Central solar heating explained

Central solar heating is the provision of central heating and hot water from solar energy by a system in which the water is heated centrally by arrays of solar thermal collectors (central solar heating plants - CSHPs) and distributed through district heating pipe networks (or 'block heating' systems in the case of smaller installations).

For block systems, the solar collectors are typically mounted on the building roof tops. For district heating systems the collectors may instead be installed on the ground.

Central solar heating can involve large-scale thermal storage, scaling from diurnal storage to seasonal thermal energy storage (STES). Thermal storage increase the solar fraction - the ratio between solar energy gain to the total energy demand in the system - for solar thermal systems. Ideally, the aim for applying seasonal storage is to store solar energy collected in the summer time to the winter month.

Compared to small solar heating systems (solar combisystems), central solar heating systems have better price-performance ratios due to the lower installation price, the higher thermal efficiency and less maintenance. In some countries such as Denmark large-scale solar district heating plants are financially fully competitive to other forms of heat generation.^[1]

Central solar systems can also be used for solar cooling in the form of district cooling. In this case, the overall efficiency is high due to the high correlation between the energy demand and the solar radiation.

Largest CSHPs

Name	Country	Owner	Solar collector size	Thermal Power	Annual production	Installation year	Storage volume	Storage type Facilities	Collector manufacturer
			m2	MWth	GWh		m3			-	Name	Country	Owner	Size	Thermal Power	Annual production	Installation year	Storage volume	Storage type	Collector manufacturer -->
Silkeborg	DK	Silkeborg Fjernvarme	157,000	110	80	2016	64,000	Water tank	ARCON (DK)[2] [3] [4] [5] [6]
Vojens	DK	Vojens Fjernvarme	70,000	50	35	2012-2015	203,000	Insulated water pond Water tank	ARCON (DK)[7] [8] [9]
Port Augusta, South Australia	Australia	Sundrop Farms	51,500	36.4		2016			Aalborg CSP. Desalination for vegetables. 1.5 MW electricity[10] [11]
Gramm	DK	Gram Fjernvarme	44,801	31	20.8	2009-	122,000	Insulated water pond. 10MW electric boiler 900 kW heat pump	[12] [13]
Gabriela Mistral, El Loa, Atacama Desert	Chile	CODELCO mine	43,920	27-34	52-80	2013	4,300	Water tank	ARCON (DK). Supplies an electrowinning copper process[14] [15] [16]
Dronninglund	DK		37,573	26	18	2014	60,000	Insulated water pond	ArCon (DK)[17] [18]
Zhongba, 4,700 metres altitude[19]	Tibet (China)		34,650		20	2019	15,000	Water tank	ArCon[20] [21]
Marstal	DK	Marstal Fjernvarme	33,300	24	13.4	1996–2002, 2020	2,100 3,500 70,000	Water tank Sand/water ground pit Insulated water pond with new lid	Sunmark / ARCON (DK). Feeds 0.75 MW ORC turbine[22] [23] [24] [25] [26]
Ringkøbing	DK		30,000	22.6	14	2010-2014			ArCon[27]
Brønderslev	DK		27,000	16.6			8,000	Water tank	CSP parabolic trough[28] [29] [30]
Langkazi, 4,600 metres altitude[31]	Tibet (China)		22,000			2018	15,000	Insulated water pond	ArCon[32]
