Aalborg CSP landed a new order to deliver an 8 MWth solar-thermal plant, which when completed will provide sustainable heating for 2,583 customers in the Copenhagen area. The solar field consisting of 11,312 m2 flat solar-thermal collectors will be the fifth green project that the company delivers in the country, thereby contributing to Denmark’s ambitious targets to become fossil fuel free by 2050.
Aalborg CSP received the order from the combined heat and power plant (Smørum Kraftvarmeværk A.m.b.A.) to deliver an 8 MWth solar heating plant that will reduce the facility’s natural gas dependency as well as stabilize energy prices. The 11,312 m2 solar field, which will be located in the town of Smørum, will consist of flat solar-thermal panels capable of producing 5,568 MWh heat annually. Aalborg CSP’s scope of supply also includes delivery of necessary technical installations and 2,2 km long piping for energy transmission.
Making renewable energy affordable
The solar heating plant is the fifth green project that the company builds in its home country that is known to be a pioneer in renewable energy solutions. Most recently, the company has completed a 16.6 MWth concentrated solar power (CSP) plant in Denmark. Currently the plant produces heat only, but when the second phase of the project (a biomass-Organic Rankine Cycle system) also goes online in 2018, it will be the first one in the world to demonstrate how CSP can optimize efficiency of ORC even in areas with less sunshine.
Rapid construction and installation
Shortly after signing the agreement with the Danish CHP plant, construction commenced in Smørum with expected handover taking place by the end of this year. Altogether 56 rows of flat panels will be installed with up to 20 collectors placed in one row. These 13,3 m2 optimized panels have shown the highest performance among all known mass-produced large-scale solar collectors on the international market. The same collector type was also used in another Danish district heating plant (Solrød Fjernvarme) where they performed beyond expectations during Spring and Summer of 2017.
The system is expected to harvest the first sunrays of 2018. Besides offering a cost competitive solution for heat production, the solar plant also avoids the emission of at least 1,100 tons of CO2 annually.
Source: Aalborg CSP