Managing carbon dioxide mass transfer in photobioreactors for enhancing microalgal biomass productivity
Mitigating greenhouse-gas emissions, of which fossil-derived carbon dioxide (CO 2) is the
dominant component, is becoming increasingly imperative. One of the tools for lowering the …
dominant component, is becoming increasingly imperative. One of the tools for lowering the …
Photo-bioreactor design for microalgae: a review from the aspect of CO2 transfer and conversion
Photobioreactor (PBR) is the most critical equipment for microalgal photosynthetic fixation of
CO 2. It provides suitable environmental conditions, such as CO 2, light and nutrients, for …
CO 2. It provides suitable environmental conditions, such as CO 2, light and nutrients, for …
Optimizing CO2 transfer in algal open ponds
The objective of this study was to optimize the CO 2 injection system of algal raceway open
ponds to minimize CO 2 losses to the atmosphere and therefore reduce operational costs …
ponds to minimize CO 2 losses to the atmosphere and therefore reduce operational costs …
Microalgae-based carbon capture and utilization: A critical review on current system developments and biomass utilization
Carbon capture and utilization (CCU) is an emerging technology with commercial potential
to convert atmospheric carbon dioxide (CO2) into net zero or negative emission products. In …
to convert atmospheric carbon dioxide (CO2) into net zero or negative emission products. In …
CO2 bioremediation by microalgae in photobioreactors: Impacts of biomass and CO2 concentrations, light, and temperature
MJ Raeesossadati, H Ahmadzadeh, MP McHenry… - Algal Research, 2014 - Elsevier
Microalgae have the potential to recycle and bioremediate CO 2 and also produce chemical
energy in the form of biomass. The potential production of renewable energy and high value …
energy in the form of biomass. The potential production of renewable energy and high value …
The impact of environmental factors on carbon dioxide fixation by microalgae
Microalgae are among the most productive biological systems for converting sunlight into
chemical energy, which is used to capture and transform inorganic carbon into biomass. The …
chemical energy, which is used to capture and transform inorganic carbon into biomass. The …
High Productivity Cultivation of Microalgae without Concentrated CO2 Input
Outdoor cultivation of microalgae for biofuel production is not yet economically feasible, in
part due to costs associated with CO2 supply. Large point sources of CO2 are also rarely …
part due to costs associated with CO2 supply. Large point sources of CO2 are also rarely …
[HTML][HTML] Microalgae cultivation in photobioreactors: sustainable solutions for a greener future
SA Razzak, K Bahar, KMO Islam, AK Haniffa… - Green Chemical …, 2023 - Elsevier
Microalgae cultivation in photobioreactors has emerged as a promising and sustainable
approach to address various environmental and energy challenges, offering a multitude of …
approach to address various environmental and energy challenges, offering a multitude of …
CO2 biomitigation and biofuel production using microalgae: photobioreactors developments and future directions
H Znad, G Naderi, HM Ang… - advances in Chemical …, 2012 - books.google.com
Increased concerns about global warming and greenhouse gas emissions as well as the
exhaustion of easily accessible fossil fuel resources are calling for effective carbon dioxide …
exhaustion of easily accessible fossil fuel resources are calling for effective carbon dioxide …
Closed photobioreactors for production of microalgal biomasses
Microalgal biomasses have been produced industrially for a long history for application in a
variety of different fields. Most recently, microalgae are established as the most promising …
variety of different fields. Most recently, microalgae are established as the most promising …