Solar power in Germany

Solar power in Germany
Solar power in Germany
Installed capacity	90 GW (2024) (6)
Annual generation	71 TWh (2024)
Capacity per capita	1069 W (2024)
Share of electricity	15% (2024)

German electricity by source in 2023

Brown coal: 77.5 TW⋅h (17.7%)
Hard coal: 36.05 TW⋅h (8.3%)
Natural gas: 45.79 TW⋅h (10.5%)
Wind: 139.77 TW⋅h (32.0%)
Solar: 53.48 TW⋅h (12.2%)
Biomass: 42.25 TW⋅h (9.7%)
Nuclear: 6.72 TW⋅h (1.5%)
Hydro: 19.48 TW⋅h (4.5%)
Oil: 3.15 TW⋅h (0.7%)
Other: 12.59 TW⋅h (2.9%)

Net generated electricity in 2023^[1]

Solar power accounted for an estimated 15% of electricity production in Germany in 2024, up from 1.9% in 2010 and less than 0.1% in 2000.^[2]^[3]^[4]^[5]

Germany has been among the world's top PV installer for several years, with total installed capacity amounting to 81.8 gigawatts (GW) at the end of 2023.^[6] Germany's 974 watts of solar PV per capita (2023) is the third highest in the world, behind only Australia and the Netherlands.^[7] Germany's official government plans are to continuously increase renewables' contribution to the country's overall electricity consumption; current targets are 80% renewable electricity by 2030 and full decarbonization before 2040.^[8]

Concentrated solar power (CSP), a solar power technology that does not use photovoltaics, has virtually no significance for Germany, as this technology demands much higher solar insolation. There is, however, a 1.5 MW experimental CSP-plant used for on-site engineering purposes rather than for commercial electricity generation, the Jülich Solar Tower owned by the German Aerospace Center. Germany's largest solar farms are located in Meuro, Neuhardenberg, and Templin with capacities over 100 MW.

According to the Fraunhofer Institute for Solar Energy Systems, in 2022, Germany generated 60.8 TWh from solar power, or 11% of Germany's gross electricity consumption.^[9]^: 6

The country is increasingly producing more electricity at specific times with high solar irradiation than it needs, driving down spot-market prices^[10] and exporting its surplus of electricity to its neighbouring countries, with a record exported surplus of 34 TWh in 2014.^[11] A decline in spot-prices may however raise the electricity prices for retail customers, as the spread of the guaranteed feed-in tariff and spot-price increases as well.^[3]^: 17 As the combined share of fluctuating wind and solar is approaching 17 per cent on the national electricity mix,^{[citation needed]} other issues are becoming more pressing and others more feasible. These include adapting the electrical grid, constructing new grid-storage capacity, dismantling and altering fossil and nuclear power plants and to construct a new generation of combined heat and power plants.^[3]^: 7

History

Price of solar PV systems

History of PV roof-top prices in euro per kilowatt (€/kW)^[12]

During the Reagan administration in the United States, oil prices decreased and the US removed most of its policies that supported its solar industry.^[13]^: 143 Government subsidies were higher in Germany (as well as Japan), which prompted the solar industry supply chain to begin moving from the US to those countries.^[13]^: 143

Germany was one of the first countries to deploy grid-scale PV power. In 2004, Germany was the first country, together with Japan, to reach 1 GW of cumulative installed PV capacity. Since 2004 solar power in Germany has been growing considerably due to the country's feed-in tariffs for renewable energy, which were introduced by the German Renewable Energy Sources Act, and declining PV costs.

Prices of PV systems/solar power system decreased more than 50% in the 5 years since 2006.^[14] By 2011, solar PV provided 18 TWh of Germany's electricity, or about 3% of the total.^[15] That year the federal government set a target of 66 GW of installed solar PV capacity by 2030,^[16] to be reached with an annual increase of 2.5–3.5 GW,^[17] and a goal of 80% of electricity from renewable sources by 2050.^[18]

More than 7 GW of PV capacity were installed annually during the record years of 2010, 2011 and 2012. For this period, the installed capacity of 22.5 GW represented almost 30% of the worldwide deployed photovoltaics.

Since 2013, the number of new installations declined significantly due to more restrictive governmental policies.

About 1.5 million photovoltaic systems were installed around the country in 2014, ranging from small rooftop systems, to medium commercial and large utility-scale solar parks.^[3]^: 5

It's estimated that by 2017 over 70% of the country's jobs in the solar industry have been lost in the solar sector in recent years.^[19] Proponents from the PV industry blame the lack of governmental commitment, while others point out the financial burden associated with the fast-paced roll-out of photovoltaics, rendering the transition to renewable energies unsustainable in their view.^[15]

A boom in small, residential balcony-mounted solar systems has been reported in the early 2020s.^[20]^[21]^[22]

Governmental policies

Feed-in tariff for rooftop solar^[23]

History of German feed-in tariffs in ¢/kWh for rooftop solar of less than 10 kW_p since 2001. For 2016, it amounted to 12.31 ¢/kWh.^[23]

Germany introduced its feed-in tariff in 2000 and it later became a model for solar industry policy support in other countries.^[13]^: 145

As of 2012^[update], the feed-in tariff costs about €14 billion (US$18 billion) per year for wind and solar installations. The cost is spread across all rate-payers in a surcharge of 3.6 €ct (4.6 ¢) per kWh^[24] (approximately 15% of the total domestic cost of electricity).^[25] On the other hand, as expensive peak power plants are displaced, the price at the power exchange is reduced due to the so-called merit order effect.^[26] Germany set a world record for solar power production with 25.8 GW produced at midday on 20 and 21 April 2015.^[27]

According to the solar power industry, a feed-in tariff is the most effective means of developing solar power.^[28] It is the same as a power purchase agreement, but is at a much higher rate. As the industry matures, it is reduced and becomes the same as a power purchase agreement. A feed-in tariff allows investors a guaranteed return on investment – a requirement for development. A primary difference between a tax credit and a feed-in tariff is that the cost is borne the year of installation with a tax credit, and is spread out over many years with a feed-in tariff. In both cases the incentive cost is distributed over all consumers. This means that the initial cost is very low for a feed-in tariff and very high for a tax credit. In both cases the learning curve reduces the cost of installation, but is not a large contribution to growth, as grid parity is still always reached.^[29]

