The purpose of this work was to study the potential to enhance biogas production from pulp and paper mill sludge by the use of thermal pre-treatment in combination with chemical pre-treatment. Biogas from waste is a renewable fuel with very low emissions during combustion. To further reduce the use of fossil fuels, more biogas substrates are necessary. Pulp and paper mill sludge is a large untapped reservoir of potential biogas. Pulp and paper mill sludge was collected from a mill that produces both pulp and paper and as wastewater treatment has a modified waste activated sludge system. As pre-treatments were chosen heat (70 °C or 140 °C) combined with either acid (pH 2 or pH 4) or base (pH 9 or pH 11, obtained with NaOH or Ca(OH)₂). Biogas potential was tested by anaerobic digestion batch assays under   mesophilic conditions. All pre-treatments were tested in six replicates. Biogas volume was measured with a gas-tight syringe and methane concentration was measured with a gas chromatograph. The methane yield from sludge subjected to thermal pre-treatment at 70 °C did not differ from the untreated sludge, but thermal pre-treatment at 140 °C had a positive effect. Within the 70 °C thermal pre-treatment group, the pH 2 acid was the most successful chemical pre-treatment, and Ca(OH)₂ pH 9 had the least effect with no measurable improvement in methane yield. For the 140 °C thermal pre-treatment group, acid and NaOH impacted methane production negatively, while the Ca(OH)₂–treated sludge did not differ from sludge without chemical pre-treatment. In conclusion, thermal treatment at 140 °C improved methane yield with 170% and for this sludge additional chemical pre-treatments can be excluded.