Solar power in Switzerland explained

Solar power in Switzerland has demonstrated consistent capacity growth since the early 2010s, influenced by government subsidy mechanisms such as the implementation of the feed-in tariff in 2009 and the enactment of the revised Energy Act in 2018. By the end of 2023, solar photovoltaic (PV) capacity had reached 6.4 GW, a notable increase from the 0.1 GW recorded in 2010.[1] Concurrently, the share of solar power in electricity generation has also increased, climbing from 0.1% in 2010 to 5.9% in 2023.[2]

In 2024, the Swiss Solar Energy Association said solar power could be covering 50% of Switzerland's annual electricity consumption in 2050 if current market and installation trends continue.[3]

In 2022, Switzerland's federal parliament revised the Energy Act to streamline the authorization process for new solar installations, aligning with the nation's transition to sustainable energy as it phases out nuclear power.

On February 1, 2023, Switzerland held its first auction for one-off payments for large photovoltaic (PV) systems. 94 applicants received payments ranging from CHF 360 to CHF 640 per kilowatt (kW), supporting a total capacity of 35 MW.[4]

Solar production

See also: Electricity sector in Switzerland. In 2021, Switzerland's photovoltaic (PV) installations increased to 685 MWp from 475 MWp in 2020. The Federal Energy Act, revised and effective from January 1, 2018, changed the support scheme for PV systems: it extended the one-time investment subsidy to all sizes of PV systems, ranging from 2 kW to 50 MW. Additionally, in 2022, the investment subsidy formula was updated to encourage investments in larger PV capacities and more efficient use of rooftop space.[5]

The AlpinSolar project, comprising nearly 5000 solar panels on Switzerland's Lake Muttsee dam, harnesses high-altitude sunlight and snow cover to maximize energy production, particularly in winter. Completed in 2022, the installation has already commenced production at the site. Managed by Axpo, it generates about 3.3 million kilowatt hours annually, sufficient for 700 households. Switzerland's federal parliament amended the Energy Act in 2022 to expedite the approval process for new solar plants, reflecting a shift toward sustainable energy amid the country's nuclear phase-out.[6]

In a February 2023 press release, researchers from ETH Zurich and the University of Bern highlighted findings from a study on the economic viability of solar panel installations across 2,067 Swiss cities and communes. The study found that solar installations offer financial viability for slightly less than half of the single-family homes with gas heating, contingent on achieving a profitability threshold exceeding three percent over a 30-year period. The analysis took into consideration several key factors, including installation and maintenance costs, system performance, the tax rate, and the compensation rates for energy fed back into the grid.[7]

In Switzerland, the price paid for solar energy added to the grid varies widely, ranging from less than 4 cents to as high as 21.75 cents per kWh in 2022 in one canton alone.[8]

Opposition

In 2022, Switzerland derived 6% of its electricity from solar power. Studies show that installing solar panels on mountaintops in the Swiss Alps could produce at least 16 terawatt-hours (TWh) a year, approaching half of the nation's 2050 solar energy target. Typically, solar panels in Switzerland are mounted on existing infrastructure like mountain huts, ski lifts, and dams, with larger-scale installations in the Alps remaining rare.[9]

On September 10, 2023, 54% of Valais voters rejected Alpine solar project proposals due to environmental and aesthetic concerns. This decision, opposed by the Swiss People's Party and environmental groups, suggests a preference for solar development in urban areas. Valais, known as one of Switzerland's sunniest regions suitable for solar parks, witnessed a significant vote that impacts the direction of renewable energy projects within the canton.[10]

Feed-in tariffs 2009 (KEV)

See also: Feed-in tariff.

The feed-in remuneration at cost (KEV, German: Kostendeckende Einspeisevergütung) is a Swiss subsidy mechanism designed to support the production of electricity from renewable energy sources. Since January 1, 2009, producers of electricity from wind, small hydropower, biomass, photovoltaics (PV), or geothermal energy have been remunerated with a guaranteed tariff for the electricity they feed into the grid.[11] This compensation is provided as long as they are not on an extensive waiting list due to capacity constraints.