Since the end of the boom period, national PV market has since declined significantly, due to the amendments in the German Renewable Energy Sources Act (EEG) that reduced feed-in tariffs and set constraints on utility-scaled installations, limiting their size to no more than 10 kW.^[30]

The previous version of the EEG only guaranteed financial assistance as long as the PV capacity had not yet reached 52 GW. This limit has now been removed. It also foresees to regulate annual PV growth within a range of 2.5 GW to 3.5 GW by adjusting the guaranteed fees accordingly. The legislative reforms stipulates a 40 to 45 per cent share from renewable energy sources by 2025 and a 55 to 60 per cent share by 2035.^[31]

As of November 2016^[update], tenants in North Rhine-Westphalia (NRW) will soon be able to benefit from the PV panels mounted on the buildings in which they live. The state government has introduced measures covering the self-consumption of power, allowing tenants to acquire the electricity generated onsite more cheaply than their regular utility contracts stipulate.^[32]^[33]^{[needs update]}

Germany subsidizes the installation of solar capacity.^[13]^: 145

Grid capacity and stability issues

In 2017, approximately 9 GW of photovoltaic plants in Germany were being retrofitted to shut down^[34] if the frequency increases to 50.2 Hz, indicating an excess of electricity on the grid. The frequency is unlikely to reach 50.2 Hz during normal operation, but can if Germany is exporting power to countries that suddenly experience a power failure. This leads to a surplus of generation in Germany, that is transferred to rotating load and generation, which causes system frequency to rise. This happened in 2003 and 2006.^[35]^[36]^[37] However, power failures could not have been caused by photovoltaics in 2006, as solar PV played a negligible role in the German energy mix at that time.^[38]

In December 2012, the president of Germany's "Bundesnetzagentur", the Federal Network Agency, stated that there is "no indication", that the switch to renewables is causing more power outages.^[39] Amory Lovins from the Rocky Mountain Institute wrote about the German Energiewende in 2013, calling the discussion about grid stability a "disinformation campaign".^[40]

Potential

Germany has about the same solar potential as Alaska, which has an average of 3.08 sun hours/day in Fairbanks.^{[citation needed]}

Bremen Sun Hours/day (Avg = 2.92 hrs/day)

Stuttgart Sun Hours/day (Avg = 3.33 hrs/day)

Source: NREL, based on an average of 30 years of weather data.^[41]

Statistics

The history of Germany's installed photovoltaic capacity, its average power output, produced electricity, and its share in the overall consumed electricity, showed a steady, exponential growth for more than two decades up to about 2012. ^{[dubious – discuss]} Solar PV capacity doubled on average every 18 months in this period; an annual growth rate of more than 50 per cent. Since about 2012 growth has slowed down significantly.

Generation

Year	Capacity (MW)	Net annual generation (GWh)	% of gross electricity consumption	Capacity Factor (%)
1990	2	1	2e-04	5.7
1991	2	1	2e-04	5.7
1992	6	4	7e-04	7.6
1993	9	3	6e-04	3.8
1994	12	7	0.001	6.7
1995	18	7	0.001	4.4
1996	28	12	0.002	4.9
1997	42	18	0.003	4.9
1998	54	35	0.006	7.4
1999	70	30	0.005	4.9
2000	114	60	0.01	6.0
2001	176	76	0.013	4.9
2002	296	162	0.028	6.2
2003	435	313	0.052	8.2
2004	1105	557	0.091	5.8
2005	2056	1282	0.21	7.1
2006	2899	2220	0.36	8.7
2007	4170	3075	0.49	8.4
2008	6120	4420	0.72	8.2
2009	10566	6583	1.13	7.1
2010	18006	11729	1.9	7.4
2011	25916	19599	3.23	8.6
2012	34077	26220	4.35	8.8
2013	36710	30020	5.13	9.6
2014	37900	34735	6.08	10.9
2015	39224	37330	6.5	11.3
2016	40679	36820	6.4	10.7
2017	42293	38001	6.6	10.6
2018	45158	43451	7.7	11.6
2019	48864	44334	8.2	11.1
2020	54403	48525	8.9	10.1
2021	60108	48373	8.7	9.1
2022	67399	59596	11.1	10.1
2023	83000	63576	12.4

Source: Federal Ministry for Economic Affairs and Energy, for capacity figures^[5]^: 7 and other figures.^[5]^: 16–41

Note: This table does not show net consumption but gross electricity consumption, which includes self-consumption of nuclear and coal-fire power plants. In 2014, net consumption stood at about 6.9% (vs. 6.1% for gross consumption).^[3]^: 5

Nationwide PV capacity in megawatts on a linear scale since 1990.
Source: Federal Ministry for Economic Affairs and Energy^[5]^: 7

Solar PV by type

Installed PV capacity in Germany by class size 2017^[43]
Size band	% of total capacity	Notes
<10 kW	14.2%	Single direct use systems, mostly residential solar pv systems
10–100 kW	38.2%	Systems used collectively within one place such as a large residential block or large commercial premise or intensive agricultural units
100–500 kW	14.1%	Typically larger commercial centres, hospitals, schools or industrial/agricultural premises or smaller ground mounted systems
>500 kW	33.5%	Mostly district power systems, ground-mounted panels providing power to perhaps a mix of industrial and commercial sites

It is interesting to note that whilst large power plants receive a lot of attention in solar power articles, installations under 0.5 MW in size actually represented nearly two-thirds of the installed capacity in Germany in 2017.

PV capacity by federal states

Germany is made up of sixteen, partly sovereign federal states or Länder. The southern states of Bavaria and Baden-Württemberg account for about half of the total, nationwide PV deployment and are also the wealthiest and most populous states after North Rhine-Westphalia. However, photovoltaic installations are widespread throughout the sixteen states and are not limited to the southern region of the country as demonstrated by a watts per capita distribution.

