Exergy efficiency of light conversion into biomass in the macroalga Ulva sp. (Chlorophyta) cultivated under the pulsed light in a photobioreactor

Abstract: Marine macroalgae are a potential feedstock for biorefineries that can reduce dependence on fossil fuels and contribute to bioeconomy. New knowledge and technologies for efficient conversion of solar energy into macroalgae biomass are needed to increase biomass yields and energy conversion efficiency. In this work, we show that the green macroalgae from Ulva sp. can grow under the pulsed light in a photobioreactor with higher exergy conversion efficiency in comparison to cultivation under constant light with t… Show more

“…growth at low nutrient levels in on‐land reactors . It causes movement of the algae in the reactor, reducing shading limitations, and increasing exposure to light and available dissolved nutrients, thus enhancing photosynthesis and productivity . Tumbling with air may also prevent the development of competitive macroalgal grazers and epiphytes, such as diatoms .…”

Feasibility study of Ulva sp. (Chlorophyta) intensive cultivation in a coastal area of the Eastern Mediterranean Sea

“…growth at low nutrient levels in on‐land reactors . It causes movement of the algae in the reactor, reducing shading limitations, and increasing exposure to light and available dissolved nutrients, thus enhancing photosynthesis and productivity . Tumbling with air may also prevent the development of competitive macroalgal grazers and epiphytes, such as diatoms .…”

Feasibility study of Ulva sp. (Chlorophyta) intensive cultivation in a coastal area of the Eastern Mediterranean Sea

Integrated biorefinery process for sustainable fractionation of Ulva ohnoi (Chlorophyta): process optimization and revenue analysis

Aeration and nitrogen modulated growth rate and chemical composition of green macroalgae Ulva sp. cultured in a photobioreactor