Abstract

The increased representation of biomass in the Brazilian energy matrix will contribute to reducing dependence on hydroenergy and mitigating negative impacts during increasingly frequent drought periods. However, given the changing climate, it is urgent to classify and select new genotypes for the expansion of energy plantations. The objective of this study was to evaluate the energy performance and combustibility of wood from Eucalyptus and Corymbia trees to support a knowledge-based and efficient use of such woods in thermochemical conversion systems. Eight species of Eucalyptus (Eucalyptus amplifolia, E. longirostrata, E. major, and E. urophylla) and Corymbia (Corymbia citriodora, C. variegata, C. henryi, C. torelliana), which are not generally used for energy purposes, were selected at 6 years of age from experimental plantations in southeastern Brazil. Wood basic density (WBD), ash content (AC), higher heating value (HHV), fuel value index (FVI), ignition (Di), flammability (Ci) and combustion (Si) indexes were determined. The wood of E. urophylla and C. torelliana presented showed the highest and lowest FVI, respectively. Regarding combustion indexes E. longirostrata had a higher combustion index (4.00 ×107 %2/(min2°C3)), flammability (1.49 %min−1/°C2) and ignition (4.39 % min−3) while C. variegata presented the lowest values. The FVI showed correlations with the combustibility of wood. Thus, this index can be used for the rapid and reliable classification of new genetic materials for energy forests in Brazil. E. urophylla and E. longirostrata woods demonstrated better energy performance and combustion indexes, making them the most suitable species for use in cogeneration systems and candidates for the expansion of energetic forests in Brazil.

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