immo!nvest – Die Plattform für Standorte und Immobilien

Tag: Solarstrom

  • Swissolar President Jürg Grossen in conversation

    Swissolar President Jürg Grossen in conversation

    In the last year, the expansion of photovoltaics has reached a new record. Will this boom last longer?
    Jürg Grossen: It still has to increase significantly, we have to expand two to three times faster than we have up to now. This is not an easy task. It needs the right funding instruments and incentives, then we can do it.

    Which instruments are you thinking of?
    Grossen: A mix of different measures. We must continue the one-time payment for new solar systems and see that there is enough money in the pot. Today, the extension is limited by the financial resources. We can prevent this by making the grid surcharge fund more flexible and allowing it to temporarily become indebted. And through a slight increase in the network surcharge – the statutory fee per kilowatt hour of electricity consumed.

    In addition, we need incentives to further increase self-consumption of self-produced solar power. Today, under certain conditions, you can join forces within your neighborhood to use solar power together. We must expand these mergers. For example, to regional energy communities, which can also use the local distribution grid for a reduced grid fee. Last but not least, there needs to be a certain level of standardization in the purchase fees for solar power producers. Today in Switzerland, depending on the distribution network operator, there is a fee of between 3 and 20 centimes per kilowatt hour. This is difficult to explain.

    All models for the Swiss energy mix 2050 now assume that photovoltaics will become the second pillar of energy supply alongside hydropower. Why has solar energy been given such weight?
    Grossen: On the one hand, the prices for solar modules have fallen sharply and their performance has steadily improved. This makes the production of solar power cheaper. On the other hand, we have learned in recent years how much photovoltaics can contribute to the power supply. As an apprentice in the late 1980s, I installed solar systems on SAC huts. My boss at the time was convinced that PV systems could never be operated profitably on the grid. He died believing that. In our business, we only started planning PV projects again in the last 15 years, and over time we have seen that a huge contribution can be made – especially in combination with e-mobility. In addition, the PV electricity is produced exactly where it is needed, in the building.

    In the future, Switzerland will primarily lack winter electricity. With which concepts can photovoltaics make a greater contribution to closing this gap?
    We achieve the main share with systems on buildings in the mountain regions and in the Mittelland. The systems already supply 30 percent of the electricity in winter, and even more can be achieved with better orientation and the use of facades and balconies. In the mountains, the yield is twice as high in winter, but the costs are much higher for systems outside of residential areas. Therefore, one should primarily use the existing infrastructure – for example dams, cable car stations or hotels.

    We will have far too much solar power in summer in the future. We have to convert it into synthetic gases or fuels.

    And turn it back into electricity in winter?
    Yes, sensibly in combined heat and power plants, where heat is also generated in winter. With a pure conversion back to electricity, the energy loss is very high. Some of it will also be used as hydrogen, which will reduce losses. For example in trucks or construction machinery.

    You said that we need to expand two or three times faster. It is already difficult to find solar technicians today. How do we recruit the necessary skilled workers?
    With Swissolar, we will start a program that will make it easier for career changers to enter this professional field. Because there will be industries that will need far fewer staff in the future, such as car garages, gas stations or the oil heating industry. It would be great if we could recruit these specialists for solar expansion. In addition, we want to establish training with a federal certificate of proficiency, so that training is possible straight from school.

    The shortage of skilled workers is a major challenge. But we can also become even better as an industry. The assembly of solar systems must become more “industrial”. For the homeowner, it should not make a significant difference whether they have a roof built with or without solar modules.

