Separate management of anthropogenic nutrient solutions (human urine)

Anthropogenic Nutrient Solution (ANS, Urine) adds about 75% of the nitrogen and 50% of the phosphorus to domestic wastewater. It is proposed to collect ANS at the source and release it sequentially, so that it arrives all at the same time at the treatment plant where it could be treated separately. The proposed system would have many advantages relative to the conventional technology. A stepwise transition from the conventional to the proposed technology would slowly improve system performance.

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Mineral Composition of Lettuce Grown in Hydroponic System With Wastewater

Journal of Agricultural Science ◽

10.5539/jas.v10n7p317 ◽

2018 ◽

Vol 10 (7) ◽

pp. 317

Author(s):

Josilda de França Xavier ◽

Carlos Alberto Vieira de Azevedo ◽

Marcia Rejane de Q. A. Azevedo ◽

José Emídio de Albuquerque Junior ◽

João Paulo de Oliveira Simões

Keyword(s):

Mineral Composition ◽

Nutrient Solution ◽

Domestic Wastewater ◽

Mineral Fertilizers ◽

Well Water ◽

Hydroponic System ◽

Treated Effluents ◽

Nutrient Solutions

The use of treated effluents is not a new practice in agriculture, however, the optimization of wastewater was given with mineral fertilizers to grow lettuce in a hydroponic system, subject that is still barely studied. The objective of this study was to evaluate the mineral composition of three lettuce cultivars (Verônica, Vanda and Thais) in a hydroponic system using wastewater, well water and optimized nutrient solutions. The plants was grown in seven nutrient solutions, as S1 = Furlani solution; S2 = domestic wastewater; S3 = optimized domestic wastewater; S4 = well water; S5 = optimized well water; S6 = wastewater UASB and S7 = optimized UASB wastewater and the sub-plot for three lettuce cultivars. It was verified that the treatments S2, S4 and S6 when compared with the respective optimized solutions S3, S5 and S7 presented lower levels of nitrogen, potassium, calcium, zinc, copper and manganese in the two experiments. Same behavior was not observed for phosphorus and sodium. As for the cultivars, they presented, regardless of the experiment, mineral composition similar to each other when the same nutrient solution was used.

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PERFORMANCE EVALUATION OF A SEWAGE TREATMENT PLANT (STP) (300 KLD CAPACITY) FOR THE TREATMENT OF DOMESTIC WASTEWATER AT THE RAJARAJESWARI MEDICAL COLLEGE AND HOSPITAL (RRMCH)

i-manager’s Journal on Civil Engineering ◽

10.26634/jce.9.1.14421 ◽

2019 ◽

Vol 9 (1) ◽

pp. 47

Author(s):

BABITHA ◽

M. C NETHRAVATHI ◽

SHRUTI ◽

◽

...

Keyword(s):

Performance Evaluation ◽

Sewage Treatment ◽

Sewage Treatment Plant ◽

Treatment Plant ◽

Domestic Wastewater ◽

Medical College

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NITROGEN NUTRITION OF CITRUS NURSERY STOCK IN PINE BARK SUBSTRATES.

HortScience ◽

10.21273/hortsci.25.9.1161f ◽

1990 ◽

Vol 25 (9) ◽

pp. 1161f-1161

Author(s):

John D. Lea-Cox ◽

Irwin E. Smith

Keyword(s):

Nutrient Solution ◽

Nitrogen Nutrition ◽

Dry Mass ◽

Pine Bark ◽

Growing Period ◽

Rough Lemon ◽

Nursery Stock ◽

Citrus Rootstock ◽

Cleopatra Mandarin ◽

Nutrient Solutions

Pine bark is utilized as a substrate in citrus nurseries in South Africa. The Nitrogen (N) content of pine bark is inherently low, and due to the volubility of N, must be supplied on a continual basis to ensure optimum growth rates of young citrus nursery stock. Three citrus rootstock (rough lemon, carrizo citrange and cleopatra mandarin) showed no difference in stem diameter or total dry mass (TDM) when supplied N at concentrations between 25 and 200 mg ·l-1 N in the nutrient solution over a 12 month growing period. Free leaf arginine increased when N was supplied at 400 mg·l-1 N. The form of N affected the growth of rough lemon. High NH4-N:NO3-N (75:25) ratios decreased TDM when Sulfur (S) was absent from the nutrient solution, but not if S was present. Free arginine increased in leaves at high NH4-N (No S) ratios, but not at high NH4-N (S supplied) ratios. Free leaf arginine was correlated with free leaf ammonia. These results have important implications for reducing the concentration of N in nutrient solutions used in citrus nurseries and may indicate that higher NH4-N ratios can be used when adequate S is also supplied.