PV capacity in MW^[45]^[46]^[47]^[48]^[49]^[50]^[51]^[52]^[53]
State	2008	2009	2010	2011	2012	2013	2014	2015	2023 (April)	W per capita (2023-4)
Baden-Württemberg	1,245	1,772	2,907	3,753	5,838.0	6,111.8	4,984.5	5,117.0	8,809	791
Bavaria	2,359	3,955	6,365	7,961	9,700.5	10,424.7	11,099.8	11,309.2	19,563	1,484
Berlin	11	19	68	50	63.2	68.6	80.5	83.9	215	58
Brandenburg	72	219	638	1,313	2,576.1	2,711.2	2,901.0	2,981.5	5,920	2,332
Bremen	4	5	14	30	32.3	35.3	39.9	42.2	70	103
Hamburg	7	9	27	25	32.1	35.8	36.5	36.9	90	48
Hesse	350	549	868	1,174	1,520.9	1,661.8	1,768.5	1,811.2	3,201	508
Lower Saxony	352	709	1,479	2,051	3,045.1	3,257.4	3,490.6	3,580.4	5,957	742
Mecklenburg-Vorpommern	48	88	263	455	957.7	1,098.5	1,337.9	1,414.4	3,519	2,184
North Rhine-Westphalia	617	1,046	1,925	2,601	3,582.0	3,878.5	4,234.9	4,363.7	8,113	452
Rhineland-Palatinate	332	504	841	1,124	1,528.2	1,670.8	1,862.2	1,920.5	3,356	817
Saarland	67	100	158	218	318.8	365.4	407.3	415.8	738	751
Saxony	168	288	529	836	1,280.8	1,412.3	1,575.1	1,607.5	2,995	740
Saxony-Anhalt	94	181	450	817	1,377.9	1,556.1	1,828.7	1,962.6	3,891	1,793
Schleswig-Holstein	159	310	695	992	1,351.5	1,407.8	1,468.6	1,498.3	2,587	885
Thuringia	95	159	327	467	871.7	1,013.9	1,119.9	1,187.4	2,226	1,055
Cumulative total installed	5,979	9,913	17,554	23,866	34,076.7	36,710.1	38,236.0	39,332.4	71,259	856
Capacity added	—	3,934	7,641	6,312	10,210.7	2,633.4	1,525.9	1,096.4

Photovoltaic power stations

Largest photovoltaic power stations

PV Power station	Capacity in MW _p	Commissioning	Location	Notes
Witznitz	605	2024	Leipzig	^[54]
Solarpark Weesow-Willmersdorf	187	2020	52°38′51.0″N 13°41′29.8″E / 52.647500°N 13.691611°E / 52.647500; 13.691611 (Solarpark Weesow-Willmersdorf)	^[55]
Solarpark Tramm-Göhten	172	2022	53°31′36″N 11°39′39″E / 53.5267°N 11.6609°E / 53.5267; 11.6609 (Solarpark Tramm-Göhten)	^[56]
Solarpark Meuro	166	2011/2012	51°32′42″N 13°58′48″E / 51.54500°N 13.98000°E / 51.54500; 13.98000 (Solarpark Meuro)	^[57]
Solarpark Gottesgabe	150	2021	52°38′28.7″N 14°11′32.3″E / 52.641306°N 14.192306°E / 52.641306; 14.192306 (Solarpark Gottesgabe)	^[58]
Solarpark Alttrebbin	150	2021	52°41′51.0″N 14°13′51.6″E / 52.697500°N 14.231000°E / 52.697500; 14.231000 (Solarpark Alttrebbin)	^[59]
Neuhardenberg Solar Park	145	September 2012	52°36′50″N 14°14′33″E / 52.61389°N 14.24250°E / 52.61389; 14.24250 (Neuhardenberg Solar Park)	^[57]^[60]
Templin Solar Park	128.5	September 2012	53°1′44″N 13°32′1″E / 53.02889°N 13.53361°E / 53.02889; 13.53361 (Templin Solar Park)	^[57]^[61]
Solarpark Schornhof	120	2020	48°38′56.4″N 11°16′41.5″E / 48.649000°N 11.278194°E / 48.649000; 11.278194 (Solarpark Schornhof)	^[62]
Brandenburg-Briest Solarpark	91	December 2011	52°26′12.1″N 12°27′5.0″E / 52.436694°N 12.451389°E / 52.436694; 12.451389 (Brandenburg-Briest Solarpark)
Solarpark Gaarz	90	2021	53°24′53″N 12°14′49″E / 53.4148°N 12.2470°E / 53.4148; 12.2470 (Solarpark Gaarz)	^[63]
Solarpark Finow Tower	84.7	2010/2011	52°49′31″N 13°41′54″E / 52.82528°N 13.69833°E / 52.82528; 13.69833 (Solarpark Finow Tower)
Eggebek Solar Park	83.6	2011	54°37′46″N 9°20′36″E / 54.62944°N 9.34333°E / 54.62944; 9.34333 (Eggebek Solar Park)
Finsterwalde Solar Park	80.7	2009/2010	51°34′7.0″N 13°44′15.0″E / 51.568611°N 13.737500°E / 51.568611; 13.737500 (Finsterwalde Solar Park)	^[64]^[65]
Solarpark Zietlitz	76	2021	53°38′21″N 12°21′51″E / 53.6391°N 12.3643°E / 53.6391; 12.3643 (Solarpark Zietlitz)	^[66]
Lieberose Photovoltaic Park	71.8	2009	51°55′54.8″N 14°24′25.9″E / 51.931889°N 14.407194°E / 51.931889; 14.407194 (Lieberose Photovoltaic Park)	^[67]^[68]
Solarpark Alt Daber	67.8	2011	53°12′N 12°31′E / 53.200°N 12.517°E / 53.200; 12.517 (Solarpark Alt Daber)	^[57]
Solarpark Ganzlin	65	2020	53°22′54″N 12°16′08″E / 53.3818°N 12.2688°E / 53.3818; 12.2688 (Solarpark Ganzlin)	^[69]
Solarpark Lauterbach	54.7	2022	50°35′46″N 9°22′08″E / 50.59600°N 9.36900°E / 50.59600; 9.36900 (Solarpark Lauterbach)	^[70]
Strasskirchen Solar Park	54	December 2009	48°48′11″N 12°46′1″E / 48.80306°N 12.76694°E / 48.80306; 12.76694 (Strasskirchen Solar Park)	^[57]
Walddrehna Solar Park	52.3	2012	51°45′45″N 13°36′4″E / 51.76250°N 13.60111°E / 51.76250; 13.60111 (Walddrehna Solar Park)
Waldpolenz Solar Park	52	December 2008	51°19′25″N 12°39′4″E / 51.32361°N 12.65111°E / 51.32361; 12.65111 (Waldpolenz Solar Park)	^[71]^[72]
Tutow Solar Park	52	2009/2010/2011	53°55′26″N 13°13′32″E / 53.92389°N 13.22556°E / 53.92389; 13.22556 (Tutow Solar Park)

