Sep 14 2016
“When an over 50-year-old heat and power plant is replaced, environment, flexibility and efficiency are extremely important in order to build something truly sustainable. We are convinced that thanks to Valmet’s influence the energy and environmental center in Borås won’t become only a new heating and power plant, but also an environmental plant that will act as an example and a reference for future investments,” says Gunnar Peters, Managing Director at Borås Energi och Miljö.
“Valmet’s fluidized bed technology suits well in utilizing various fuels like biomass and waste in power and heat production. This plant will fulfill future environmental demands through high efficiency, good fuel flexibility and reliable operation. We are very thankful for the trust and look forward to deliver this sustainable energy project in close cooperation with Borås Energi och Miljö,” says Anders Bergqvist, Director Scandinavia at Valmet.
For Valmet will the main employment impact of the project will be in Tampere, Finland. Installation works are scheduled to begin in July, 2017. Heat production is scheduled to start in 2019.
Technical information about the delivery
Valmet’s delivery scope includes a 120 MW biofuel-fired HYBEX boiler utilizing fluidized bed (BFB) technology. The combination of controlled combustion temperature, low excess air and “staged” combustion provides the favorable conditions for meeting strict environmental requirements. The fuel used will be various biomass, mainly forest residue, bark and wood chips. The delivery will also include flue gas cleaning and condensing systems.
Information about Borås Energi och Miljö
Borås Energi och Miljö AB supplies energy, waste, water and environmental services in the area of Borås city. The company focuses on improving the social structure through sustainable solutions that provide opportunities for the city to grow.
In addition to the new energy plant, Borås Energi och Miljö will have a new waste water treatment plant in the Sobacken area. This will enable synergies and opportunities to utilize energy flows between various production units in that area.