Manual Treatment of Urban Wastewater by Chemical Precipitation for Production of Hydroponic Nutrient Solutions

Manual Treatment of Urban Wastewater by Chemical Precipitation for Production of Hydroponic Nutrient Solutions

An urban wastewater treatment system was developed in Portugal for posterior in situ feasibility testing at the Bulgarian Antarctic Base, using its domestic wastewater. The aim of this system was the development of a low cost, integrated approach for wastewater treatment and production of nutrient s...

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Main Authors: Tânia Correia, Mariana Regato, Adelaide Almeida, Teresa Santos, Leonor Amaral, Maria de Fátima Nunes Carvalho
Format: Article
Language:English
Published: Polish Society of Ecological Engineering (PTIE) 2020-04-01
Series:Journal of Ecological Engineering
Subjects:
urban wastewater
antarctica
chemical precipitation
co2 capture
hydroponics
Online Access:http://www.journalssystem.com/jeeng/MANUAL-TREATMENT-OF-URBAN-WASTEWATER-BY-CHEMICAL-PRECIPITATION-FOR-PRODUCTION-OF,118286,0,2.html
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spelling doaj-0d2f75c8f0a54d309b64fa2407268bed2020-11-25T01:39:22ZengPolish Society of Ecological Engineering (PTIE)Journal of Ecological Engineering2299-89932020-04-0121314315210.12911/22998993/118286118286Manual Treatment of Urban Wastewater by Chemical Precipitation for Production of Hydroponic Nutrient SolutionsTânia Correia0Mariana Regato1Adelaide Almeida2Teresa Santos3Leonor Amaral4Maria de Fátima Nunes Carvalho5Polytechnic Institute of Beja, Street Pedro Soares – IPB Campus, 7800-295 Beja, PortugalPolytechnic Institute of Beja, Street Pedro Soares – IPB Campus, 7800-295 Beja, PortugalPolytechnic Institute of Beja, Street Pedro Soares – IPB Campus, 7800-295 Beja, PortugalPolytechnic Institute of Beja, Street Pedro Soares – IPB Campus, 7800-295 Beja, PortugalDepart Sciences and Environmental Engineering, Faculty of Sciences and Technology, New University of Lisbon, 2829-516 Caparica, PortugalPolytechnic Institute of Beja, Street Pedro Soares – IPB Campus, 7800-295 Beja, PortugalAn urban wastewater treatment system was developed in Portugal for posterior in situ feasibility testing at the Bulgarian Antarctic Base, using its domestic wastewater. The aim of this system was the development of a low cost, integrated approach for wastewater treatment and production of nutrient solutions (NS) for hydroponic cultivation of lettuce (Lactuca sativa var. crispa) in Antarctic stations, or any other place where lack of resources and logistical hardships make wastewater treatment and reuse impractical. The wastewater treatment system consisted in manual agitation lime chemical precipitation (LCPm) and effluent natural neutralization (NN) by atmospheric CO2 carbonation reactions (with and without air injection). The resulting effluent/NS had macronutrient values (nitrogen and phosphorous) for the hydroponic cultivation of lettuce bellow the values of commercial NS and a high pH (pH ≈ 8). The treatment achieved a total coliform removal rate of 100%. Before the LCPm treatment system development several lime-based reagents, under different reaction pHs and using mechanical agitation, were tested to access their organic matter removal efficiency, as chemical oxygen demand (COD). The best results obtained were: commercial Ca(OH)2 (pH 11.5 - 89%), reagent grade Ca(OH)2 (pH 11.5 - 79%) and CaO (pH 12.0 - 64%).http://www.journalssystem.com/jeeng/MANUAL-TREATMENT-OF-URBAN-WASTEWATER-BY-CHEMICAL-PRECIPITATION-FOR-PRODUCTION-OF,118286,0,2.htmlurban wastewaterantarcticachemical precipitationco2 capturehydroponics
collection DOAJ
language English
format Article
sources DOAJ
author Tânia Correia
Mariana Regato
Adelaide Almeida
Teresa Santos
Leonor Amaral
Maria de Fátima Nunes Carvalho
spellingShingle Tânia Correia
Mariana Regato
Adelaide Almeida
Teresa Santos
Leonor Amaral
Maria de Fátima Nunes Carvalho
Manual Treatment of Urban Wastewater by Chemical Precipitation for Production of Hydroponic Nutrient Solutions
Journal of Ecological Engineering
urban wastewater
antarctica
chemical precipitation
co2 capture
hydroponics
author_facet Tânia Correia
Mariana Regato
Adelaide Almeida
Teresa Santos
Leonor Amaral
Maria de Fátima Nunes Carvalho
author_sort Tânia Correia
title Manual Treatment of Urban Wastewater by Chemical Precipitation for Production of Hydroponic Nutrient Solutions
title_short Manual Treatment of Urban Wastewater by Chemical Precipitation for Production of Hydroponic Nutrient Solutions
title_full Manual Treatment of Urban Wastewater by Chemical Precipitation for Production of Hydroponic Nutrient Solutions
title_fullStr Manual Treatment of Urban Wastewater by Chemical Precipitation for Production of Hydroponic Nutrient Solutions
title_full_unstemmed Manual Treatment of Urban Wastewater by Chemical Precipitation for Production of Hydroponic Nutrient Solutions
title_sort manual treatment of urban wastewater by chemical precipitation for production of hydroponic nutrient solutions
publisher Polish Society of Ecological Engineering (PTIE)
series Journal of Ecological Engineering
issn 2299-8993
publishDate 2020-04-01
description An urban wastewater treatment system was developed in Portugal for posterior in situ feasibility testing at the Bulgarian Antarctic Base, using its domestic wastewater. The aim of this system was the development of a low cost, integrated approach for wastewater treatment and production of nutrient solutions (NS) for hydroponic cultivation of lettuce (Lactuca sativa var. crispa) in Antarctic stations, or any other place where lack of resources and logistical hardships make wastewater treatment and reuse impractical. The wastewater treatment system consisted in manual agitation lime chemical precipitation (LCPm) and effluent natural neutralization (NN) by atmospheric CO2 carbonation reactions (with and without air injection). The resulting effluent/NS had macronutrient values (nitrogen and phosphorous) for the hydroponic cultivation of lettuce bellow the values of commercial NS and a high pH (pH ≈ 8). The treatment achieved a total coliform removal rate of 100%. Before the LCPm treatment system development several lime-based reagents, under different reaction pHs and using mechanical agitation, were tested to access their organic matter removal efficiency, as chemical oxygen demand (COD). The best results obtained were: commercial Ca(OH)2 (pH 11.5 - 89%), reagent grade Ca(OH)2 (pH 11.5 - 79%) and CaO (pH 12.0 - 64%).
topic urban wastewater
antarctica
chemical precipitation
co2 capture
hydroponics
url http://www.journalssystem.com/jeeng/MANUAL-TREATMENT-OF-URBAN-WASTEWATER-BY-CHEMICAL-PRECIPITATION-FOR-PRODUCTION-OF,118286,0,2.html
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