Enhancement of fermentative hydrogen production from green algal biomass of Thermotoga neapolitana by various pretreatment methods

Biomass of the green algae has been recently an attractive feedstock source for bio-fuel production because the algal carbohydrates can be derived from atmospheric CO₂ and their harvesting methods are simple. We utilized the accumulated starch in the green alga Chlamydomonas reinhardtii as the sole substrate for fermentative hydrogen (H₂) production by the hyperthermophilic eubacterium Thermotoga neapolitana. Because of possessing amylase activity, the bacterium could directly ferment H₂ from algal starch with H₂ yield of 1.8–2.2 mol H₂/mol glucose and the total accumulated H₂ level from 43 to 49% (v/v) of the gas headspace in the closed culture bottle depending on various algal cell-wall disruption methods concluding sonication or methanol exposure. Attempting to enhance the H₂ production, two pretreatment methods using the heat-HCl treatment and enzymatic hydrolysis were applied on algal biomass before using it as substrate for H₂ fermentation. Cultivation with starch pretreated by 1.5% HCl at 121 °C for 20 min showed the total accumulative H₂ yield of 58% (v/v). In other approach, enzymatic digestion of starch by thermostable α-amylase (Termamyl) applied in the SHF process significantly enhanced the H₂ productivity of the bacterium to 64% (v/v) of total accumulated H₂ level and a H₂ yield of 2.5 mol H₂/mol glucose. Our results demonstrated that direct H₂ fermentation from algal biomass is more desirably potential because one bacterial cultivation step was required that meets the cost-savings, environmental friendly and simplicity of H₂ production.