Location map

Other notable photovoltaic stations

Name & Description	Capacity in MW _p	Location	Annual yield in MWh	Capacity factor	Coordinates
Erlasee Solar Park, 1408 SOLON	12	Arnstein	14,000	0.13	50°0′10″N 9°55′15″E / 50.00278°N 9.92083°E / 50.00278; 9.92083 (Erlasee Solar Park)
Gottelborn Solar Park	8.4	Göttelborn	n.a.	n.a.	49°20′21″N 7°2′7″E / 49.33917°N 7.03528°E / 49.33917; 7.03528 (Gottelborn Solar Park)
Bavaria Solarpark, 57,600 solar modules	6.3	Mühlhausen	6,750	0.12	49°09′29″N 11°25′59″E / 49.15806°N 11.43306°E / 49.15806; 11.43306 (Bavaria Solarpark)
Rote Jahne Solar Park, 92,880 thin-film modules, First Solar, FS-260, FS-262 and FS-265^[73]^[74]	6.0	Doberschütz	5,700	0.11	51°30′28.8″N 12°40′55.9″E / 51.508000°N 12.682194°E / 51.508000; 12.682194 (Rote Jahne Solar Park)
Bürstadt Solar Farm, 30,000 BP Solar modules	5.0	Bürstadt	4,200	0.10	49°39′N 8°28′E / 49.650°N 8.467°E / 49.650; 8.467
Espenhain, 33,500 Shell Solar modules	5.0	Espenhain	5,000	0.11	51°12′N 12°31′E / 51.200°N 12.517°E / 51.200; 12.517
Geiseltalsee Solarpark, 24,864 BP solar modules	4.0	Merseburg	3,400	0.10	51°22′N 12°0′E / 51.367°N 12.000°E / 51.367; 12.000 (Geiseltalsee Solarpark)
Hemau Solar Farm, 32,740 solar modules	4.0	Hemau	3,900	0.11	49°3′N 11°47′E / 49.050°N 11.783°E / 49.050; 11.783
Solara, Sharp and Kyocera solar modules	3.3	Dingolfing	3,050	0.11	48°38′N 12°30′E / 48.633°N 12.500°E / 48.633; 12.500
Solarpark Herten, 11.319 Modules from Astronergy	3	Rheinfelden	3,000	0.11	47°32′39″N 7°43′30″E / 47.54417°N 7.72500°E / 47.54417; 7.72500
Bavaria Solarpark, Sharp solar modules	1.9	Günching	n.a.	n.a.	49°15′49″N 11°35′27″E / 49.2636°N 11.5907°E / 49.2636; 11.5907 (Bavaria Solarpark)
Bavaria Solarpark, Sharp solar modules	1.9	Minihof	n.a.	n.a.	48°28′41″N 12°55′09″E / 48.47818°N 12.91914°E / 48.47818; 12.91914 (Bavaria Solarpark)

Location map

Gallery

Krughütte Solar Park
Rooftop solar on half-timbered house
Lieberose Photovoltaic Park
Solar panels on a church
Eggebek Solar Park
Old bunker cladded with solar
Rooftop solar PV on a fire department building
PV system on a barn
Zugspitze, Germany's highest situated PV system
A small, roof-top mounted PV system in Bonn
Rooftop photovoltaic power station in Berlin
The Waldpolenz Solar Park uses thin-film CdTe-modules.
Erlasee was the world's largest solar farm in 2006/2007.
The Jülich Solar Tower, a concentrated solar power plant
The Gottelborn Solar Park in front of coal-fired power plant "Weiher III"
Viewing platform at the Gottelborn Solar Park

Companies

Some companies have collapsed since 2008, facing harsh competition from imported solar panels. Some were taken over like Bosch Solar Energy by SolarWorld. Major German solar companies include:

