Experiments and cellular automata simulation reveal light/carbon transportation and growth mechanism of Chlorella vulgaris biofilm in attached cultivation

•Cultivation conditions highly influence transfer and growth behavior of biofilms.•Light penetrates only less than 70 um depth, DIC slowly declines opposite light.•Dual-side carbon supplementation elevates DIC and enhances biofilm growth.•Biofilm is partitioned as “growing regime” and “resting regime”.•Proliferated algal cells lift “growing regime” and thicken the biofilm.