Bio-processing
Bio-processing is the conversion of biomass (plants, org. waste, algae) into bio-fuels, bio-materials, and bio-chemicals. In the BIOE&P group we work with finding technical solutions for sustainable and economic feasible production of biofuels. We are using several different processing methods to change the chemical structure of biomass in a way that enable us to chemically or microbially convert target components into fuel and value added chemicals. Examples of processes are: solvent extraction, pyrolysis, hydrocracking, wet oxidation, hydrothermal treatment, enzymatic hydrolysis, and microbial fermentation.
Waste to energy
The waste to energy research is focused on conversion of waste (e.g. agricultural residuals and household waste) and bi-products from industry into new useful products. We are working to develop processes that target the organic fraction of agricultural residuals, municipal solid waste, as well as organic industrial waste. Our main focus is low temperature biological processes to yield different types of bio-fuels (e.g. ethanol and biogas) or biochemicals. The conceptual biological process is built on three platforms: 1. Physical, chemical, and biological pretreatment of biomass, 2. Enzymatic hydrolysis, and 3. Fermentation of sugars and other organic compounds into biofuels or biochemicals.
Applied/industrial microbiology
In applied industrial microbiology we are aiming to find technical solutions for sustainable production of biomaterials: biopolymers, biofibres, biocomposites, films, biomedicines, food-additives and functional food from plants and lignocellulosic materials. The microbial substrates we are producing when processing biomass are often a challenge to the microbial system (compared to clean synthetic substrates) and require special cultures and bioreactor systems. Microbial systems are chosen based on substrate composition, interesting metabolic products, and robustness (high growth rate, high productivity, and ability to compete with contaminating microorganisms). We are using batch, fed-batch, and continuous bioreactors and techniques such substrate detoxification and cell immobilization to increase microbial productivity.
Bioprocess modeling of biorefineries
A biorefinery is a combination of biotechnological and chemical processes that converts a given biomass into industrial products. The first step in biorefining is often biomass fractionation where biomass is separated into a liquid and a solid fraction. Sometimes this is achieved by hydrolyzing part of the biomass resulting in a liquid fraction containing soluble sugars and a less recalcitrant solid fiber fraction. Each fraction can then be processed further (e.g. by enzymatic hydrolysis and microbial fermentation) to produce one or several products. For most biomasses it is difficult to determine the best set of processes based solely on experimental data. The laboratory work is often focused on optimization of the fractionation, hydrolysis, and microbial conversion. By modeling of the processes in e.g. Super Pro Designer we can add up-stream and down-stream processes and examine the feasibility of the full process and/or examine the feasibility and sustainability of different process scenarios to get the best possible utilization of a given biomass.
Active projects
Aqua Combine
Flexi Green Fuels
Clean Biocide