What is Biohydrogen?
Over the course of time, scientists have been studying hydrogen producing microorganisms such as green algae, cyanobacteria and eubacteria. Through extensive research scientists were able to find "latter group" organisms such as Enterobacteria, Thermotogae and Clostridia, that have been seen to generate biohydrogen from different sugar feedstock mostly from fermentative pathways. To produce said gasses these bacteria rely on ancient enzymes (bio-catalysts) named hydrogenases. Due to these hydrogenase enzymes, hydrogen production from hydrogen producing enzymes are possible.
biohydrogen is hydrogen gas produced by certain life forms like hydrogen producing bacteria. Bio-hydrogen is produced in bioreactor environments where biological organisms create hydrogen gas the presence of either sunlight or hydrogen containing renewable biomass such as glucose, sucrose, glycerol or starch.
Some bio-hydrogen production methods are photo-fermentation, dark fermentation, direct and indirect bio-photolysis. Since there are so many of these alternative motives to produce biohydrogen, the use of fossil fuels decrease. What makes these alternative choices even better is that they use a wide variety of types of biomass. crops, crop waste, animal waste and much much more. This picture below demonstrates the different ways biohydrogen can be produced.
biohydrogen is hydrogen gas produced by certain life forms like hydrogen producing bacteria. Bio-hydrogen is produced in bioreactor environments where biological organisms create hydrogen gas the presence of either sunlight or hydrogen containing renewable biomass such as glucose, sucrose, glycerol or starch.
Some bio-hydrogen production methods are photo-fermentation, dark fermentation, direct and indirect bio-photolysis. Since there are so many of these alternative motives to produce biohydrogen, the use of fossil fuels decrease. What makes these alternative choices even better is that they use a wide variety of types of biomass. crops, crop waste, animal waste and much much more. This picture below demonstrates the different ways biohydrogen can be produced.