Kyoto Group announce that the Heatcube at Norbis Park (Nordjylland Power Station) in Aalborg, Denmark, has passed the Power Market Test required to provide flexibility services to the electricity market in the DK1 grid area. By proving a fast and reliable charging response, Kyoto's Heatcube at Norbis Park successfully passed the Power Market Test required to qualify for participation in the balancing market in DK1. This will enable Nordjylland Power Station to utilize the aFRR and mFRR market to minimize the price of electricity, which subsequently ensures the lowest cost of heat possible from Heatcube, for their customers.

Energinet, the independent public enterprise owned by the Danish Ministry of Climate, Energy & Utilities responsible for owning, operating, and developing the electricity transmission system in Denmark has now approved the results of the test conducted by the Kyoto team in collaboration with key employees from Norbis Park and accepted Heatcube as a provider of flexibility services for the DK1 grid. The power market test confirmed Heatcube's operational performance, successfully achieving a smooth and dependable ramp-up of the heater from 0 MW to 5 MW in 90 seconds, well within the requirements for the balancing market participation in question. Heatcube consistently operated well and above its designated design parameters, demonstrating its stability and reliability.

Please refer to the graph below for a visual representation of the test results, ramping up to, holding and down from 5 000 kWe (5 MW) for approximately 10 minutes during the 15 min test. The test was executed by giving a start signal for activation, whereafter the battery management system automatically aligned the valves for charging. The pump was then activated, and when steady flow was achieved, the heater swiftly ramped up to 5MW load within seconds.

The complete activation sequence happened within 90 seconds. The heater stayed at a stable level of 5MW for approximately 10 minutes, whereafter the load of the heater was ramped down to 0 MW, the pump was turned off and the valves automatically closed. The deactivation also happened within 90 seconds, and the system was seamlessly brought to standby mode.

Throughout the test, the outlet temperature of the molten salt from the electrical heater smoothly increased from 220°C to a maximum of 415°C. By proving this first-of-its-kind capability towards the electricity market, Kyoto presents a truly unparalleled and validated technology. This innovation can simultaneously decarbonize industrial process heat, tap into the most cost-effective or even cost-free electricity sources, and sometimes even generate revenue by providing reliable, on-demand heat for industrial decarbonization. The Heatcube installed at Nordjylland Power Station has a storage capacity of 18 MWh and a discharge capacity of 4 MW.

It serves as a heat storage system, absorbing power from the electrical grid, storing thermal energy in molten salt and delivering heat to the district heating system, making solar and wind a viable alternative to fossil fuels for district heating.