Phycoremediation: key issues for cost-effective nutrient removal processes

Phycoremediation applied to the removal of nutrients from animal wastewater and other high organic content wastewater is a field with a great potential and demand considering that surface and underground water bodies in several regions of the world are suffering of eutrophication. However, the devel...

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Veröffentlicht in:	Biotechnology advances 2003-12, Vol.22 (1), p.81-91
1. Verfasser:	OLGUIN, Eugenia J
Format:	Artikel
Sprache:	eng
Schlagworte:	Biodegradation, Environmental Biological and medical sciences Bioreactors - economics Bioreactors - microbiology Biotechnology Cell Culture Techniques - economics Cell Culture Techniques - methods Cells, Immobilized - physiology Cost-Benefit Analysis - methods Cost-effective processes Eukaryota - growth & development Eukaryota - metabolism Fundamental and applied biological sciences. Psychology Industrial Waste - economics Industrial Waste - prevention & control Microalgae productivity Nitrogen Compounds - pharmacokinetics Nitrogen–phosphorus removal Nutrient recycling Nutrient removal Phosphorus Compounds - pharmacokinetics Phycoremediation Refuse Disposal - economics Refuse Disposal - methods Water Pollutants, Chemical - economics Water Pollutants, Chemical - pharmacokinetics Water Pollution, Chemical - economics Water Pollution, Chemical - prevention & control Water Purification - economics Water Purification - methods
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creator	OLGUIN, Eugenia J
description	Phycoremediation applied to the removal of nutrients from animal wastewater and other high organic content wastewater is a field with a great potential and demand considering that surface and underground water bodies in several regions of the world are suffering of eutrophication. However, the development of more efficient nutrient removal algal systems requires further research in key areas. Algae growth rate controls directly and indirectly the nitrogen and phosphorus removal efficiency. Thus, maximum algae productivity is required for effective nutrient removal and must be considered as a key area of research. Likewise, low harvesting costs are also required for a cost-effective nutrient removal system. The use of filamentous microalgae with a high autoflocculation capacity and the use of immobilized cells have been investigated in this respect. Another key area of research is the use of algae strains with special attributes such as tolerance to extreme temperature, chemical composition with predominance of high added value products, a quick sedimentation behavior, or a capacity for growing mixotrophically. Finally, to combine most of the achievements from key areas and to design integrated recycling systems (IRS) should be an ultimate and rewarding goal.
doi_str_mv	10.1016/S0734-9750(03)00130-7
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subjects	Biodegradation, Environmental Biological and medical sciences Bioreactors - economics Bioreactors - microbiology Biotechnology Cell Culture Techniques - economics Cell Culture Techniques - methods Cells, Immobilized - physiology Cost-Benefit Analysis - methods Cost-effective processes Eukaryota - growth & development Eukaryota - metabolism Fundamental and applied biological sciences. Psychology Industrial Waste - economics Industrial Waste - prevention & control Microalgae productivity Nitrogen Compounds - pharmacokinetics Nitrogen–phosphorus removal Nutrient recycling Nutrient removal Phosphorus Compounds - pharmacokinetics Phycoremediation Refuse Disposal - economics Refuse Disposal - methods Water Pollutants, Chemical - economics Water Pollutants, Chemical - pharmacokinetics Water Pollution, Chemical - economics Water Pollution, Chemical - prevention & control Water Purification - economics Water Purification - methods
title	Phycoremediation: key issues for cost-effective nutrient removal processes
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