Add to ORKGReactions and processes that occur in microalgae and bacteria systems are difficult to understand because most of them take place simultaneously and depend on many parameters such as temperature, solar radiation, nutrients availability (e.g. carbon and nitrogen) as well on certain inhibitory conditions (e.g excess of oxygen in the culture medium). In comparison with conventional wastewater treatment technologies, less is known about the physical, chemical and biochemical reactions and processes that occur in microalgae-bacteria treatment systems. The main outcome of the present PhD thesis was to develop a new integrated mechanistic model, named BIO_ALGAE, which includes crucial physical and biokinetic processes to simulate microalgae growth...
The increase of wastewater follows the expansion of the world population generating a deficit in bas...
The self-treatment system of nature cannot handle man-caused high rate water pollution on its own, t...
[Notes_IRSTEA]Article number 100024 [Departement_IRSTEA]Ecotechnologies [TR1_IRSTEA]TED [ADD1_IRSTEA...
Reactions and processes that occur in microalgae and bacteria systems are difficult to understand be...
An integral mechanistic model describing the complex interactions in mixed algal-bacterial systems w...
The mechanistic model (BIO_ALGAE) for microalgae-bacteria based wastewater treatment systems simulat...
In the field of aquaculture, the main microalgae application is animal nutrition, in which they can ...
Sustainable Development Goals developed by the United Nations recognize that “ending poverty must go...
In this work, a comprehensive dynamic mathematical modelling to simulate the production of microalga...
In this article, the influence of culture conditions (irradiance, temperature, pH, and dissolved oxy...
International audienceThe prospect of treating wastewater and at the same time producing microalgae ...
[EN] A kinetic model of autotrophic microalgal growth in sewage was developed to determine the bioki...
For wastewater treatment, in microalgae-bacteria consortia, algae convert CO2 and nutrients into bio...
This paper presents a novel simulation tool to understand and analyze biological models for wastewat...
Environmental deterioration, resource depletion and climate change are forcing the water industry to...
The increase of wastewater follows the expansion of the world population generating a deficit in bas...
The self-treatment system of nature cannot handle man-caused high rate water pollution on its own, t...
[Notes_IRSTEA]Article number 100024 [Departement_IRSTEA]Ecotechnologies [TR1_IRSTEA]TED [ADD1_IRSTEA...
Reactions and processes that occur in microalgae and bacteria systems are difficult to understand be...
An integral mechanistic model describing the complex interactions in mixed algal-bacterial systems w...
The mechanistic model (BIO_ALGAE) for microalgae-bacteria based wastewater treatment systems simulat...
In the field of aquaculture, the main microalgae application is animal nutrition, in which they can ...
Sustainable Development Goals developed by the United Nations recognize that “ending poverty must go...
In this work, a comprehensive dynamic mathematical modelling to simulate the production of microalga...
In this article, the influence of culture conditions (irradiance, temperature, pH, and dissolved oxy...
International audienceThe prospect of treating wastewater and at the same time producing microalgae ...
[EN] A kinetic model of autotrophic microalgal growth in sewage was developed to determine the bioki...
For wastewater treatment, in microalgae-bacteria consortia, algae convert CO2 and nutrients into bio...
This paper presents a novel simulation tool to understand and analyze biological models for wastewat...
Environmental deterioration, resource depletion and climate change are forcing the water industry to...
The increase of wastewater follows the expansion of the world population generating a deficit in bas...
The self-treatment system of nature cannot handle man-caused high rate water pollution on its own, t...
[Notes_IRSTEA]Article number 100024 [Departement_IRSTEA]Ecotechnologies [TR1_IRSTEA]TED [ADD1_IRSTEA...