Hjallerup	DK		21,432						[33]
Vildbjerg	DK		21,234	14.5	9.5	2014			ArCon[34]
Helsinge	DK	Helsinge Fjernvarme	19,588	14	9.4	2012-2014			[35]
Hadsund	DK	Hadsund Fjernvarme	20,513	14	11.5	2015			ARCON (DK)[36]
Nykøbing Sjælland	DK		20,084	14	9.5				ARCON (DK)[37]
Gråsten	DK		19,024	13	9.7	2012			ARCON (DK)[38]
Brædstrup	DK	Brædstrup Fjernvarme	18,612	14	8.9	2007/2012	5,000 19,000	Water tank Borehole storage, insulated by seashells	ARCON (DK)[39] [40]
Tarm	DK		18,585	13.1	9	2013			ARCON (DK)[41]
Jetsmark	DK		15,183	10.6	7.6	2015			Arcon/Sunmark (DK)[42]
Oksbøl	DK		14,745	9.9	7.7	2010/2013			Sunmark (DK)[43]
Jægerspris	DK		13,405	8.6	6	2010			Sunmark (DK)[44]
SydLangeland	DK		12,500	7.5	7.5	2013			Sunmark (DK)[45]
Grenaa	DK		12,096	8.4	5.8	2014			Arcon (DK)[46]
SydFalster	DK		12,094	8.5	6	2011			Arcon (DK)[47]
Hvidebæk	DK		12,038	8.6	5.7	2013			Arcon (DK)[48]
Sæby	DK	Sæby Fjernvarme	11,866	8	6.3	2011			Sunmark (DK)[49]
Toftlund	DK		11,000	7.4	5.4	2013			Sunmark (DK)[50]
Kungälv	SE	Kungälv Energi AB	10,048	7.0	4.5	2000	1,000	Water tank	ARCON (DK)
Svebølle-Viskinge			10,000	5.3	5	2011/2014			[51]
Karup	DK		8,063	5.4	3.7	2013			ARCON (DK)[52]
Strandby	DK	Strandby Varmeværk	8,000	5.6	3.6	2007			ARCON (DK)[53]
Nykvärn	SE	Telge Energi AB	7,500	5.3	3.4	1985	1,500	Water tank	Teknoterm (SE) ARCON (DK)
Crailsheim	DE		7,300			2012	37,500	Borehole	Wagner, Schüco, Aquasol, Asgard[54] [55]
Ærøskøbing	DK	Ærøskøping Fjernvarme	7,050	3.4	3	1998/2010	1,200	Water tank	ARCON/Sunmark (DK)[56]
La Parreña mine	Mexico	Peñoles	6,270	4,4			660	Water tank	ARCON (DK). Supplies an electrowinning process[57]
Falkenberg	SE	Falkenberg Energi AB	5,500	3.9	2.5	1989	1,100	Water tank	Teknoterm (SE) ARCON (DK)
Graz	AT	Energie Graz	6,000			2018		Water tank
Neckarsulm	DE	Stadtwerke Neckarsulm	5,044	3.5	2.3	1997	25,000	Soil duct heat exchanger	Sonnenkraft (DE) ARCON (DK)
Ulsted	DK	Ulsted Fjernvarme	5,000	3.5	2.2	2006	1,000	Water tank	ARCON (DK)
Friederichshafen	DE	Technische Werke Fried.	4,250	3.0	1.9	1996	12,000	Concrete tank in ground	ARCON (DK)

Source: Jan Erik Nielsen, PlanEnergi, DK.

Hereafter you find a plant in Rise (DK) with a new collector producer, Marstal VVS (DK), a plant in Ry (DK), one of the oldest in Europe, a plant in Hamburg and a number of plants below 3,000 m². It may be relevant mentioning, that the island of Ærø in Denmark has three of the major CSHP, Marstal, Ærøskøping and Rise.

History of central solar heating plants

The history of CSHP given here is mainly a Nordic-European perspective on the topic.

Sweden has played a major role in the development of large-scale solar heating. According to (Dalenbäck, J-O., 1993), the first steps were taken in the early seventies in Linköping, Sweden, followed by a mature revision in 1983 in Lyckebo, Sweden. Inspired by this work, Finland developed its first plant in Kerava, and the Netherlands built a first plant in Groningen. These plants are reported under the International Energy Agency by (Dalenbäck, J-O., 1990). Note that these plants did already combine CSHPs with large-scale thermal storage.

