immo!nvest – Die Plattform für Standorte und Immobilien

Tag: Energieautarkie

  • Energy self-sufficiency for buildings and 6G

    Energy self-sufficiency for buildings and 6G

    Traditional sensor solutions are cumbersome. They contain environmentally harmful substances such as lead or rare earths, require costly maintenance and often cause hazardous waste due to batteries. The new sensors are based on lead-free aluminium nitride and use special metamaterials produced using 3D printing. These focus metamaterials bundle vibration energy, such as vibrations from rail or road traffic, exactly where it is needed on the sensor (“rainbow trapping”). This maximises the efficiency with which vibration energy is converted into electricity for the sensor

    The result is a prototype just 300 micrometres long, i.e. smaller than a five-wheeler, which obtains its energy directly from the environment, works completely without a battery and transmits data wirelessly in real time.

    From bridges to 6G stations
    The potential applications are diverse. In structural monitoring, the sensors enable continuous, maintenance-free monitoring of bridges, tunnels and high-rise buildings, especially in places that were previously difficult to reach. They provide continuous data on material fatigue, vibrations or any damage and offer the possibility of equipping critical infrastructures with early warning systems. For example, to detect earthquake movements or damage to the terrain.

    Another field is opening up with 6G technology. High-frequency, energy-autonomous microsensors will enable a very dense sensor network, which is essential for the next generation of digital communication. The new technology will become a key element for real smart cities.

    Sustainability, ethics and regulatory added value
    The elimination of lead and rare earths not only protects the environment. The innovation is also beneficial from a regulatory perspective, as no special disposal is required and global supply chains become more independent. The use of freely available materials also increases the economic feasibility and scalability of such solutions.

    Interdisciplinary partnership and funding landscape
    The technology is the result of a major collective research effort. From mathematical modelling at Imperial College, materials research in Zurich and Milan, through to industrial implementation by the project partners Multiwave and STMicroelectronics. The project was funded by the EU’s Horizon 2020 programme and the EIC Pathfinder, which specifically bridge the gap between basic research and concrete applications, bringing sustainable, microscale sensor technology to where it is most urgently needed – on buildings, in remote areas and in the network technology of the future. The combination of energy self-sufficiency, robust material selection and integrated digitalisation is exemplary for a construction and infrastructure sector that combines ecological transformation and technical innovation. The project thus provides a construction kit for an Internet of Things that works with the environment instead of against it. Pioneering and immediately applicable in practice

  • Solar park project completed five months earlier than planned

    Solar park project completed five months earlier than planned

    Nexans Switzerland has commissioned its new solar park at the Cortaillod site five months ahead of schedule. It consists of ten individual systems, each of which was installed on a different roof. These independent units were then connected together to form a higher-level system. According to a statement from the cable manufacturer, this required adaptations to the specific architectural and structural features.

    This approach made it possible to completely avoid interfering with production activities at the site during the installation work. “The result: a 100 per cent successful commissioning, almost five months earlier than planned.”

    Since the summer of 2023, a team of Groupe E Greenwatt specialists from the Boudry NE site has installed over 4,000 solar modules, each with a capacity of 430 watts, “under demanding technical conditions”. The solar park has a total output of 1.7 megawatts. Together with a 700 kilowatt system previously installed by Groupe E, Nexans now achieves a self-consumption rate estimated at over 90 per cent.

    “This strategic partnership supports our goal of continuing to reduce our environmental footprint and develop our business sustainably, and strengthens our energy resilience,” Nexans Switzerland CEO Marco Spinelli is quoted as saying. “Even without these plants, Nexans only consumes electricity that comes 100 per cent from renewable sources, and has done so since the beginning of the year.”

  • New grid platform facilitates self-consumption of solar power and battery storage

    New grid platform facilitates self-consumption of solar power and battery storage

    According to a press release,Evaarist is launching a grid platform “for the democratisation of energy self-sufficiency”. The Sion-based start-up wants to enable more owners of existing solar installations to consume more of their solar production themselves. In addition to the autarcie.ch platform for controlling solar power from the roof, Evaarist also offers easy-to-install battery packs.

    “Energy self-sufficiency is something that is close to our hearts,” says Loïc Viret. He founded Evaarist 2023 with Julien Morard and Stéphane Curchod. The engineering firm specialises in renewable energies and energy self-sufficiency and launched the autarcie.ch platform as part of the Espace Innothèque at the Foire du Valais 2024, according to the press release.

    Evaarist’s considerations were based on the observation that almost 98 per cent of the 240,000 or so existing solar installations in Switzerland are not equipped with batteries. Evaarist offers universal battery systems for solar roofs. A battery pack is installed in parallel with the electricity grid, the solar modules and the existing inverters. “This will make it possible to store and work with additional energy. And above all, the degree of self-sufficiency can be increased to 65 to 85 per cent, compared to 20 to 30 per cent without batteries,” Viret is quoted as saying.