    The energy policy discussions in recent months have revolved primarily around security of supply and impending gaps. How do you assess the situation?
    I am very glad that this discussion is finally coming to light. Because it is important and justified. The panic that some are spreading is unjustified. We will not be able to solve the problems with new nuclear power plants. In addition to building up a storage reserve for the winter, we have to start with the demand side in particular. Studies say that in the worst case, there could be a power cut for around fifty hours a year. There are enough consumers who would be willing to reduce their electricity consumption for a short period of time if they were compensated for it. So it's not just about additional production, but also about intelligent power consumption. In the future, electric cars will also be able to play a major role here. Because we will not only charge batteries, we will also be able to use them flexibly as storage. This is still not given enough consideration in the whole discussion on security of supply.

    Many were very surprised at how quickly e-mobility has grown over the past two years. You are an electric car driver from the very beginning. Also surprised?
    Not at all. But pleased and relieved. I bought an electric car in 2010 and saw how many kilometers I could drive with just a few PV modules. That was awesome. And the cars have gotten a lot better since then. Today, comfort in e-cars is better than in combustion-powered cars. We owe that to Elon Musk, who showed the industry how it can be done with Tesla.

    What developments do you expect in the field of batteries?
    I have become cautious with such forecasts. When it comes to PV modules and computer chips over the last few decades, we've always heard: it can't get any better or smaller. And we were repeatedly taught better by technological developments. That's why I don't see any hard limits as a matter of principle. Energy density and weight will be much better and electric cars will be cheaper than combustion engines in a few years.

    One more thing is important to me. In the future, we will have to use the batteries more than once: ten years in the car, at least ten years in the building and only then for recycling. We don't need new batteries from the factory in the buildings or the district storage facilities, but can rely on batteries that have been discarded from the e-vehicles.

    In your scenarios, you assume a significant improvement in energy efficiency. This topic has receded somewhat into the background in recent years. Do we need another awareness-raising campaign like the one we did when Federal Councilor Adolf Ogi demonstrated how we could cook eggs while saving energy? Or does technology solve all problems?
    It's certainly not wrong to keep reminding people to use energy efficiently, but it's not primarily about making sacrifices. I still cook my breakfast egg according to the Ogi principle. That was a great idea. However, one must not forget that a great deal has happened in the field of energy efficiency. Today we need significantly less energy per capita. Consumption has become decoupled from population and economic growth. Total energy consumption has also fallen significantly in the last ten years and is now lower than it was in 1990. In addition, the energy efficiency of electronic devices has improved by 30 to 60 percent. And the end of the road has not yet been reached. The currently higher energy prices will certainly also help to make energy efficiency even more attractive.

  • Basel area relies on solar power from the roof

    Basel area relies on solar power from the roof

    The canton of Basel-Landschaft is going on the solar power offensive. The canton's own buildings will be equipped with photovoltaic systems, the canton administration informs in a message . So far, 2177 modules with an area of almost 3900 square meters have been installed on the roofs of the secondary schools in Hinterzweien in Muttenz, Gerenmatt in Arlesheim, Laufental in Laufen, Lärchen in Münchenstein and Rheinpark in Birsfelden as well as the Werkhof Kreis 3 in Sissach and the new technical college in Muttenz been. They can generate around 800,000 kilowatt hours of solar power a year. This means that the electricity requirements of the respective location can be completely covered, writes the cantonal administration.

    According to the announcement, further plants are already being planned. "The canton's largest photovoltaic system in the future" is to be tackled shortly. It is being built on the new building of the Augusta Raurica Collection Center in Augst. More than 400 modules are planned here, which could deliver around 450,000 kilowatt hours of solar power a year. The plans also include systems on the roofs of the Tannenbrunn secondary schools in Sissach and Frenke in Liestal and the Arxhof action center in Niederdorf.

    The building authority is following the instructions of the district administrator with the solar offensive, it says in the message. According to them, the canton should "on the one hand be a role model for other investors and on the other hand cover the growing demand in schools and other buildings with as much self-produced solar power as possible". The district administrator provides the funds for the investments via building loans and as part of the investment program.