The first large-scale solar collector fields were made on-site in Torvalle, Sweden, 1982, 2000 m² and Malung, Sweden, 640 m². Prefabricated collector arrays were introduced in Nykvarn, Sweden, 4000 m² in 1985. There was from the beginning a strong international perspective and cooperation within this research field, through investigation with the European Communities (Dalenbäck, J-O., 1995) and the International Energy Agency (Dalenbäck, J-O., 1990). Denmark did enter this research area parallel to the Swedish activities with a plant in Vester Nebel in 1987, one plant in Saltum in 1988 and one in Ry in 1989, taking over the know-how for prefabricated solar collectors of large size by the Swedish company Teknoterm by the dominating company ARCON, Denmark. In the later 1990s Germany and Switzerland were active among others with plants in Stuttgart and Chemnitz.

Due to cheap land prices, in the Nordic countries new collector arrays are ground-mounted (concrete foundations or pile-driven steel) in suitable areas (low-yield agricultural, industry etc.). Countries with high ground prices tend to place solar collectors on building roofs, following the 'block plant' variant of CSHPs. In Northern Europe, 20% solar heat of annual heating requirement is the economic optimum in a district heating plant when using above-ground storage tanks. If pond storage is used, the solar contribution can reach 50%.^[58]

By 1999 40 CSHPs were in operation in Europe generating about 30 MW of thermal power http://wire0.ises.org/wire/doclibs/EuroSun98.nsf/c1223aa2046dd602c1256927007e9e65/1a880e3f0ced45fcc1256771003045f0!OpenDocument.

Related systems

Central solar heating is a sub-class of 'large-scale solar heating' systems - a term applied to systems with solar collector areas greater than 500 m².

Aquifers, boreholes and artificial ponds (costing €30/m³) are used as heat storage (up to 90% efficient) in some central solar heating plants, which later extract the heat (similar to ground storage) via a large heat pump to supply district heating.^{[59] [60]} Some of these are listed in the table above.

In Alberta, Canada the Drake Landing Solar Community has achieved a world record 97% annual solar fraction for heating needs, using solar-thermal panels on the garage roofs and thermal storage in a borehole cluster.^{[61] [62] [63]}

See also

• District heating
• Solar heating
• Solar cooling
• Solar combisystem
• Solar thermal energy
• District cooling
• Renewable energy

External links

• Solar District Heating in Europe: Large Scale Solar Heating Systems for Housing Developments
• European Large-Scale Solar Heating Network Thermie Project
• The European Large-Scale Solar Heating Network's former Homepage
• 17.081 m2 CSHP at Ærø, Denmark
• CSHP with an aquifer thermal energy store, Rostock, Germany
• CSHPs in Germany
• Ranking List of European Large Scale Solar Heating Plants
• Current data on Danish solar heat plants

Further reading

• Nicolas Perez-Mora et al.: Solar district heating and cooling: A review. International Journal of Energy Research 42, 4, 2018, 1419-1441 .
• Central Solar Heating Plants with Seasonal Storage: A Status Report,, Swedish Council for Building Research, June 1990 https://web.archive.org/web/20070323233002/http://www.iea-shc.org/outputs/task07_publist.htm.