References

^ Burger, Bruno (3 January 2024). Öffentliche Nettostromerzeugung in Deutschland im Jahr 2023 [Public Net Electricity Generation in Germany in 2023] (PDF) (in German). Freiburg, Germany: Fraunhofer-Institut für Solare Energiesysteme ISE. Retrieved 12 January 2024.
^ "Share of electricity generated by solar power: Germany". Our World In Data. 20 June 2024. Retrieved 18 September 2024.
^ ^a ^b ^c ^d ^e "Recent facts about photovoltaics in Germany". Fraunhofer ISE. 19 May 2015. Retrieved 3 July 2015.
^ "Electricity production from solar and wind in Germany in 2014" (PDF). Germany: Fraunhofer Institute for Solar Energy Systems ISE. 21 July 2014. p. 5. Archived (PDF) from the original on 28 July 2014. Retrieved 22 July 2014.
^ ^a ^b ^c ^d Bundesministerium für Wirtschaft und Energie. "Time series for the development of renewable energy sources in Germany" (xls). Retrieved 14 May 2022.
^ Anu Bhambhani (22 January 2024). "Germany's Official 2023 Solar Installations Exceed 14 GW". Taiyang News. Retrieved 27 January 2024.
^ "Snapshot of Global PV Markets 2024" (PDF). International Energy Agency. April 2024. p. 7/25. Retrieved 18 September 2024.
^ Kerstine Appunn, Freja Eriksen, Julian Wettengel (11 September 2024). "Germany's greenhouse gas emissions and energy transition targets". Clean Energy Wire. Retrieved 18 September 2024.{{cite web}}: CS1 maint: multiple names: authors list (link)
^ Wirth, Harry; Ise, Fraunhofer (21 November 2023). "Recent Facts about Photovoltaics in Germany" (PDF). Fraunhofer Institute for Solar Energy Systems. Freiburg: 99. Retrieved 4 January 2023.
^ "Electricity Spot-Prices and Production Data in Germany 2013" (PDF). fraunhofer.de.
^ "Electricity production from solar and wind in Germany in 2014 (German version)" (PDF). Germany: Fraunhofer Institute for Solar Energy Systems ISE. 5 January 2015. pp. 2, 3, 6. Retrieved 5 January 2015.
^ Average turn-key prices for roof-top PV systems up to 100 kWp. Sources: for data since 2009 photovoltaik-guide.de, pv-preisindex, using for each year average price of month of January. Data source for previous years (2006–2008), see Bundesverband Solarwirtschaft e.V. (BSW-Solar), September 2009, page 4, quarterly figures from EUPD-Research.
^ ^a ^b ^c ^d Lan, Xiaohuan (2024). How China Works: An Introduction to China's State-led Economic Development. Translated by Topp, Gary. Palgrave Macmillan. doi:10.1007/978-981-97-0080-6. ISBN 978-981-97-0079-0.
^ "BSW-Solar – Statistische Zahlen der deutschen Solarstrombranche (Photovoltaik), Oct 2011" (PDF). solarwirtschaft.de.
^ ^a ^b "German solar power output up 60 pct in 2011". Reuters. 29 December 2011. Archived from the original on 13 April 2012. Retrieved 2 January 2012.
^ Property Wire (22 April 2010). "Germany Reducing Incentives For Solar Property Investment". NuWire Investor. Retrieved 10 September 2010.
^ Lang, Matthias (21 November 2011). "New German 7.5 GWp PV Record by End of 2011". German Energy Blog. Retrieved 9 January 2012.
^ Germany
^ "GERMANY: SOLAR POWER FACTSHEET 2016". Strom-Report.
^ Alex Stellmacher (2 January 2024). "Balcony power plants cause solar industry to boom". ASB Zeitung. Retrieved 27 January 2024.
^ Ernestas Naprys (15 November 2023). "Germany's balcony solar craze: is US next?". Cybernews.com. Retrieved 27 January 2024.
^ Gero Rueter (9 November 2023). "Mini plug-in solar panels: Are they worth it?". Deutsche Welle. Retrieved 27 January 2024.
^ ^a ^b "Annual Report 2015". IEA-PVPS. 13 May 2016. p. 63.
^ Lang, Matthias (14 October 2011). "2012 EEG Surcharge Increases Slightly to 3.592 ct/kWh". German Energy Blog. Retrieved 9 January 2012.
^ "Europe's Energy Portal » Fuel, Natural Gas and Electricity Prices From Past to Present".
^ Morris, Craig (2 February 2012). "Merit order effect of PV in Germany". Renewables International. Retrieved 17 May 2012.
^ "Transparency in Energy Markets – Germany".
^ "The U.S. Needs a Feed-in Tariff". pennenergy.com.
^ "PV Learning Curves:Past and Future Drivers of Cost Reduction" (PDF). q-cells.com.
^ "Changes for solar in Germany". renewablesinternational.net. 3 April 2014. Archived from the original on 12 May 2014. Retrieved 12 May 2014.
^ Energie, Bundesministerium für Wirtschaft und. "Erneuerbare Energien". bmwi.de.
^ "Federal state supports 'tenant electricity' models with solar PV". Clean Energy Wire (CLEW). Berlin, Germany. 1 November 2016. Retrieved 1 November 2016.
^ "Minister Remmel: "NRW macht es vor — Mieterinnen und Mieter können künftig auch von der Energiewende profitieren." — Umweltministerium fördert Mieterstrom-Modelle und Energiespeicher" [Minister Remmel: "NRW makes it possible — tenants can also benefit from the Energiewende in the future." — Environment Ministry promotes tenant electricity models and energy storage] (Press release) (in German). Düsseldorf, Germany: Umweltministerium North Rhine-Westphalia. 31 October 2016. Retrieved 1 November 2016.
^ Lang, Matthias (21 September 2011). "Study Recommends Retrofitting of PV Power Plants to Solve 50.2 Hz Problem". German Energy Blog. Retrieved 15 February 2017.
^ The "50.2 Hz" problem for photovoltaic power plants Archived 23 June 2012 at the Wayback Machine
^ "Timeline of the utility frequency: Timeline".
^ "Impact of Large-scale Distributed Generation on Network Stability During Over-Frequency Events & Development of Mitigation Measures" (PDF). ecofys.com.
^ Michael Döring (1 January 2013). "Dealing with the 50.2 Hz problem". Archived from the original on 14 July 2014. Retrieved 13 July 2014.
^ "Germany's Network Agency says power outages "unlikely"". 6 December 2012. Archived from the original on 14 July 2014. Retrieved 13 July 2014.
^ Amory Lovins (23 August 2013). "Separating Fact from Fiction in Accounts of Germany's Renewables Revolution". Archived from the original on 14 July 2014.
^ "PV Watts". NREL. Retrieved 1 July 2016.
^ "Studie: Stromgestehungskosten erneuerbare Energien - März 2018". Fraunhofer ISE. 2018. Retrieved 2 April 2018.
^ "EXISTING AND FUTURE PV PROSUMER CONCEPTS, pg. 18" (PDF).
^ "Global Market Outlook for Photovoltaics 2014–2018" (PDF). epia.org. EPIA – European Photovoltaic Industry Association. p. 24. Archived from the original (PDF) on 25 June 2014. Retrieved 12 June 2014.
^ Bundesnetzagentur – EEG-Statistikbericht 2008
^ "Bundesnetzagentur – EEG-Statistikbericht 2009" (PDF). clearingstelle-eeg.de.
^ Bundesnetzagentur – EEG-Statistikbericht 2010
^ Bundesnetzagentur – EEG-Statistikbericht 2011
^ "Bundesnetzagentur – EEG in Zahlen 2012". bundesnetzagentur.de.
^ "Bundesnetzagentur – EEG in Zahlen 2013". bundesnetzagentur.de.
^ Bundesnetzagentur – EEG in Zahlen 2014
^ "Bundesnetzagentur – Installierte EE-Leistung zum 31.12.2015 (vorläufig)" (PDF). bundesnetzagentur.de.
^ Federal Network Agency (19 May 2023). "Statistiken ausgewählter erneuerbarer Energieträger zur Stromerzeugung - April 2023" (PDF). p. 4/9. Retrieved 10 June 2023.
^ "Europe's largest PV plant goes online". FinanzNachrichten.de. 10 April 2024.
^ "Der EnBW-Solarpark in Weesow-Willmersdorf | EnBW". Der EnBW-Solarpark in Weesow-Willmersdorf (in German). Retrieved 28 June 2023.
^ macmyday (7 June 2018). "Projekte". BELECTRIC (in German). Retrieved 28 June 2023.
^ ^a ^b ^c ^d ^e PV Resources.com (2009). World's largest photovoltaic power plants
^ "Solarpark Gottesgabe | EnBW". Solarpark Gottesgabe (in German). Retrieved 28 June 2023.
^ "Solarpark Alttrebin | EnBW". Solarpark Alttrebin (in German). Retrieved 28 June 2023.
^ "Contract for services". LIMA Group GmbH.
^ CFB News: Commerz Real Acquires Germany's Largest Solar Park. "CFB-Fonds".
^ "MKG GÖBEL / 120 MWp solar park Schornhof". MKG GÖBEL. 30 January 2023. Retrieved 28 June 2023.
^ "Gaarz, Deutschland - ENERPARC AG". www.enerparc.de (in German). Retrieved 28 June 2023.
^ "Good Energies, NIBC Infrastructure Partners acquire Finsterwalde II and Finsterwalde III". pv-tech.org.
^ "Implementation of the 39 MWp – "Solar Park Finsterwalde II and Finsterwalde III"" (PDF). u-energy.de.
^ Friedrich, Mariana (17 July 2020). "Successful ground-breaking ceremony: start of construction for the Zietlitz solar park in Mecklenburg-Vorpommern". Goldbeck Solar GmbH. Retrieved 28 June 2023.
^ "Lieberose solar farm becomes Germany's biggest, World's second-biggest".
^ SPIEGEL ONLINE, Hamburg, Germany (20 August 2009). "Leaders In Alternative Energy: Germany Turns On World's Biggest Solar Power Project". Der Spiegel.{{cite web}}: CS1 maint: multiple names: authors list (link)
^ "Solarpark Ganzlin: PV-Freiflächenanlage von GP JOULE". www.gp-joule.com (in German). Retrieved 28 June 2023.
^ "Solarpark Lauterbach | Erneuerbare Energien | UmweltBank". UmweltBank | Deutschlands grünste Bank (in German). Retrieved 28 June 2023.
^ "Germany's largest Solar parks connected to the grid (19 Dec 08)" (PDF). juwi.de.
^ "Large photovoltaic plant in Muldentalkreis". sonnenseite.com.
^ Construction Complete on 6 MW Thin-Film PV Installation in Germany^[usurped] Renewable Energy Access, 5 April 2007.
^ https://www.webcitation.org/6QwLVgSYo?url=http://www.photovoltaik-im-web.de/Rote_Jahne.pdf Rote Jahne Factsheet (de)

