Sustainable wood stoves through stove, building integration and value chain optimisation
The overall objective is sustainable wood stoves through stove, building integration and value chain optimisation
- Speciation and quantification of particulate and gaseous emission levels from wood stoves for representative stove technologies and operating conditions
- Reduction of climate and health related emission levels through emission reduction and energy efficiency measures
- Optimum building integration of stoves
- Assessment of value chain performance of existing and improved stove technologies and connected systems for different stove-building configurations in Norway
- Techno- and socio-economic assessments of the current and future role of wood stoves in the Norwegian energy market
- Development of a roadmap for sustainable wood stoves in Norway
- Education of highly skilled candidates within this area and training of industry partners
- Monitoring of activities and state-of-the-art within this area and dissemination of knowledge to the industry partners, and other interested parties when applicable
Bioenergy is important in Norway and wood log combustion has long traditions in Norway, constituting above 40% of the total use of biomass for stationary energy purposes, and accounting for about 12% of the domestic heating. Using wood logs is important for security of supply in Norway, where we today rely heavily on the electricity grid to deliver the needed space-heating for our houses, which are typically wooden (with relatively low thermal mass).
With a high nominal power, wood stoves can significantly reduce power peaks in the electricity grid, prevent blackouts and act as backup heating system. In a context of increasing electricity use in households, including electric cars, reducing peak electric power is strategic as it enables to prevent or postpone large investments to reinforce the distribution grid. New houses, as well as retrofit/upgrading of old houses, have increasingly focused on improved energy efficiency. The space-heating effect (power) required for these highly-insulated buildings is drastically reduced, i.e. lower heating effect is needed compared to a new stove in an old house.
Previous projects have increased significantly the knowledge about wood log combustion in stoves to enable improving wood stoves with respect to emissions and energy efficiency, as well as combustion stability and optimum room and building integration. However, to ensure a sustainable wood stove future both in the existing building stock and the residential buildings of the future, further knowledge building within emission reduction, energy efficiency increase, proper building integration, and value chain, techno-economic and socio-economic assessments is needed. This will secure the continued use of wood stoves as an important, comfortable and sustainable heat source in the existing building stock (replacing old/poor stoves) and the residential buildings of the future, providing also substantial socioeconomic benefits. Therefore, SusWoodStoves is established.