Notes and References

1. Nicolas Perez-Mora et al.: Solar district heating and cooling: A review. International Journal of Energy Research 42, 4, 2018, 1419-1441 .
2. Web site: Verdens største solfangeranlæg i drift i Silkeborg . Sanne . Wittrup . . 10 January 2017.
3. Web site: Verdens største solvarmeanlæg på vej ved Silkeborg . René . Kornum . . 15 July 2016.
4. Web site: Record-breaking solar heating system ready on time. Euroheat & Power. 9 January 2017. 12 January 2017.
5. Web site: DBDH – Record-breaking solar heating system ready on time. 9 January 2017. 12 January 2017.
6. http://www.solvarmedata.dk/index.asp?secid=228 Current data on Danish solar heat plants
7. Web site: Verdens største damvarmelager indviet i Vojens . Sanne . Wittrup . . 14 June 2015 . 2015-11-01 . https://web.archive.org/web/20151019125824/http://ing.dk/artikel/verdens-stoerste-damvarmelager-indviet-i-vojens-176776 . 2015-10-19 . dead .
8. http://xqw.dk/work/FG22/okt/Projektforslag_for_udvidelse_af_Vojens_solvarme_med_bilag.pdf{{Dead link|date=November 2018 |bot=InternetArchiveBot |fix-attempted=yes }}
9. http://www.solvarmedata.dk/index.asp?secid=228 Current data on Danish solar heat plants
10. Web site: Sundrop Farms Port Augusta. 12 January 2017.
11. Web site: COUNCIL DEVELOPMENT ASSESSMENT PANEL AGENDA Meeting #123. 2014-08-12. 2015-10-14. Port Augusta City Council.
12. http://www.danskfjernvarme.dk/~/media/danskfjernvarme/gronenergi/projekter/drejebog%20om%20store%20varmepumper/inspirationskatalog.pdf Inspirationskatalog for store varmepumpeprojekter i fjernvarmesystemet
13. http://www.solvarmedata.dk/index.asp?secid=228 Current data on Danish solar heat plants
14. Web site: Copper mine - Atacama Desert, Chile. Arcon-Sunmark. 12 January 2017.
15. Web site: Chile: Consistent Electrolytic Bath Temperature Control Increases Copper Cathode Quality. Solarthermalworld.org . Baerbel Epp . 28 November 2016 . 12 January 2017 . https://web.archive.org/web/20170112222001/http://www.solarthermalworld.org/content/chile-consistent-electrolytic-bath-temperature-control-increases-copper-cathode-quality . 12 January 2017 . live .
16. Web site: Codelco Gabriela Mistral. 12 January 2017.
17. http://www.solvarmedata.dk/index.asp?secid=228 Current data on Danish solar heat plants
18. Web site: Brochure dronninglund 2015 booklet eng print. 29 April 2017. 5–8.
19. Web site: Zhongba Xian . Mapcarta . en.
20. Web site: Baerbel . Epp . Second Arcon-Sunmark SDH system up and running in Tibet . Solarthermalworld . https://web.archive.org/web/20200113023119/https://www.solarthermalworld.org/news/second-arcon-sunmark-sdh-system-and-running-tibet . 2020-01-13 . en . 25 November 2019 . live.
21. Web site: Major solar district heating project in China . Euroheat & Power . 25 June 2019.
22. http://www.solvarmedata.dk/index.asp?secid=228 Current data on Danish solar heat plants
23. Web site: Sunstore 4 - 100% Renewable District Heating. Sunstore . 29 April 2017. https://web.archive.org/web/20170226051202/http://sunstore4.eu/understand/examples-of-sunstore4/ . 26 February 2017. dead.
24. Web site: Marstal Fjernvarme - vandbehandling og solvarme. Silhorko. 29 April 2017.
25. http://www.dallenergy.com/media/KraftvarmeNyt_124_DallEnergy.pdf Første danske ORC kraftvarme maskine i Marstal
26. Web site: 10.000 m2 lågløsning til damvarmelager i Marstal, Danmark . aalborgcsp.dk . da-DK.
27. http://www.solvarmedata.dk/index.asp?secid=228 Current data on Danish solar heat plants
28. Web site: Denmark: Concentrating Solar Collectors for District Heat in Northern Europe . www.solarthermalworld.org . Baerbel . Epp . 11 August 2017. 12 November 2017.