External links

Energy Charts – interactive graphs of German electricity production and market prices (Fraunhofer ISE)
Cloudy Germany a Powerhouse in Solar Energy, Washington Post, 2007
Southern Germany develops its PV Capacities
Cloudy Germany unlikely hotspot for solar power
Germany's sunny revolution
World's Biggest Solar Plant Goes Online in Germany
Official site about solar power and renewable Energy in the Emscher-Lippe-Region (German)
Frondel, Manuel; Christoph M. Schmidt; Nolan Ritter; Colin Vance (November 2009). "Economic Impacts from the Promotion of Renewable Energy Technologies — The German Experience" (PDF). Ruhr Economic Papers. RWI Essen. Retrieved 26 November 2010.
"Performance of Photovoltaics (PV) in Germany". SMA Solar Technology AG. Retrieved 4 August 2011.

[1] Burger, Bruno (3 January 2024). Öffentliche Nettostromerzeugung in Deutschland im Jahr 2023 [Public Net Electricity Generation in Germany in 2023] (PDF) (in German). Freiburg, Germany: Fraunhofer-Institut für Solare Energiesysteme ISE. Retrieved 12 January 2024.

[2] "Share of electricity generated by solar power: Germany". Our World In Data. 20 June 2024. Retrieved 18 September 2024.

[Fraunhofer-recentfacts-3] "Recent facts about photovoltaics in Germany". Fraunhofer ISE. 19 May 2015. Retrieved 3 July 2015.

[ISE-electricityproduction-from-solar-and-wind-4] "Electricity production from solar and wind in Germany in 2014" (PDF). Germany: Fraunhofer Institute for Solar Energy Systems ISE. 21 July 2014. p. 5. Archived (PDF) from the original on 28 July 2014. Retrieved 22 July 2014.

[AGEE-stat-5] Bundesministerium für Wirtschaft und Energie. "Time series for the development of renewable energy sources in Germany" (xls). Retrieved 14 May 2022.

[6] Anu Bhambhani (22 January 2024). "Germany's Official 2023 Solar Installations Exceed 14 GW". Taiyang News. Retrieved 27 January 2024.

[7] "Snapshot of Global PV Markets 2024" (PDF). International Energy Agency. April 2024. p. 7/25. Retrieved 18 September 2024.

[8] Kerstine Appunn, Freja Eriksen, Julian Wettengel (11 September 2024). "Germany's greenhouse gas emissions and energy transition targets". Clean Energy Wire. Retrieved 18 September 2024.{{cite web}}: CS1 maint: multiple names: authors list (link)

[Wirth_20231121-9] Wirth, Harry; Ise, Fraunhofer (21 November 2023). "Recent Facts about Photovoltaics in Germany" (PDF). Fraunhofer Institute for Solar Energy Systems. Freiburg: 99. Retrieved 4 January 2023.

[10] "Electricity Spot-Prices and Production Data in Germany 2013" (PDF). fraunhofer.de.

[fraunhofer-2015-electricityproduction-11] "Electricity production from solar and wind in Germany in 2014 (German version)" (PDF). Germany: Fraunhofer Institute for Solar Energy Systems ISE. 5 January 2015. pp. 2, 3, 6. Retrieved 5 January 2015.

[12] Average turn-key prices for roof-top PV systems up to 100 kWp. Sources: for data since 2009 photovoltaik-guide.de, pv-preisindex, using for each year average price of month of January. Data source for previous years (2006–2008), see Bundesverband Solarwirtschaft e.V. (BSW-Solar), September 2009, page 4, quarterly figures from EUPD-Research.

[:622-13] Lan, Xiaohuan (2024). How China Works: An Introduction to China's State-led Economic Development. Translated by Topp, Gary. Palgrave Macmillan. doi:10.1007/978-981-97-0080-6. ISBN 978-981-97-0079-0.

[BSW-Solar-14] "BSW-Solar – Statistische Zahlen der deutschen Solarstrombranche (Photovoltaik), Oct 2011" (PDF). solarwirtschaft.de.

[reuters-2011-12-29-15] "German solar power output up 60 pct in 2011". Reuters. 29 December 2011. Archived from the original on 13 April 2012. Retrieved 2 January 2012.

