GY Yew, BK Puah, KW Chew, SY Teng… - Chemical Engineering …, 2020 - Elsevier
This progress of industry revolution, which involves reutilizing waste materials and simplifying complex procedures of analysis through artificial intelligent (AI), are the current …
Scaling up algal cultures to large volumes for commercial production is a challenging task that involves high capital and operating cost. Hence, the feasibility of a laboratory scale …
Continuous automation of conventional industrial operations with smart technology have drawn significant attention. Firstly, the study investigates on optimizing the proportion of …
S Jareonsin, K Mahanil, K Duangjan… - Bioresource Technology …, 2023 - Elsevier
The heterotrophic mode, along with recyclable wastewater, plays a crucial role in addressing water shortages and limitations in trophic cultivation to produce valuable …
Chlorella sorokiniana CY-1 was cultivated using palm oil mill effluent (POME) in a novel- designed photobioreactor (NPBR) and glass-made vessel photobioreactor (PBR). The …
HS Kim, WK Park, B Lee, G Seon, WI Suh, M Moon… - Scientific Reports, 2019 - nature.com
The heterotrophic cultivation of microalgae has a number of notable advantages, which include allowing high culture density levels as well as enabling the production of biomass in …
V Singh, M Verma, MS Chivate, V Mishra - Journal of Environmental …, 2023 - Elsevier
Microalgae biomass a valuable resource for energy source and fertilisers. Among all available media sources, wastewater serves as cost-efficient media for microalgae biomass …
In this work, the algal biomass productivity and its lipid content were explored using a database containing 4670 instances extracted from the experimental results reported in 102 …
The microalgae can be converted into biofuels, biochemicals, and bioactive compounds in a biorefinery. Recently, designing and executing more viable and sustainable biofuel …