摘要:The use of existing coal feeding system for the input of the
crushed biomass to the energy boiler requires the least expenditures to start
and run a multi-fuel combustion installation. And if losing popularity
technology of co-firing biomass with coal is intended to allow meeting
Polish promises to achieve the 15% share of renewable energy sources in
the energy mix by the year 2020, such approach could be expected rather
than construction of new, dedicated multi-fuel installations to produce
electricity and heat. However, this involves the significant increase of fire
and explosion hazard in the coaling system – designed for work with coal,
a material with much better parameters characterizing this hazard, than
biomass. The article presents the standardized research techniques (applied
test stands and methodology) used to determine the data necessary for the
design and the application of appropriate measures to reduce fire and
explosion hazard related to operation of a mix of coal and biomass.
其他摘要:The use of existing coal feeding system for the input of the crushed biomass to the energy boiler requires the least expenditures to start and run a multi-fuel combustion installation. And if losing popularity technology of co-firing biomass with coal is intended to allow meeting Polish promises to achieve the 15% share of renewable energy sources in the energy mix by the year 2020, such approach could be expected rather than construction of new, dedicated multi-fuel installations to produce electricity and heat. However, this involves the significant increase of fire and explosion hazard in the coaling system - designed for work with coal, a material with much better parameters characterizing this hazard, than biomass. The article presents the standardized research techniques (applied test stands and methodology) used to determine the data necessary for the design and the application of appropriate measures to reduce fire and explosion hazard related to operation of a mix of coal and biomass.
