Evaluation of Waste Water Treatment Units Located at Different Parts of Nepal

Lamichhane, Janardan; Upadhyaya, Bimal Babu; Chalise, Nishant; Makaju, S

doi:10.3126/njst.v12i0.6500

Cited by 4 publications

(3 citation statements)

References 11 publications

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“…It also corresponds to the highest concentrations of dominant ions which are the result of ion exchange and solubilization in the water Gautam et al (2013). The results are consistent with the findings of Rizvi et al (2015) and Jan and Rafiq (2012) that there is reduction in EC after treatment and is attributed to removal of salts-nitrates, ammonium, cations and associated chemicals (Lamichhane et al 2011).…”

Section: Resultssupporting

confidence: 87%

Study on the efficiency of sequential batch reactor (SBR)-based sewage treatment plant

Showkat

Najar²

2018

Appl Water Sci

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Section: Resultssupporting

confidence: 87%

Study on the efficiency of sequential batch reactor (SBR)-based sewage treatment plant

Showkat

Najar²

2018

Appl Water Sci

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“…During the present study, there was a decrease in orthophosphoric concentration from 650 to 503.56μg/l. Phosphorus removal mechanism in the treatment facilities is attributed to both biological and chemical treatment like assimilation, adsorption, and precipitation (Lamichhane et al, 2011).…”

Section: Discussionmentioning

confidence: 99%

Assessing the Performance of a Sewage Treatment Plant in Habbak, Srinagar: A Physicochemical Analysis

Jan¹,

Chashoo²,

Amin³

et al. 2022

J. Zoo Biol.

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A study was carried out to assess the physicochemical profile of one of the sewage treatment plants in the Habak region of Srinagar city. The water samples from the inlet and outlet of the plant were analyzed for various limnological parameters like temperature, dissolved oxygen, free carbon dioxide, alkalinity, calcium and magnesium hardness, orthophosphate etc. The average water temperature recorded at the outlet and inlet ranged between 16.56 to 18.03oC, free carbon dioxide between 50.06 to 78.03 mg/l, alkalinity between 328 to 389 mg/l, calcium hardness between 83.41 to 85.12 mg/l, magnesium hardness between 614.58 to 783.53 mg/l, orthophosphate between 503.56 to 650μg/l respectively. The dissolved oxygen content at the inlet was found to be zero during all times in the study while the average value at the outlet was found to be 5.2 mg/l. All the parameters were found to be non-significant except for water temperature, dissolved oxygen, and total hardness.

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“…The results obtained were according to the findings of Rizvi et al (2015). The removal in EC after treatment is due to the reduction in the concentration of salts-nitrates, ammonium, cations, and associated chemicals (Lamichhane et al, 2011;Jan and Rafiq, 2012).…”

Section: Efficiency Of Sbr-stpmentioning

confidence: 99%

Efficiency of Sequential Batch Reactor (SBR) based sewage treatment plant and its discharge impact on Dal Lake, Jammu & Kashmir, India

Ruhela

Wani

Ahamad

2020

Arch. Agric. Environ. Sci.

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Dal Lake is the second largest and most beautiful Lake in the state of Jammu and Kashmir and is the major centre of tourist activities. Due to the continuous increase in the population, the generation of domestic wastewater also increased. The present study was carried out to assess the efficiency of Sequential Batch Reactor (SBR) based Sewage Treatment Plant (STP) located at Brari Numbal and its discharge impact on the physicochemical properties of Dal Lake. The sample was collected from the selected sampling sites (inlet and outlet of SBR based STP, upstream, confluence zone, and downstream of Dal Lake) for five months (November 2019 to March 2020) and analysed using the standard methodologies. The plant shows maximum removal efficiency for BOD (79.85%) although the effluent BOD was found above the standard limit. The minimum removal efficiency of the plant was observed in the case of pH (3.46%). The gain in the case of DO was observed +851.55%. All the sites of Dal Lake were found polluted but the confluence zone and downstream were more polluted in comparison to the upstream due to the discharge of STP outlet into Dal Lake with higher BOD and COD (21.39% increase in BOD, 43.29% increase in COD; 80.10% increase in iron, 65.61% increase in ammonical nitrogen, and 101% increase in phosphate concentration). Besides this, discharge of the huge quantity of untreated wastewater from the city into the lake is also responsible for the degraded water quality of Dal Lake. It can be concluded that efficiency of the plant was in moderate condition and it needs further modifications. This is the first study showing the impact of SBR-STP effluent on Dal Lake.

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Evaluation of Waste Water Treatment Units Located at Different Parts of Nepal

Cited by 4 publications

References 11 publications

Study on the efficiency of sequential batch reactor (SBR)-based sewage treatment plant

Study on the efficiency of sequential batch reactor (SBR)-based sewage treatment plant

Assessing the Performance of a Sewage Treatment Plant in Habbak, Srinagar: A Physicochemical Analysis

Efficiency of Sequential Batch Reactor (SBR) based sewage treatment plant and its discharge impact on Dal Lake, Jammu & Kashmir, India

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