4. ConclusionsAmount and compositio

4. Conclusions

Amount and composition of inorganic species have a significant impact on the thermal degradation characteristics of brown coals as well as biomass materials. Due to the fact of different macromolecular structure, varying ash content, and dominant inorganic species, the results differ between brown coals and biomass fuels and furthermore within the two material groups. The higher tar/oil yields produced during pyrolysis of demineralized biomass, to the disadvantage of gas (mainly decrease of CO2, CO, H2), indicate that inorganic matter (K, Ca) may act as catalysts for the breakdown of oxygen containing functional groups via decarboxylation or decarbonylation. Thermal decomposition of acid treated biomass produces higher amounts of light oxygen bearing species e.g. phenol, organic acids or methanol (see [7]) leading to an increase in tar/oil oxygen content. The latter can in this study only be confirmed for wheat straw pyrolysis. The influence of mineral matter on degradation characteristics for brown coal results mainly from high amounts of calcium, iron, and sodium (the latter only for RBC). The main effect is an increasing production of reaction water caused by demineralization. This leads to higher amounts of total liquids to the disadvantage of gas and char. Strong influence due to demineralization was also observed in gas composition. The decrease in CO2 and the increase in CO yield by acid treatment may be related to missing calcium, acting as catalyst for the formation of acidic oxygen bearing species (see [1]). This is confirmed by the observed higher oxygen content in tar/oil of acid treated brown coals. The obtained increase in endothermic reactions after demineralization is associated with rising liquid yields. This indicates the effect of inorganic constituents, present in brown coal and biomass, on the occurring decomposition mechanisms, too.

In general, the change in product yields between pyrolysis of raw and demineralized samples is not only related to the total amount of constituents acting as catalysts (Na, K, Mg, Ca, Fe), because the effect is comparatively higher for biomass samples, although the content of possible catalysts is lower.