Initially, the tariff system for solar PV installations in Switzerland differentiated between rooftop, open-space, and building-integrated setups, with capacity-based rates. These rates were adjusted periodically to match solar PV pricing fluctuations. In 2014, a significant amendment introduced a one-time investment grant for small-scale rooftop installations, removing feed-in tariffs for installations below 10 kW. Owners of installations between 10 kW and 30 kW had the option to choose between the feed-in tariff and the investment grant. Subsequent modifications in 2015 standardized tariff rates for both rooftop and open-space installations.[12]

As of February 2024, the Swiss Federal Office of Energy (SFOE) announced that feed-in remuneration at cost (KEV) subsidies, introduced in 2009 to promote electricity generation from renewable energies, are no longer available for new installations.[13]

Energy Act 2017

In Switzerland, the "Energy Strategy 2050" and a revised Federal Energy Act in 2017 have led to changes in the photovoltaic (PV) sector. Since January 1, 2018, adjustments include extending the one-time investment subsidy to all PV systems (2 kW to 50 MW) and gradually replacing the feed-in tariff scheme (KEV) with a market-aligned remuneration system. Systems below 100 kW receive only the one-time subsidy, and only PV projects announced before June 30, 2012, benefit from the original feed-in tariff. A new measure enables different end consumers to connect and act as a single consumer towards the local energy supplier, fostering collective self-consumption based on physical grid infrastructure. This initiative was updated in 2019 to enhance flexibility and attractiveness for investors.[14]

PV capacity

+ Installed PV capacity (in MW)
Year
End
Total
Capacity
Yearly
Installation
align=center 1992 4.7 n.a.
align=center 1993 5.8 1
align=center 1994 6.7 1
align=center 1995 7.5 1
align=center 1996 8.4 1
align=center 1997 9.7 1
align=center 1998 12 2
align=center 1999 13 1
align=center 2000 15 2
align=center 2001 18 2
align=center 2002 20 2
align=center 2003 21 2
align=center 2004 23 2
align=center 2005 27 4
align=center 2006 30 3
align=center 2007 36 6
align=center 2008 48 12
align=center 2009 74 26
align=center 2010 110 37
align=center 2011 211 100
align=center 2012 437 226
align=center 2013 756 319
align=center 2014 1,076 320
20151,394318
20161,664270
20171,906242
20182,171265
20192,498327
20202,973475
20213,655682
20224,7381,083
Source: IEA-PVPS, Bundesamt für Energie, 2019,[15] 2020, 2021[16]

See also

Notes and References

  1. News: Statistik Sonnenenergie 2023: Nochmals über 50 Prozent Marktwachstum. de. Swiss Solar. 2024-07-12 . 2024-07-17.
  2. Web site: 2024-06-20 . Share of electricity production from solar: Switzerland . 2024-07-17 . Our World In Data.
  3. Web site: 2024-07-12 . Solar energy to meet 10% of Swiss electricity needs . 2024-07-17 . Swissinfo.ch.
  4. Web site: Auction scheme for large-scale solar PV – Policies . 2024-02-19 . IEA . en-GB.
  5. Web site: National Survey Report of PV Power Applications in Switzerland 2021 . International Energy Agency.
  6. Web site: 2023-02-07 . Switzerland's solar dam: Sun and snow the perfect mix for green energy drive . Reuters.
  7. Web site: 2023-02-02 . Patchwork of issues limits solar expansion . 2024-02-16 . ethz.ch . en.
  8. Web site: 2022-07-15 . Price paid for solar electricity too low for many Swiss home owners . 2024-02-18 . Le News . en-US.
  9. Web site: Bradley . Simon . 2022-10-17 . Mountaintop solar farms spark tensions in Switzerland . 2024-02-16 . SWI swissinfo.ch . en-GB.
  10. Web site: 2023-09-11 . Swiss voters say 'no' to solar parks in the Valais Alps . 2024-02-16 . euronews . en.
  11. Schmid . Benjamin . Meister . Thomas . Klagge . Britta . Seidl . Irmi . 2020 . Energy Cooperatives and Municipalities in Local Energy Governance Arrangements in Switzerland and Germany . The Journal of Environment & Development . en . 29 . 1 . 123–146 . 10.1177/1070496519886013 . 1070-4965 . Sage.
  12. Book: 2022 . The Design of the Swiss Feed-In Tariff . Springer Link. 10.1007/978-3-030-80787-0_5 . Haelg . Leonore . Schmidt . Tobias S. . Sewerin . Sebastian . 93–113 . 978-3-030-80786-3 .
  13. Web site: SFOE . Swiss Federal Office of Energy . Feed-in remuneration at cost . 2024-02-18 . www.bfe.admin.ch . en.
  14. Web site: National Survey Report of PV Power Applications in Switzerland 2019 . International Energy Agency.
  15. Web site: Schweizerische Statistik der erneuerbaren Energien . 2020-06-28.
  16. Web site: Schweizerische Statistik der erneuerbaren Energien 2021 Vorabzug - Datentabellen. 2022-09-06.