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A Batch Activated Sludge Study of Pineapple Wastewater Using a Bioaugmentation Process

Water Science & Technology ◽

10.2166/wst.1991.0129 ◽

1991 ◽

Vol 24 (5) ◽

pp. 233-240 ◽

Cited By ~ 3

Author(s):

Nik Fuaad Nik Abllah ◽

Aik Heng Lee

Keyword(s):

Activated Sludge ◽

Removal Efficiency ◽

Treatment Plant ◽

Domestic Wastewater ◽

Ammonia Nitrogen ◽

Batch Reactors ◽

Organic Loading ◽

Suitable Alternative ◽

Organic Removal ◽

Sludge Production

A laboratory study was conducted to determine the feasibility of batch activated sludge reactor for treating pineapple wastewater and to examine the effects of bioaugmentation on treatment performance. The experimental set-up consists of eleven batch reactors. Activated sludge obtained from a wastewater treatment plant treating domestic wastewater was used as seed for the reactors. Synthetic pineapple wastewater was used as feed for the reactors. The eleven reactors were arranged to evaluate the total organic removal, nitrification, and sludge production by bioaugmentation process. Three major factors considered were influent organic loading, ammonia-nitrogen, and dosage of bacterial-culture-product addition. Removal of TOG (total organic carbon), sludge production in terms of SS(suspended solids), and ammonia-nitrogen removal variation are used as evaluation parameters. The TOC removal efficiency after the end of a 48 hour reactor run, for influent TOC of 350.14 to 363.30 mg/l, and 145.92 to 169.66 mg/l, was 94.41 to 95.89%, and 93.72 to 94.73% respectively. Higher organic removal was observed in the bioaugmented reactors with higher organic loading. The better organic removal efficiency in the bioaugmented reactors was probably due to activities of bacteria added. The test results also indicated that sludge yield was enhanced by the bacteria additive and high bacteria dosage produced less sludge. Bioaugmentation was observed to be a suitable alternative for enhancing the biological treatment of pineapple wastewater.

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Small Activated Sludge Performance and Viability Characteristics under Intermittent and Reduced Flows

Water Science & Technology ◽

10.2166/wst.1993.0248 ◽

1993 ◽

Vol 28 (10) ◽

pp. 309-316

Author(s):

Bilsen Beler Baykal

Keyword(s):

Activated Sludge ◽

System Performance ◽

Treatment Plant ◽

Generation Model ◽

Transient States ◽

Stepwise Manner ◽

Seasonal Basis ◽

Soluble Substrate ◽

House Site ◽

Activated Sludge Systems

Small activated sludge systems operate in transient states under intermittent and variable flows. Simulations for such a treatment plant in a summer house site operating on a seasonal basis is investigated for system performance and viability using the five component inert soluble substrate generation model. The results have revealed that the viability drops to zero within the first month after the cessation of the feed for intermittently loaded systems that are fed during the summer months, while it never reaches that value for systems operating all year round with reduced flows off season. Restartup is compulsory for the intermittent loadings while the system adapts itself in a stepwise manner for the year round operation. Other factors being comparable, conventional operation with shorter sludge ages may be preferable since viability of the sludge is higher and the effluent COD is comparable.

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Effects of Leachate Fertigation and the Addition of Hydrogen Peroxide on Growth and Nutrient Balance in Dracaena deremensis Potted Plants

Agronomy ◽

10.3390/agronomy11010127 ◽

2021 ◽

Vol 11 (1) ◽

pp. 127

Author(s):

Pedro García-Caparrós ◽

Cristina Velasquez Espino ◽

María Teresa Lao

Keyword(s):

