Do you have an anaerobic digestion plant? Then a CaviMax can give you a boost and increase your access to feedstocks.
However, the story does not stop there, the CaviMax is a process intensification device which can be applied to increase the rate of chemical and biological reactions, form stable emulsions, homogenise liquids, decreases particle sizes, bind liquids & gases and liquids & solids, provide continuous inline mixing and provide scale free heating of liquids.
Industries already benefiting from hydrodynamic cavitation processing are:-
Biogas – decrease particle size, lignin breakdown, organic substrate disintegration, low glycerine, reduction of hydrogen sulphide.
Algae - Create second generation biofuels, biogas/biodiesel/algal oils from waste algae used in pollution control methodologies, increase yield for costmetics & neutraceuticals from virgin algal feedstock
Biorefining - create new feedstocks from organic, biomass, algal and lignocellulosic waste streams.
Biofuels – improve ethanol production, enable continuous production of biodiesel from biomass including lignocellulosic/algeal/recalcitrant biomass
Petrochemical – upgrading of crude oil, desulpherisation
Waste water treatment and biosolids – Breakdown recalcitrant secondary solids and increase biogas yield of sewage treatment plants, breakdown of pharmeceutical and chemicals in waste water, reduce COD and BOD of effluent streams, reduce pollution of mining waters
Brewing – increase alcohol yield and flavour release of hops and aromatics, efficient carbonation of beers, wort cavitation, increase biodegrdation of spent malt, efficient startch release to remove need for sparging, shorten the time needed for saccharification, cavitation causes unpleasant volatile gases to degas quickly, denatures the enzymes in the wort and allows hop flavors to mix in easily, makes boiling entirely unnecessary so saves energy
Food & beverage processing – extraction, homogenisation, hydration, emulsification for energy savings and maximum nutrition
Edible / medicinal / essential oils - high quality, low energy, maximum yield from high value feedstocks
Neutraceutical products - higher active principal ingredient in the extract, high quality, low energy, maximum yield
Pharmaceuticals – precise control of particle sizes to aid dosing and targeting of drugs
Chemical manufacturing - nanoparticle production, accelerated chemical reactions
Paper & pulp – delignification of wood pulp and straw, white liquor oxidation, oxygen delignification, ozone bleaching, peroxide bleaching, chemical additive mixing and de-inking and oxidisation of black liquor
Paint – emulsification and mixing
Nanomaterials - top down and bottom up production and processing of nanomaterials