29. http://www.solarthermalworld.org/sites/gstec/files/news/file/2017-08-04/full_paper_broenderslev_bp_eurosun_2016.pdf CSP plant combined with biomass CHP using ORC-technology
30. Web site: Aalborg CSP-Brønderslev CSP with ORC project . 17 May 2017 . solarpaces.nrel.gov.
31. Web site: Langkazi Xian . Mapcarta . en.
32. Web site: "SDH – a proven technology with a long track record of success" . Baerbel . Epp . Solarthermalworld . en . 29 January 2019.
33. http://www.solvarmedata.dk/index.asp?secid=228 Current data on Danish solar heat plants
34. http://www.solvarmedata.dk/index.asp?secid=228 Current data on Danish solar heat plants
35. http://www.solvarmedata.dk/index.asp?secid=228 Current data on Danish solar heat plants
36. http://www.solvarmedata.dk/index.asp?secid=228 Current data on Danish solar heat plants
37. http://www.solvarmedata.dk/index.asp?secid=228 Current data on Danish solar heat plants
38. http://www.solvarmedata.dk/index.asp?secid=228 Current data on Danish solar heat plants
39. http://www.solvarmedata.dk/index.asp?secid=228 Current data on Danish solar heat plants
40. Web site: Brædstrup Solpark. 14. 29 April 2017.
41. http://www.solvarmedata.dk/index.asp?secid=228 Current data on Danish solar heat plants
42. http://www.solvarmedata.dk/index.asp?secid=228 Current data on Danish solar heat plants
43. http://www.solvarmedata.dk/index.asp?secid=228 Current data on Danish solar heat plants
44. http://www.solvarmedata.dk/index.asp?secid=228 Current data on Danish solar heat plants
45. http://www.solvarmedata.dk/index.asp?secid=228 Current data on Danish solar heat plants
46. http://www.solvarmedata.dk/index.asp?secid=228 Current data on Danish solar heat plants
47. http://www.solvarmedata.dk/index.asp?secid=228 Current data on Danish solar heat plants
48. http://www.solvarmedata.dk/index.asp?secid=228 Current data on Danish solar heat plants
49. http://www.solvarmedata.dk/index.asp?secid=228 Current data on Danish solar heat plants
50. http://www.solvarmedata.dk/index.asp?secid=228 Current data on Danish solar heat plants
51. http://www.solvarmedata.dk/index.asp?secid=228 Current data on Danish solar heat plants
52. http://www.solvarmedata.dk/index.asp?secid=228 Current data on Danish solar heat plants
53. http://www.solvarmedata.dk/index.asp?secid=228 Current data on Danish solar heat plants
54. Web site: Solar District Heating in Crailsheim with Seasonal Borehole Storage - Solarthermalworld. 29 April 2017.
55. Web site: Projekt Solaranlage . 2017-04-29 . 2017-06-05 . https://web.archive.org/web/20170605054350/http://www.stw-crailsheim.de/stadtwerke-crailsheim/top-themen/projekt-solaranlage.html . dead .
56. http://www.solvarmedata.dk/index.asp?secid=228 Current data on Danish solar heat plants
57. Web site: Mexico: Second Solar Process Heat Case Study on Copper Mining . Solarthermalworld.org . Baerbel Epp . 1 December 2016 . 12 January 2017 .
58. Wittrup, Sanne. "Dansk solteknologi mod nye verdensrekorder" Ingeniøren, 23 October 2015. Accessed: 16 July 2016.
59. Web site: Epp . Baerbel . Seasonal pit heat storage: Cost benchmark of 30 EUR/m³ . Solarthermalworld . https://web.archive.org/web/20200202103359/https://www.solarthermalworld.org/news/seasonal-pit-heat-storage-cost-benchmark-30-eurm3 . 2 February 2020 . en . 17 May 2019 . live.
60. Web site: Kallesøe, A.J. & Vangkilde-Pedersen, T. . Underground Thermal Energy Storage (UTES) - 4 PTES (Pit Thermal Energy Storage), 10 MB . www.heatstore.eu . 99.
61. Wong B., Thornton J. (2013). Integrating Solar & Heat Pumps . Renewable Heat Workshop. (Powerpoint)
62. Natural Resources Canada, 2012. Canadian Solar Community Sets New World Record for Energy Efficiency and Innovation . 5 Oct. 2012.
63. http://www.dlsc.ca/ Drake Landing