  • BKW's market-oriented remuneration for solar power pays off for return deliverers

    BKW's market-oriented remuneration for solar power pays off for return deliverers

    An increasing number of BKW customers with basic supplies are operating their own electricity production plant and feeding excess energy into the BKW network. For every kilowatt hour (kWh) of energy fed into the grid, they receive a remuneration that is at least equal to the current market value of electricity. It is determined retrospectively on a quarterly basis.

    This market value has risen sharply in the past few weeks and months. This is why BKW’s return deliverers receive a correspondingly higher remuneration for the electricity fed into the grid. Between
    In the fourth quarter of 2020 and the third quarter of 2021, the remuneration increased from under 5 to over 10 cents per kilowatt hour (without guarantees of origin, which BKW also pays for if feed-in
    Customers wish). There is no guarantee that electricity prices will remain at the current level over the long term. However, current market expectations indicate that the return delivery remuneration will be higher than the low prices of recent years for the foreseeable future.

    Prompt passing on of higher prices
     The return deliveries benefit twice from this market-oriented remuneration system: BKW not only increases the remuneration when the market price rises, but also passes this development on promptly,
    by adjusting their return delivery fees quarterly. In this way, the remuneration paid reflects the market value of the electricity and, in particular, creates incentives for increased winter production. From BKW’s point of view
    In this respect, the market-based remuneration proves to be more efficient than the frequently raised demand for a fixed return delivery remuneration.

  • Swissolar wants more sun in standard electricity

    Swissolar wants more sun in standard electricity

    Around 5 percent of annual electricity consumption in Switzerland is currently covered by domestically produced solar electricity, explains Swissolar in a press release . In the standard electricity products of the energy suppliers, however, the proportion of solar electricity is only 1.85 percent on average. The Association of the Swiss Solar Energy Industry is working together with the power comparison service myNewEnergy to increase the solar proportion of standard products to this 5 percent in a first step.

    “This value should be increased annually by at least the amount of additional construction in question,” Swissolar managing director David Stickelberger is quoted in the announcement. “Around 1 percent would correspond to the necessary expansion of photovoltaic systems.”

    The majority of households do not choose a special electricity product and therefore receive the standard offer from the respective energy supplier, explains Swissolar in the press release. If the proportion of solar power in the standard product is increased to the proportion of power consumption, the comparatively expensive power is divided among a large number of consumers, argues Swissolar. This keeps the product price low and opens up new sales markets for providers of solar power who have been “sitting on their clean electricity” up to now.

    “It is important that these certificates come exclusively from Swiss solar systems, because only such certificates make an effective contribution to a safe and clean power supply in our country,” explains Stickelberger. “To replace the nuclear power plant alone, we need 20 terawatt hours of solar power.”

  • ewz equips 70 Aldi roofs with solar modules

    ewz equips 70 Aldi roofs with solar modules

    Around 70 Aldi Suisse branches can use self-produced solar power either now or in the near future. According to a media release from Aldi, “one of the largest solar energy projects in Switzerland” is on the home straight. A total of 45,000 solar modules will then have been installed on the approximately 70 Aldi Suisse branch roofs. The photovoltaic systems are installed and operated by ewz .

    The electricity generated from around 14 million kilowatt hours corresponds roughly to the annual consumption of 5,000 households. Together with the "largest connected solar system in Switzerland" on the roof of the Aldi Suisse distribution center in Perlen ZH, a total of over 22 million kilowatt hours of electricity would then be produced. This could supply around 8,400 households for a year.

    Aldi Suisse uses the majority of this for lighting or cooling its own branches and for electric charging stations. So far, they have been built at 10 percent of the locations. Any surpluses would be fed into the grid by ewz. "We are proud", says Jérôme Meyer, Aldi Country Manager, "that with solar energy projects like this we are helping to further systematically reduce the company's own CO2 footprint".

