (10.2.2019). Hydraulik in Niedertemperaturnetzen. Haustech, 14.
Theses (Bachelor/Master/Dissertation/Habilitation) (1)
- Derungs, Curdin (2019). Vergleich von Modellen zur Vorhersage des Elektrizitätsverbrauchs von Haushalten (nicht veröffentlichte Master-/Lizentiats-/Diplomarbeit). ETH Zürich, Schweiz.
Presentation (conference/report/lectures) (6)
- Sulzer, Matthias; Sotnikov, Artem & Sommer, Tobias (19.09.2019). Reservoir-Niedertemperatur Netztopologie für die Vermaschung von thermischen Netzen. brenet, Zürich.
- Sommer, Tobias (10.09.2019). The reservoir low temperature network: A new topology for simultaneous heating and cooling. Smart Energy Systems Conference Copenhagen, Copenhagen.
- Sommer, Tobias; Mennel, Stefan; Sandmeier, Ernst Peter; Sotnikov, Artem; Stettler, Christoph & Sulzer, Matthias (04.09.2019). Optimization of low-temperature networks by new hydraulic concepts. Cisbat Konferenz 2019, Lausanne, Lausanne.
- Sommer, Tobias; Mennel, Stefan & Sulzer, Matthias (21.03.2019). Klick klack – Druckreduktion leicht gemacht. Planerseminar, Hochschule Luzern.
- Sommer, Tobias; Mennel, Stefan & Sulzer, Matthias (13.11.2018). Lowering the pressure in district heating and cooling networks by alternating the connection of the expansion vessel. 4th International Conference on Smart Energy Systems and 4th Generation District Heating, Aalborg.
- Sommer, Tobias; Mennel, Stefan & Sulzer, Matthias (03.10.2018). Pressure reduction in hydraulic systems. International Sustainable Energy Conference - ISEC 2018, Graz.

Achievements

Patent (1)
- Sommer, Tobias; Mennel, Stefan; Provini, Markus & Sulzer, Matthias (20.03.2018). Selbsttätiges Dreiwegventil zum Anschluss eines Ausdehnungsgefässes in einem Fernwärmenetz und ein Fernwärmenetz mit einem solchen Ventil No. CH 714273 A1. Schweiz, Liechtenstein: Eidgenössisches Institut für geistiges Eigentum.

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SCCER FEEB&D Work Package 2 (WP2) «Renewable Energy Systems from Building to District»

Brief information

Overview

Facts

Persons involved: internal

Publications

Article, review; peer reviewed (3)

Article, review; not peer reviewed (1)

Theses (Bachelor/Master/Dissertation/Habilitation) (1)

Presentation (conference/report/lectures) (6)

Achievements

Patent (1)