Add to ORKGNon-suspended microalgal cultivation methods have gained an interest over the last decade. In contrast to traditional cultivation systems, where microalgae are grown in highly diluted suspensions, microalgae grow concentrated in biofilms over a particular substrate. Growth in biofilms gives higher biomass concentrations of end products and decreases overall water and energy consumption. However, there are research gaps in the field of biofilm formation and growth. The studies on material and strain properties and their effects on microbial attachment are very limited. So far, a small number of strains and materials have been tested, leading to many contradictory conclusions. In this thesis the primary colonisation of 36 material-strain pai...
Abstract Background Microalgae have shown clear advantages for the production of biofuels compared w...
Microalgae can be used to produce high-value compounds, such as pigments or high value fatty acids, ...
<p>Microalgae can be used to produce high-value compounds, such as pigments or high value fatty acid...
Microalgae are emerging as a promising technology for photosynthetic recycling of carbon dioxide (CO...
Microalgae are emerging as a promising technology for photosynthetic recycling of carbon dioxide (CO...
Microalgae are promising candidates for recycling of carbon dioxide (CO2) into renewable bioproducts...
Microalgae are promising candidates for recycling of carbon dioxide (CO2) into renewable bioproducts...
Several key challenges are hindering large-scale cultivation of microalgae for industrial purposes, ...
Microalgae are getting more interests from industry and science communities. Applications of these s...
Biofilm-based algal cultivation has many advantages over the conventional suspended growth methods a...
Microalgae are getting more interests from industry and science communities. Applications of these s...
AbstractMicroalgae are getting more interests from industry and science communities. Applications of...
This dissertation describes research done on biofilm based algal cultivation systems. The system tha...
Microalgae are getting more interests from industry and science communities. Applications of these s...
Cultivating microalgae as a biofilm may overcome some of the challenges of conventional suspended cu...
Abstract Background Microalgae have shown clear advantages for the production of biofuels compared w...
Microalgae can be used to produce high-value compounds, such as pigments or high value fatty acids, ...
<p>Microalgae can be used to produce high-value compounds, such as pigments or high value fatty acid...
Microalgae are emerging as a promising technology for photosynthetic recycling of carbon dioxide (CO...
Microalgae are emerging as a promising technology for photosynthetic recycling of carbon dioxide (CO...
Microalgae are promising candidates for recycling of carbon dioxide (CO2) into renewable bioproducts...
Microalgae are promising candidates for recycling of carbon dioxide (CO2) into renewable bioproducts...
Several key challenges are hindering large-scale cultivation of microalgae for industrial purposes, ...
Microalgae are getting more interests from industry and science communities. Applications of these s...
Biofilm-based algal cultivation has many advantages over the conventional suspended growth methods a...
Microalgae are getting more interests from industry and science communities. Applications of these s...
AbstractMicroalgae are getting more interests from industry and science communities. Applications of...
This dissertation describes research done on biofilm based algal cultivation systems. The system tha...
Microalgae are getting more interests from industry and science communities. Applications of these s...
Cultivating microalgae as a biofilm may overcome some of the challenges of conventional suspended cu...
Abstract Background Microalgae have shown clear advantages for the production of biofuels compared w...
Microalgae can be used to produce high-value compounds, such as pigments or high value fatty acids, ...
<p>Microalgae can be used to produce high-value compounds, such as pigments or high value fatty acid...