  • Schaffhausen receives new data center

    Schaffhausen receives new data center

    The Geneva data center operator Safe Host is investing in the Schaffhausen community of Beringen. He wants to build a data center on the site of the former SIG tennis club. According to a press release, the building application was submitted on April 9th. There are two projects to be approved: On the one hand, the data center itself with its ancillary buildings. On the other hand, a new substation for the electricity company of the canton of Schaffhausen ( EKS ). The latter should, among other things, enable the feed-in of larger amounts of renewable energies.

    The data center will generate solar power itself. Photovoltaic shelves will be installed on all free roof areas and on the south facade. In addition, the office complex is heated with the waste heat generated by the data center itself. The rainwater is also stored where possible and processed for cooling.

    According to the announcement, the municipality of Beringen sees the project as a "further milestone in the development of the industrial quarter". The local council is convinced that such a “high-tech building” has a “signal effect” in Beringen.

    The architectural office Schmidli Architekten + Partner from Rafz ZH is responsible for the planning. This has already been entrusted with the planning of Safe Host's data center in Rafz, which is currently still under construction.

    The Beringer data center is already the fifth owned by Safe Host. In addition to the new data center in Rafz, the company also has three centers in the greater Geneva area.

  • Axpo implements alpine solar systems with partners

    Axpo implements alpine solar systems with partners

    The large-scale solar system originally initiated by Axpo on the Muttsee dam is becoming the AlpinSolar joint project between Denner, Axpo and IWB . As everyone said in a press release of the same name, the energy suppliers Axpo and IWB will install and commission the largest alpine solar system in Switzerland in the summer. Almost 5,000 solar modules are to produce around 3.3 million kilowatt hours of electricity per year on the south-facing dam. Discounter Denner will take it off for 20 years.

    At 2500 meters above sea level, a lot of renewable energy can be generated even in the winter months. Since the system is installed on an existing dam, it is particularly environmentally friendly. This is another reason why AlpinSolar is “a system that the energy transition needs”.

    Nevertheless, “due to the lack of framework conditions, such systems are hardly economically feasible today”, regrets Axpo CEO Christoph Brand. “Nevertheless, we decided, together with strong partners, to implement this lighthouse project” and “to set an example”. "We see the project as an important contribution to the discussion for the upcoming legislative revisions."

    IWB, the energy supplier for the canton of Basel-Stadt, has a 49 percent share in the project. It goes well with the company, says IWB CEO Claus Schmidt, because "the expansion of electricity production from solar energy also in Switzerland" is part of its own strategy.

  • Siemens frees the Monte Rosa Hut from lead

    Siemens frees the Monte Rosa Hut from lead

    The 2883 meter high Monte Rosa Hut in the Valais Alps has been equipped by Siemens Switzerland with new batteries to store the self-generated solar power. The new hut, which was inaugurated in 2010 and replaced the old one from 1895, with its modern building services – also from Siemens – is a so-called high-tech hut. In the campaign that has now ended, the 48 old lead batteries with a total weight of 8.6 tons, which had reached the end of their useful life, were replaced by 14 lithium iron phosphate batteries (LFP) with a capacity of 215 kilowatt hours , according to a media release. Installation and removal took place in cooperation with Air Zermatt AG .

    The Monte Rosa Hut is largely energy self-sufficient. A photovoltaic system is built into the south side of the hut. There are also thermal solar collectors. All data on building performance such as the solar power generated or the battery power have been fed into the Siemens building navigator since 2010. Because all technical systems are digitized, they can also be controlled remotely.

    The energy self-sufficiency of the hut is to be increased with the new battery solution, according to the Siemens announcement. The generator set for bad weather will also be relieved. With the new system, the energy supply of the Monte Rosa hut should be secured at any time of day and in any weather condition.

  • Aventron and HIAG found solar company

    Aventron and HIAG found solar company

    Aventron and HIAG team up: Their new joint company, HIAG Solar AG, wants to expand the production of solar power on the roofs of HIAG properties in the long term. HIAG holds 49 percent of the joint venture, aventron 51 percent. Aventron CEO Antoine Millioud finds an “optimal connection”: “HIAG has very large roof areas in Switzerland and aventron has proven expertise in the planning, implementation and operation of high-performance solar systems.”

