Heat requirement for fixed bed pyrolysis of beechwood chips

Abstract The evaluation of heat of pyrolysis reactions at conditions relevant to the industrial practice is of great importance from the point of view of reactor design. Here, the evolution of heat during the pyrolysis of beechwood chips was experimentally measured in a lab-scale fixed bed pyrolysis system. Wood was heated and pyrolyzed by means of heat transferred from a mass of surrounding inert material (sand) initially heated at temperatures between 400 and 800 °C. Monitoring the evolution of temperatures in the system allowed calculation of heat for pyrolysis ( Q P ) as a function of wood bed temperature. At pyrolysis conditions where slow heating rates of the wood bed are realized, changes in Q P were clearly linked to the decomposition of the individual constituents of biomass (cellulose, hemicellulose and lignin), with consecutive exothermic and endothermic stages. When high temperature gradients were present, these stages were simultaneous and Q P continuously increased with temperature, reaching 550 kJ kg −1 . Under these circumstances, a correlation is provided for Q P ( T ) up to 556 °C. The enthalpy of the pyrolysis reactions ( ΔH P ) was also estimated. Results show good coincidence with previously reported literature values. The proposed experimental system could be useful for determining heat requirements of pyrolysis under different operational conditions.