    Furthermore, Evaarist wants to bring the material directly from the manufacturer to the customer and the installation will largely be carried out as a “do it yourself” project. Thanks to an agreement with a German importer, autarcie.ch offers battery packs from CHF 5800 for 10 kilowatt hours.

    Autarcie.ch is not an anti-blackout system. “But our systems can be equipped to work if the grid fails,” Viret is quoted as saying.

  • Winning project for high-rise building near Regensbergbrücke in Zurich

    Winning project for high-rise building near Regensbergbrücke in Zurich

    At the Regensberg Bridge in Zurich Oerlikon, SBB is planning an office building around 40 metres high with public uses on the ground floor. The winning project, developed by “Team Esch Sintzel”, makes skilful use of the challenging site shape and topography. It also achieves a high degree of energy self-sufficiency, which makes it particularly forward-looking.

    Focus on efficient use and sustainability
    The planned high-rise building will be 80 per cent energy self-sufficient. Thanks to advanced building technology, passive cooling and solar cells on the roof and façade, the building will be able to cover most of its own energy requirements. This fits in perfectly with SBB’s ambitious climate targets.

    Eight office floors and public uses on the ground floor
    The new building is being realised as a nine-storey commercial building, with flexible floor plans that are ideal for services, health and education. The ground floor will be enlivened by catering and retail spaces, while the outdoor space concept with a near-natural track level and barrier-free urban level will ensure a high quality of stay.

    Public exhibition of the competition entries
    The competition entries will be exhibited from 12 to 15 July 2024 on the 8th floor of the Franklinturm at Hofwiesenstrasse 349 in Zurich-Oerlikon. Interested parties can visit the exhibition from Friday to Sunday from 2 pm to 6 pm and on Monday from 11 am to 3 pm.

    Framework plan for Zurich Oerlikon railway station south-west development site
    The basis for the project is the “Zurich Oerlikon railway station south-west development site” framework plan drawn up in 2012 together with the City of Zurich. This defined an eight-storey building to the west of the Franklin Tower in terms of urban planning. The building permit requirements have been met and construction is scheduled to begin in 2027.

  • A total of 5 million roofs are suitable for generating electricity

    A total of 5 million roofs are suitable for generating electricity

    More than half of Switzerland’s total roof area – 5 million roofs in total – is suitable for the installation of solar/photovoltaic systems. According to a press release from the Swiss Federal Institute of Technology in Lausanne(EPFL), this is the result of a doctoral thesis on the expansion of solar installations in Switzerland. As a result, more than two thirds of Swiss cities and municipalities could become energy self-sufficient.

    As part of her doctoral thesis, Alina Walch analysed the potential of renewable energy systems. In collaboration with Martin Rüdisüli, an expert in energy system modelling at the Swiss Federal Laboratoriesfor Materials Science and Technology(Empa) in Dübendorf ZH, she developed and compared two scenarios for the expansion of photovoltaics in Switzerland in order to achieve or even exceed the targets of Energy Strategy 2050.

    “We carried out the research together, with me contributing my knowledge of photovoltaic modelling and Martin Rüdisüli contributing his experience in evaluating various scenarios for the expansion of this form of energy as part of the energy transition,” Walch is quoted as saying.

    The two strategies analysed were the preference for large flat roofs, for example on industrial buildings, and a balanced generation of electricity by installing solar cells on the roofs of all residential buildings. Walch’s conclusion: “The best option is a compromise between the two strategies – one that utilises the potential of both industrial and residential roofs.”

    As part of its Energy Strategy 2050, the federal government is aiming for a rapid expansion of solar/photovoltaic systems. the aim is to generate 35 terawatt hours (TWh) of electricity from renewable energies (excluding hydropower) by 2035 and 45 TWh by 2050.

  • BKW makes the start house on the Matterhorn energy self-sufficient

    BKW makes the start house on the Matterhorn energy self-sufficient

    This year’s Ski World Cup season starts on the weekends of 11/12 and 18/19 November with cross-border races in Zermatt and Cervinia. According to a press release, BKW has erected a mobile start house on the Theodul Glacier above Zermatt that does not require an external power supply.

    The starting house measures 15 by 8 metres and is inflatable. It weighs 600 kilograms and is designed to withstand wind speeds of up to 200 kilometres per hour. Power is supplied by 40 integrated solar cells with a total output of 11 kilowatts peak.

    The system was installed by companies from the Bern-based energy service provider’s network. These included BKW Engingeering for the project management, ingenhoven architects based in Düsseldorf for the building planning and enerpeak based in Dübendorf for the electrics and photovoltaics.

    BKW is an official premium and sustainability partner of the event organiser Swiss-Ski. “We are using the partnership with Swiss-Ski to bring sustainable solutions to snow sports,” said Michael Morgenthaler, Head of Brand Experience, Partnerships & Campaigns at BKW, in the press release. “At the same time, we can show the public our broad expertise in the areas of energy, buildings and infrastructure.”