[16] Property Wire (22 April 2010). "Germany Reducing Incentives For Solar Property Investment". NuWire Investor. Retrieved 10 September 2010.

[17] Lang, Matthias (21 November 2011). "New German 7.5 GWp PV Record by End of 2011". German Energy Blog. Retrieved 9 January 2012.

[18] Germany

[Factsheet2016-19] "GERMANY: SOLAR POWER FACTSHEET 2016". Strom-Report.

[20] Alex Stellmacher (2 January 2024). "Balcony power plants cause solar industry to boom". ASB Zeitung. Retrieved 27 January 2024.

[21] Ernestas Naprys (15 November 2023). "Germany's balcony solar craze: is US next?". Cybernews.com. Retrieved 27 January 2024.

[22] Gero Rueter (9 November 2023). "Mini plug-in solar panels: Are they worth it?". Deutsche Welle. Retrieved 27 January 2024.

[feedin-AnnualReport-23] "Annual Report 2015". IEA-PVPS. 13 May 2016. p. 63.

[24] Lang, Matthias (14 October 2011). "2012 EEG Surcharge Increases Slightly to 3.592 ct/kWh". German Energy Blog. Retrieved 9 January 2012.

[25] "Europe's Energy Portal » Fuel, Natural Gas and Electricity Prices From Past to Present".

[26] Morris, Craig (2 February 2012). "Merit order effect of PV in Germany". Renewables International. Retrieved 17 May 2012.

[27] "Transparency in Energy Markets – Germany".

[28] "The U.S. Needs a Feed-in Tariff". pennenergy.com.

[29] "PV Learning Curves:Past and Future Drivers of Cost Reduction" (PDF). q-cells.com.

[30] "Changes for solar in Germany". renewablesinternational.net. 3 April 2014. Archived from the original on 12 May 2014. Retrieved 12 May 2014.

[31] Energie, Bundesministerium für Wirtschaft und. "Erneuerbare Energien". bmwi.de.

[clew-tenant-electricity-2016-32] "Federal state supports 'tenant electricity' models with solar PV". Clean Energy Wire (CLEW). Berlin, Germany. 1 November 2016. Retrieved 1 November 2016.

[nrw-2016-33] "Minister Remmel: "NRW macht es vor — Mieterinnen und Mieter können künftig auch von der Energiewende profitieren." — Umweltministerium fördert Mieterstrom-Modelle und Energiespeicher" [Minister Remmel: "NRW makes it possible — tenants can also benefit from the Energiewende in the future." — Environment Ministry promotes tenant electricity models and energy storage] (Press release) (in German). Düsseldorf, Germany: Umweltministerium North Rhine-Westphalia. 31 October 2016. Retrieved 1 November 2016.

[34] Lang, Matthias (21 September 2011). "Study Recommends Retrofitting of PV Power Plants to Solve 50.2 Hz Problem". German Energy Blog. Retrieved 15 February 2017.

[35] The "50.2 Hz" problem for photovoltaic power plants Archived 23 June 2012 at the Wayback Machine

[36] "Timeline of the utility frequency: Timeline".

[37] "Impact of Large-scale Distributed Generation on Network Stability During Over-Frequency Events & Development of Mitigation Measures" (PDF). ecofys.com.

[modernpowersystems-50hz-Problem-38] Michael Döring (1 January 2013). "Dealing with the 50.2 Hz problem". Archived from the original on 14 July 2014. Retrieved 13 July 2014.

[bna-21012-grid-39] "Germany's Network Agency says power outages "unlikely"". 6 December 2012. Archived from the original on 14 July 2014. Retrieved 13 July 2014.

[Amory-2013-energytransition-40] Amory Lovins (23 August 2013). "Separating Fact from Fiction in Accounts of Germany's Renewables Revolution". Archived from the original on 14 July 2014.

[41] "PV Watts". NREL. Retrieved 1 July 2016.

[fraunhofer-2018-lcoe-42] "Studie: Stromgestehungskosten erneuerbare Energien - März 2018". Fraunhofer ISE. 2018. Retrieved 2 April 2018.

[43] "EXISTING AND FUTURE PV PROSUMER CONCEPTS, pg. 18" (PDF).

[epia-2014-p24-44] "Global Market Outlook for Photovoltaics 2014–2018" (PDF). epia.org. EPIA – European Photovoltaic Industry Association. p. 24. Archived from the original (PDF) on 25 June 2014. Retrieved 12 June 2014.

[45] Bundesnetzagentur – EEG-Statistikbericht 2008

[46] "Bundesnetzagentur – EEG-Statistikbericht 2009" (PDF). clearingstelle-eeg.de.

[47] Bundesnetzagentur – EEG-Statistikbericht 2010

[48] Bundesnetzagentur – EEG-Statistikbericht 2011

[49] "Bundesnetzagentur – EEG in Zahlen 2012". bundesnetzagentur.de.

[50] "Bundesnetzagentur – EEG in Zahlen 2013". bundesnetzagentur.de.

[51] Bundesnetzagentur – EEG in Zahlen 2014

[52] "Bundesnetzagentur – Installierte EE-Leistung zum 31.12.2015 (vorläufig)" (PDF). bundesnetzagentur.de.

[53] Federal Network Agency (19 May 2023). "Statistiken ausgewählter erneuerbarer Energieträger zur Stromerzeugung - April 2023" (PDF). p. 4/9. Retrieved 10 June 2023.

[54] "Europe's largest PV plant goes online". FinanzNachrichten.de. 10 April 2024.

[55] "Der EnBW-Solarpark in Weesow-Willmersdorf | EnBW". Der EnBW-Solarpark in Weesow-Willmersdorf (in German). Retrieved 28 June 2023.

[56] yday (7 June 2018). "Projekte". BELECTRIC (in German). Retrieved 28 June 2023.

[PV-57] PV Resources.com (2009). World's largest photovoltaic power plants

[58] "Solarpark Gottesgabe | EnBW". Solarpark Gottesgabe (in German). Retrieved 28 June 2023.

[59] "Solarpark Alttrebin | EnBW". Solarpark Alttrebin (in German). Retrieved 28 June 2023.

[60] "Contract for services". LIMA Group GmbH.

[61] CFB News: Commerz Real Acquires Germany's Largest Solar Park. "CFB-Fonds".

[62] "MKG GÖBEL / 120 MWp solar park Schornhof". MKG GÖBEL. 30 January 2023. Retrieved 28 June 2023.

