Für den Inhalt der Angaben zeichnet die Projektleitung verantwortlich.
Dieses von der Gebert Rüf Stiftung geförderte Projekt wird von folgenden weiteren Projektpartnern mitgetragen: Hochschule Luzern, Institute of Mechanical Engineering and Energy Technology, Competence Centre Thermal Energy Storage, Cowa Thermal Solutions AG
Données de projet
Numéro du projet: GRS-100/19
Subside accordé: CHF 150'000
Durée: 04.2020 - 10.2021
InnoBooster, seit 2018
Direction du projet
Institute of Mechanical Engineering and Energy Technology, Competence Centre Thermal Energy
Technopark Luzern Platz 4
6039 Root (Schweiz)
- remo.waser@cowa-ts. com
Rooftop photovoltaic (PV) systems in combination with heat pumps are a key technology for decarbonisation of the residential sector. The main challenge of these systems is the temporal mismatch between the PV electricity supply and the heating demand of the building, resulting in a self-consumption ratio of only 30%. Cowa is developing a compact thermal storage solution that allows to store excess PV electricity produced during midday and to release this energy during periods of solar outage, thereby increasing the self-consumption ratio of the system.
Cowa's solution is based on capsules filled with Phase Change Materials (PCM). These materials offer a high energy density by utilizing a solid-liquid phase transition. The capsules are stacked into conventional heat pump water storages (buffer storages) to increase their storage capacity up to a factor of four. The extra storage capacity added by the COWA-Caps can boost the self-consumption ratio of PV driven heat pump systems from 30% to 70%.
With the InnoBooster funds, Cowa will develop a long-lasting mass-producible encapsulation with optimized packing density and heat transfer characteristic.
Quelles sont les particularités de ce projet?
The storage technology is based on from Cowa developed salt-water mixtures that offer an up to factor four higher energy density than water. The materials are non-toxic, non-flammable and recyclable. Furthermore, they do not lose capacity over time and are cost-effective. Based on these advantages, a much cheaper and more sustainable solution to increase photovoltaic self-consumption can be offered to the end-customers than electrical batteries. Finally, no change in the heat pump system configuration is required.
The lab Proof of Concept, a 100l storage filled with the developed materials, was achieved in autumn 2019 and several stable PCMs for heat pump applications were developed. A pilot plant in a single-family house is in planning with a Swiss heating system.
Jörg Worlitschek, Simon Maranda and Remo Waser founded the startup Cowa Thermal Solutions with the mission to commercialize the developed technology. Cowa has won the “Zentralschweizer Business Plan Contest” and the Venture Kick Final in January 2020. Cowa will participate at the InnoEnergy semifinals in March 2020 to expand their network of international investors. The startup is currently looking for funding/investors and plans to launch their first product in 2021.
Waser, R.; Ghani, F.; Maranda, S.; O’Donovan, T. S.; Schuetz, P.; Zaglio, M.; Worlitschek, J. Fast and Experimentally Validated Model of a Latent Thermal Energy Storage Device for System Level Simulations. Appl. Energy 2018, 231, 116–126;
Waser, R.; Berger, M.; Maranda, S.; Worlitschek, J. Residential-Scale Demonstrator for Seasonal Latent Thermal Energy Storage for Heating and Cooling Application with Optimized PV Self-Consumption. 2019, No. October.
Personnes participant au projet
Dernière mise à jour de cette présentation du projet 07.04.2020