Valorisation énergétique des déchets de bois traités par voies thermochimiques (pyrolyse et hydroliquéfaction) : Application aux bois traités aux sels de CCB (cuivre-chrome-bore)

摘要

The amount of treated-wood waste was estimated to 27% of the deposit of hazardous waste in France. These wastes are incinerated in specials incineration plants “installations classées pour la protection de l’environnement”. However, incineration produces harmful residues and contaminated gases released into the atmosphere inevitably. In this context, this work aims to develop and implement other ways of energy recovery from treated-wood waste using thermo-chemical processes. For this, the pyrolysis and hydroliquefaction processes were performed for energy recovery from CCB treated wood waste (copper-chromium-boron) representing 8750 t / year in France. Natural wood were impregnated with salts of CCB in our laboratories according to industrial processing to control the balance of metals in pyrolysis and hydroliquefaction products. A preliminary study was carried out by thermogravimetric analysis in order to determine the temperature range for effective mass degradation of CCB treatedwood. In this temperature range, the experimental parameters of slow pyrolysis have been optimized to concentrate metals in charcoal. Subsequently, a parametric study was conducted by the method of experimental design for the conversion of coal into bio-oil. In addition, the optimization of the conversion hydroliquefaction treated wood into bio-oil was performed. The results show that the metals initially present in the treated wood are divided between the bio-oil and coke whatever the processes energy recovery used (hydroliquefaction / pyrolysis + hydroliquefaction). However, the immediate characteristics of bio-oil and biodiesel are quite similar. The use of catalyst during charcoal conversion improves the quality of the bio-oil but also the energy balance of the process.