[63] "Gaarz, Deutschland - ENERPARC AG". www.enerparc.de (in German). Retrieved 28 June 2023.

[64] "Good Energies, NIBC Infrastructure Partners acquire Finsterwalde II and Finsterwalde III". pv-tech.org.

[65] "Implementation of the 39 MWp – "Solar Park Finsterwalde II and Finsterwalde III"" (PDF). u-energy.de.

[66] Friedrich, Mariana (17 July 2020). "Successful ground-breaking ceremony: start of construction for the Zietlitz solar park in Mecklenburg-Vorpommern". Goldbeck Solar GmbH. Retrieved 28 June 2023.

[globalsolartechnology-67] "Lieberose solar farm becomes Germany's biggest, World's second-biggest".

[68] SPIEGEL ONLINE, Hamburg, Germany (20 August 2009). "Leaders In Alternative Energy: Germany Turns On World's Biggest Solar Power Project". Der Spiegel.{{cite web}}: CS1 maint: multiple names: authors list (link)

[69] "Solarpark Ganzlin: PV-Freiflächenanlage von GP JOULE". www.gp-joule.com (in German). Retrieved 28 June 2023.

[70] "Solarpark Lauterbach | Erneuerbare Energien | UmweltBank". UmweltBank | Deutschlands grünste Bank (in German). Retrieved 28 June 2023.

[east-71] "Germany's largest Solar parks connected to the grid (19 Dec 08)" (PDF). juwi.de.

[72] "Large photovoltaic plant in Muldentalkreis". sonnenseite.com.

[73] Construction Complete on 6 MW Thin-Film PV Installation in Germany^[usurped] Renewable Energy Access, 5 April 2007.

[74] ttps://www.webcitation.org/6QwLVgSYo?url=http://www.photovoltaik-im-web.de/Rote_Jahne.pdf Rote Jahne Factsheet (de)

[1]

[2]

[3]

[4]

[5]

[6]

[7]

[8]

[9]

[10]

[11]

[12]

[13]

[14]

[15]

[16]

[17]

[18]

[19]

[20]

[21]

[22]

[23]

[24]

[25]

[26]

[27]

[28]

[29]

[30]

[31]

[32]

[33]

[34]

[35]

[36]

[37]

[38]

[39]

[40]

[41]

[42]

[43]

[44]

[45]

[46]

[47]

[48]

[49]

[50]

[51]

[52]

[53]

[54]

[55]

[56]

[57]

[58]

[59]

[60]

[61]

[62]

[63]

[64]

[65]

[66]

[67]

[68]

[69]

[70]

[71]

[72]

[73]

[74]

v t e Solar energy in the European Union
European Renewable Energy Council
Solar power by country	Albania Austria Belgium Bulgaria Cyprus Czech Republic Denmark Finland France Germany Greece Hungary Italy Lithuania Netherlands Poland Portugal Romania Spain Switzerland Turkey Ukraine United Kingdom
Solar thermal power stations	Alvarado I (50 MW) Andasol (150 MW) Extresol (150 MW) Gemasolar (20 MW) PS10 (11 MW) PS20 (20 MW) Puerto Errado (31 MW) Puertollano (50 MW) Solnova (150 MW) Termosolar Borges (25 MW) Valle (100 MW)
Photovoltaic power stations	Alt Daber (68 MW) Brandenburg-Briest (91 MW) Crucey (60 MW) Eggebek (84 MW) Finow Tower (85 MW) Finsterwalde (81 MW) Gabardan (67 MW) Karadzhalovo (60 MW) Lieberose (71 MW) Montalto di Castro (84 MW) Neuhardenberg (145 MW) Olmedilla (60 MW) Perovo (100 MW) Rovigo (72 MW) Senftenberg/Schipkau (168 MW) Templin (128 MW) Toul-Rosières (115 MW)

v t e Energy in Germany
Nuclear issues	Anti-nuclear movement in Germany Anti-nuclear protests Anti-WAAhnsinns Festival Brokdorf Bund für Umwelt und Naturschutz Deutschland EnBW Energie Baden-Wuerttemberg AG E.ON Kernkraft GmbH Free Republic of Wendland Gorleben Kalkar List of nuclear reactors Nuclear power in Germany Nuclear power phase-out Nuclear reprocessing plant Wackersdorf RWE Power AG Vattenfall Europe Nuclear Energy GmbH Wyhl
Renewable energy	100% renewable energy Energiewende Energy transition Energy transition in Germany List of photovoltaic power stations Renewable energy commercialization Renewable energy in Germany Solar power in Germany Wind power in Germany
Public policy	Climate Action Plan 2050 Energy Saving Ordinance National Action Plan on Energy Efficiency National Renewable Energy Action Plan Renewable Energy Sources Act
People	Hermann Behmel Hildegard Breiner Rolf Disch Hans-Peter Dürr Hans-Josef Fell Erich Fromm Siegwart Horst Günther Robert Jungk Claudia Kemfert Irene Meichsner Rainer Moormann Claudia Roth Rüdiger Sagel Hermann Scheer Jens Scheer Inge Schmitz-Feuerhake Michael Sladek Ursula Sladek Klaus Traube Roland Vogt Armin Weiss
Media	The Atom Besieged Energy Autonomy: The Economic, Social & Technological Case for Renewable Energy The Energy Imperative: 100 Percent Renewable Now The Fourth Revolution: Energy The Seventh Decade: The New Shape of Nuclear Danger What Will Work World Nuclear Industry Status Report Books about nuclear issues Films about nuclear issues
Related topics	Environmental movement The Greens–European Free Alliance History of the anti-nuclear movement List of power stations in Germany Lists of nuclear disasters and radioactive incidents Nuclear-Free Future Award Nuclear power debate Nuclear weapons debate

Solar power in Germany

Hub talks

Solar power in Germany

Solar power in Germany

Solar power in Germany

Hub overview

Add your contribution

Inside this hub

Media Collections

Timelines

Articles

Notes collections

Notes

Days in Chronicle

Root Wikipedia Article

Solar power in Germany

History

Governmental policies

Grid capacity and stability issues

Potential

Statistics

Generation

Solar PV by type

PV capacity by federal states

Photovoltaic power stations

Largest photovoltaic power stations

Other notable photovoltaic stations

Gallery

Companies

See also

References

External links

Add your contribution

Related Hubs