Microalgae have been proposed as an option for wastewater treatment since the 1960’s but still this technology has not been expanded to an industrial scale. In this paper, the major factors limiting the performance of these systems are analysed. The composition of the wastewater is highly relevant, and especially the presence of pollutants such as heavy metals and emerging compounds. Biological and engineering aspects are also critical and have to be improved to at least approximate the performance of conventional systems, not just in terms of capacity and efficiency but also in terms of robustness. Finally, the harvesting of the biomass and its processing into valuable products poses a challenge; yet at the same time, an opportunity exists...
Microalgae have promising applications in wastewater treatment because of their ability to use inorg...
Treating municipal wastewater is necessary to limit the impact carbonaceous, nitrogenous and phospho...
Production of microalgal biomass requires large amounts of nitrogen (N) and phosphorus (P). The sust...
Microalgae have been proposed as an option for wastewater treatment since the 1960’s but still this ...
One of the main social and economic challenges of the 21st century will be to overcome the worlds’ w...
The growth of the world's population increases the demand for fresh water, food, energy, and technol...
Microalgae play important roles in the realisation of energy-efficient carbon-neutral wastewater tre...
Wastewater (WW) treatment using microalgae has become a growing trend due the economic and environme...
Concerns about climate changes and global water crisis are increasing, considering the low freshwate...
This study evaluates the capacity of seven species and a Bloom of microalgae to grow in urban wastew...
The increase in global pollution, industrialization and fast economic progress are considered to inf...
Wastewater (WW) treatment using microalgae has become a growing trend due the economic and environme...
The aim of the present work was the simultaneous treatment of urban wastewater using microalgae and ...
In this chapter the relevance of microalgae-based processes for the recovery of nutrients contained ...
Different species of microalgae are highly efficient in removing nutrients from wastewater streams a...
Microalgae have promising applications in wastewater treatment because of their ability to use inorg...
Treating municipal wastewater is necessary to limit the impact carbonaceous, nitrogenous and phospho...
Production of microalgal biomass requires large amounts of nitrogen (N) and phosphorus (P). The sust...
Microalgae have been proposed as an option for wastewater treatment since the 1960’s but still this ...
One of the main social and economic challenges of the 21st century will be to overcome the worlds’ w...
The growth of the world's population increases the demand for fresh water, food, energy, and technol...
Microalgae play important roles in the realisation of energy-efficient carbon-neutral wastewater tre...
Wastewater (WW) treatment using microalgae has become a growing trend due the economic and environme...
Concerns about climate changes and global water crisis are increasing, considering the low freshwate...
This study evaluates the capacity of seven species and a Bloom of microalgae to grow in urban wastew...
The increase in global pollution, industrialization and fast economic progress are considered to inf...
Wastewater (WW) treatment using microalgae has become a growing trend due the economic and environme...
The aim of the present work was the simultaneous treatment of urban wastewater using microalgae and ...
In this chapter the relevance of microalgae-based processes for the recovery of nutrients contained ...
Different species of microalgae are highly efficient in removing nutrients from wastewater streams a...
Microalgae have promising applications in wastewater treatment because of their ability to use inorg...
Treating municipal wastewater is necessary to limit the impact carbonaceous, nitrogenous and phospho...
Production of microalgal biomass requires large amounts of nitrogen (N) and phosphorus (P). The sust...