Enhancement in algal biomass production is a crucial parameter for generating value-added chemicals from renewable carbon sources. This study aimed to fabricate a novel photobioreactor with integrated and innovative electromagnets to assess microalgae's growth under the magnetic field's effect. The present study observed the effect of magnetic field exposure on the microalgae Chlorella sorokiniana cultivation and estimated the change in pigments with growth. In addition, the carbohydrate content of Chlorella sorokiniana was also evaluated. Chlorella sorokiniana culture, when exposed to a magnetic field strength of 10 mT d-1 resulted in a greater biomass concentration and productivity of about 12% and 8%, respectively, higher than the control culture. A positive effect of magnetic field exposure was also observed in the microalga's pigments concentration and carbohydrate content. The chlorophyll-a content increased twofold exponentially with the growth and the carbohydrate content of the microalgae cells also increased by 15% compared to the control culture. Therefore, the novel Electromagnetic Photobioreactor (E-PBR) can be used to produce enhanced biomass and other value-added products.
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