Nutrient Solution ◽

Soluble Sugar ◽

Nutrient Balance ◽

Treatment Plant ◽

Dry Weight ◽

Sugar Concentration ◽

Control Treatment ◽

Peat Moss ◽

Clear Trend ◽

Total Soluble Sugar

The reuse of drainages for cultivating more salt tolerant crops can be a useful tool especially in arid regions, where there are severe problems for crops water management. Dracaena deremensis L. plants were cultured in pots with sphagnum peat-moss and were subjected to three fertigation treatments for 8 weeks: control treatment or standard nutrient solution (D0), raw leachates from Chrysalidocarpus lutescens H. Wendl plants (DL) and the same leachate blending with H2O2 (1.2 M) at 1% (v/v) (DL + H2O2). After harvesting, ornamental and biomass parameters, leaf and root proline and total soluble sugar concentration and nutrient balance were assessed in each fertigation treatment. Plant height, leaf and total dry weight had the highest values in plants fertigated with leachates with H2O2, whereas root length, leaf number, RGB values and pigment concentration declined significantly in plants fertigated with leachates from C. lutescens with or without H2O2. The fertigation with leachates, regardless of the presence or absence of H2O2 increased root and leaf proline concentration. Nevertheless, root and leaf total soluble sugar concentration did not show a clear trend under the treatments assessed. Regarding nutrient balance, the addition of H2O2 in the leachate resulted in an increase in plant nutrient uptake and efficiency compared to the control treatment. The fertigation with leachates with or without H2O2 increased nitrogen and potassium leached per plant compared to plants fertigated with the standard nutrient solution. The reuse of drainages is a viable option to produce ornamental plants reducing the problematic associated with the water consumption and the release of nutrients into the environment.

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Silicon attenuates calcium deficiency by increasing ascorbic acid content, growth and quality of cabbage leaves

Scientific Reports ◽

10.1038/s41598-020-80934-6 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Dalila Lopes da Silva ◽

Renato de Mello Prado ◽

Luis Felipe Lata Tenesaca ◽

José Lucas Farias da Silva ◽

Ben-Hur Mattiuz

Keyword(s):

Ascorbic Acid ◽

Nutrient Solution ◽

Acid Content ◽

Dry Matter ◽

Ascorbic Acid Content ◽

Calcium Deficiency ◽

Ca Deficiency ◽

Leaf Water Loss ◽

Nutrient Solutions

AbstractCalcium (Ca) deficiency in cabbage plants induces oxidative damage, hampering growth and decreasing quality, however, it is hypothesized that silicon (Si) added to the nutrient solution may alleviate crop losses. Therefore, this study aims at evaluating whether silicon supplied in the nutrient solution reduces, in fact, the calcium deficiency effects on cabbage plants. In a greenhouse, cabbage plants were grown using nutrient solutions with Ca sufficiency and Ca deficiency (5 mM) without and with added silicon (2.5 mM), arranged as a 2 × 2 factorial in randomized blocks, with five replications. At 91 days after transplanting, the plants were harvested for biological evaluations. In the treatment without added Si, Ca deficiency promoted oxidative stress, low antioxidant content, decreased dry matter, and lower quality leaf. On the other hand, added Si attenuated Ca deficiency in cabbage by decreasing cell extravasation while increasing both ascorbic acid content and fresh and dry matter, providing firmer leaves due to diminished leaf water loss after harvesting. We highlighted the agronomic importance of Si added to the nutrient solution, especially in crops at risk of Ca deficiency.

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Simultaneous removal of BOD, N and P in a single continuous flow real scale activated sludge reactor with cyclic aeration

Water Practice & Technology ◽

10.2166/wpt.2020.012 ◽

2020 ◽

Vol 15 (1) ◽

pp. 201-212

Author(s):

Álvaro Orozco-Jaramillo ◽

Santiago Vélez-Velásquez

Keyword(s):

Continuous Flow ◽

Treatment Plant ◽

Domestic Wastewater ◽

Aeration Tank ◽

Domestic Wastewater Treatment ◽

Stable Conditions ◽

Activated Sludge Reactor ◽

Anoxic Environment ◽

Real Scale ◽

Composite Samples

Abstract The present study evaluates the performance of a real scale domestic wastewater treatment plant (WWTP), operating under continuous flow conditions with ‘extremely high sludge age’, designed to remove organic matter and perform nitrification-denitrification within a single reactor under cyclic aeration. Composite samples were withdrawn from the reactor for one week and their analysis results compared satisfactorily with the calculations of the design models. The WWTP is operating under stable conditions with a BOD5 removal of 86%, COD removal of 87%, TKN removal of 73% and, unexpectedly, a stable removal of 55% of total phosphorus. The design of the WWTP is simple and consists of a single aeration tank with a kinetic selector and a secondary sedimentation tank, operating under cyclic conditions in the aeration tank, with 45-minute aeration on (oxic environment) and 15 minutes aeration off (anoxic environment). The system can be applied to upgrade WWTP from secondary to tertiary treatment with only small modifications. A phosphorus removal mechanism is also proposed.

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