In order to achieve the ambitious targets of EU’s climate action plan, there is a need to decarbonize the energy and chemical industries, which are the driving forces for global economy and heavily depended on fossil resources. Torrefied biomass pellets could be an alternative to coal. However, lower economic competitiveness compared with coal in general market conditions is the main challenge with torrefied pellets. As a common practice, the volatiles released during torrefaction are combusted together with utility fuel to produce the heat energy. These volatiles are rich in organic acids and water, and can be used in applications other than energy production.
The main challenges for the commercial scale production of bio-based chemicals are higher feedstock prices, continuous availability of feedstock, higher operational costs, lower environment feasibility. Thus, there is a need to produce bio-based chemicals from low-cost or no-cost feedstock. Sharing the resources between different industries under the concept of industrial symbiosis could help to reduce the operational expenses and can help to improve the overall feasibility of bio-based products. Because of the reluctant nature of lignocellulosic biomass, hydrolysis is a rate limiting step and requires costly and complex pretreatment to improve the solubility of the biomass components. Thus there is a need to develop a disruptive approach to conventional pretreatments.
On the other hand, pulp industries are known to produce large quantities of sludge during the treatment of wastewater from pulping process, which is rich in organic fraction. Today, pulp industries are handling the sludge through landfilling, anaerobic digestion, incineration, composting and land applications in agricultural activities. All these processes have either policy and/or technical challenges. Thus, there is a need to find advanced valorization strategies to handle the pulp industry sludge.
The aim of this project was to develop an integrated approach to produce bio-coal, biomethane and volatile fatty acids using pulp sludge as a low cost alternative feedstock to forestry biomass by integrating torrefaction with anaerobic digestion. The overall objective of this project was to improve the technical, economical and environmental feasibility of bio-based products compared with fossil resources.