    As stated in a press release from HIAG, HIAG Solar AG wants to become a major solar power producer in Switzerland in the medium term and gradually expand its capacity. 65,000 square meters of space are currently available for photovoltaic modules. They should generate around 10 mega-watt peak power.

    The aim is to produce 10 million kilowatt hours of electricity annually. This corresponds to a CO2 equivalent saving of 4.2 million tons. The first four systems are already being planned. They should start operating this year and next.

  • Replacement modules from several solar technicians form a new system

    Replacement modules from several solar technicians form a new system

    In St.Gallen, several solar technicians have collected the remaining modules from photovoltaic systems that have already been implemented. Now they are jointly producing solar power on the roof of the building called Lattich at the St.Gallen freight yard. The unusual project, about which the city of St.Gallen reported in a media release , provides solar energy for ten four-person households.

    This photovoltaic system is a joint project of the St.Galler Stadtwerke (sgsw) and five solar energy companies that have the Swisssolar quality label Solarprofi: Helion , Etavis Grossenbacher AG , Grob AG Gebäudehüllen, Huber + Monsch AG and solarmotion GmbH . They all delivered the solar modules that were no longer needed. They planned and created the system together with SGSW.

    In return for their contribution to the project, the partners involved receive solar power units on the Lattich roof and thus benefit from a credit on their electricity bills. Solar power units from the St.Gallen Solar Community are still available to the public on the roof of the Lerchenfeld ice rink.

  • The first free space solar system from EKZ is on the grid

    The first free space solar system from EKZ is on the grid

    EKZ 's Algibicos solar power plant near the southern Spanish city of Murcia started operations on Tuesday, according to a media release . This means that the Zurich-based energy company's first large open-space solar power plant has gone online.

    On an area of 85 hectares, it will produce a little over 90 gigawatt hours of electricity per year. This corresponds to the annual consumption of more than 20,000 households. With over 300 days of fine weather, the area was one of the sunniest in all of Europe. In addition, the yield is increased by movable solar panels that are oriented towards the sun.

    "Compared to Swiss systems, around twice as much electrical energy can be generated," said Jean-Marc Degen, senior project manager at EKZ Renewables, in the press release. In addition, plants of this size are hardly feasible in Switzerland. The meanwhile low production costs and the sunny location enabled profitable operation, even without state feed-in tariffs.

  • Wolkenkratzer sollen Solarstrom produzieren

    Wolkenkratzer sollen Solarstrom produzieren

    Gebäude gehören zu den grössten Energieverbrauchen. In Europa sind sie für ungefähr 40 Prozent des Stromverbrauchs und für 36 Prozent des CO2-Ausstosses verantwortlich, wie Venture Kick in einer Mitteilung schreibt. Insbesondere hohe verglaste Gebäude verbrauchen viel Energie. Im Sommer müssen sie aufgrund der grossen Fenster stark gekühlt und im Winter stark beheizt werden. Das Tessiner Jungunternehmen iWin will diesem Problem entgegenwirken.

    Die Firma arbeitet an einer Lösung, mit der vor allem grosse Gebäude mit Glasfassaden selbst erneuerbare Energie produzieren können. Konkret entwickelt sie spezielle Jalousien, welche als Photovoltaikanlage fungieren. Die zugrundeliegende Technologie wurde bereits an der Fachhochschule der italienischen Schweiz (SUPSI) validiert und zum Patent angemeldet.

    Die Jalousien von iWin sind den Angaben zufolge in einer Isolierglaseinheit versiegelt. Ein Vorteil der Lösung ist, dass sie nicht nur zur Energieproduktion dient, sondern gleichzeitig auch einen Licht- und Sonnenschutz bietet. Ausserdem stört sie die optische Erscheinung des Gebäudes nicht und kann auf einer grossen Fläche installiert werden.

