1. IntroductionThe strategic object

1. Introduction
The strategic objective fixed by the directive of Polish
government is to obtain 7.5% of the total energy
consumption from renewable sources until the year 2010
and 14% until 2020. An important part of this program is the
development of biomass combustion technologies.
In view of increase in the demand for waste utilization and
combustion of renewable fuels, materials of these kinds are
more often burned together with coal in steam generators,
what may be the lowest-cost option for reducing greenhouse
gas emissions. Because of their organic origin, these fuels
(wood, bark, straw, sewage sludge, municipal solid wastes,
bone meal, etc.) are termed ‘biomass’, although they include
not only strictly natural components. The biomass and waste
fuels also contain mineral matter, generally in proportions
strongly different from those found in coal.
The following concepts of co-firing biomass in connection
with pulverized coal are applied [1]:
1. integration of co-combustion grate for biomass into the
bottom of PF boiler furnace

2. grinding of biomass in coal or special mills and
subsequent injection into the boiler
3. combustion of suspension of fine biomass particles in
water or oil using oil burners
4. combustion of biomass in a separate pre-combustor and
injection of the created flue gas into the boiler
5. gasification of biomass and combustion of the product
gas as additional fuel.
Application of methods 1–3 can change the fly ash
chemical and mineralogical constitution in PF boiler.
Blending of coal with biomass containing different mineral
matter composition may create various problems, which not
only make the boiler operation difficult but also can make
co-firing biomass with coal in conventional power systems
unprofitable. The paper presents an attempt to evaluate the
influence of biomass co-combustion on heating surfaces
fouling as well as on the boiler thermal effectiveness.