Systems and economic analysis of microalgae ponds for conversion of CO{sub 2} to biomass. Quarterly technical progress report, September 1993--December 1993

“…20,[56][57][58][59] TEA is a computational tool used to estimate the performance and cost of a facility during the design stage. 15,33,71 The primary unit processes for cell rupture for product recovery and conversion include, (i) cell disruption, (ii) protein solubilization, (iii) protein precipitation and purication, and (iv) protein concentration and hydrolysis. 21,72 Chemical composition uncertainty in algae, particularly protein content, result in pretreatment and nal product inconsistencies.…”

Bioproducts from high-protein algal biomass: an economic and environmental sustainability review and risk analysis

“…20,[56][57][58][59] TEA is a computational tool used to estimate the performance and cost of a facility during the design stage. 15,33,71 The primary unit processes for cell rupture for product recovery and conversion include, (i) cell disruption, (ii) protein solubilization, (iii) protein precipitation and purication, and (iv) protein concentration and hydrolysis. 21,72 Chemical composition uncertainty in algae, particularly protein content, result in pretreatment and nal product inconsistencies.…”

Bioproducts from high-protein algal biomass: an economic and environmental sustainability review and risk analysis

Considerations for the maximum production rates of triacylglycerol from microalgae