    Mit seiner Entwicklung konnte das Start-up nun die Jury von Venture Kick überzeugen. Es gewinnt einen Förderbeitrag in der Höhe von 150’000 Franken. Damit will es die Entwicklung eines anwendungsfähigen Produkts vollenden, sodass es mit dem Verkauf starten kann.

  • Tenant platform shows data on electricity consumption

    Tenant platform shows data on electricity consumption

    The Basel company Allthings offers a digital platform for tenants, via which they can communicate with property management and roommates, for example. Allthings is now teaming up with the Bern-based company Blockstrom , according to a press release . A solution from Blockstrom for measuring energy consumption in real time will be integrated into the Allthings platform. This means that tenants can also use the platform to track their electricity consumption.

    "The interface between the two systems enables an overview of the consumption data in real time," explains David Gundlach, Product Manager at Allthings. “The cooperation with Blockstrom not only creates added value for the tenants, but also allows us to make a contribution to the very relevant topic of sustainability,” he adds.

    The joint solution of the two companies is initially being tested as part of a pilot project on the Schöngrün residential area in the canton of Solothurn. There, AXA has converted a former penal institution into a housing estate. The new building with 160 apartments places a high value on sustainability. District heating from the waste incineration plant is used for heating. A solar system on the roof also provides 200,000 kilowatt hours of electricity per year. The apartments and shops on the site are supplied with solar power as part of an association for self-consumption (ZEV).

  • St.Gallen receives future-oriented development

    St.Gallen receives future-oriented development

    Previs Vorsorge is responsible for the new development in St.Gallen, according to a media release from the pension fund. The wooden superstructure will consist of two buildings with space for 110 rental apartments. The focus is on future viability and sustainability.

    Certified wood and recycled concrete are used as building materials. Since the components are prefabricated, the construction time can also be reduced. It will be possible to move in as early as autumn 2021. There are numerous different apartment sizes available to those interested, from studios to 5.5 rooms.

    A roof system contributes solar power, in principle the apartments are supplied with 75 percent renewable energy via district heating. There is a car sharing service available to residents, and they can also charge their electric cars in underground parking spaces. In addition, they can read their personal electricity consumption in real time via a so-called smart home system. A green space will be created between the two buildings, which will contribute to biodiversity with birdhouses and insect hotels.

    Interested parties already have the opportunity to view the apartments in advance using VR (virtual reality) glasses.

  • Meyer Burger wants to manufacture solar modules in Glarus

    Meyer Burger wants to manufacture solar modules in Glarus

    The Thun-based system manufacturer Meyer Burger wants to set up a production facility for solar panels in Linthal GL. The planned plant will have a capacity of 400 megawatts and employ over 100 people in three-shift operation, according to a statement from the Association of Swiss Electricity Companies ( VSE ).

    The project is related to the planned realignment of Meyer Burger. The company based in Gwatt BE no longer wants to build and sell machines for the production of panels in the future, but instead wants to get into panel production itself.

    The main argument in favor of locating the plant in Linthal is a solar park project on the Limmernsee in Glarus Süd, 1860 meters above sea level. A floating photovoltaic system with a capacity of 250 megawatts per year is to be installed there. The Limmern Solar Park (SPL) on the storage lake of Kraftwerke Linth-Limmern AG ( KLL , Axpo ) could generate 300 gigawatt hours of electricity and thus cover the needs of 75,000 to 100,000 four-person households.

    There are other advantages that speak in favor of Glarus. In this way, not only is the inexpensive energy supply guaranteed by the Technischen Betriebe Glarus Süd ( tbgs ), but also the building land is available. In addition, the canton of Glarus is ready to set tax incentives. The plant also benefits from the efficient approval process, the rail connection for goods transport and the interesting Swiss market.