Refinement of predictive reaeration equations for a typical Indian river

Jha, Ramakar; Ojha, C. S. P.; Bhatia, Karamjit

doi:10.1002/hyp.177

Cited by 51 publications

(51 citation statements)

References 13 publications

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“…Several k 2 models have been proposed and their distinguishing factor has been their capacity to predict measured data with minimum error. This has been demonstrated through several publications on reaeration coefficient modeling (Streeter, Wright, & Kehr, 1936;O'Connor & Dobbins, 1958;Owens, Edwards, & Gibbs, 1964, Langbein & Dururn, 1967Bansal, 1973;Bennet, & Rathburn, 1972;Long, 1984;Baecheler & Lazo, 1999;Jha, Ojha, & Bhatia, 2001;Agunwamba, Maduka, & Ofosaren, 2007;Longe & Omole, 2008; beginning with the pioneering work of Streeter and Phelps (1925) where it was established that dissolved oxygen (DO) content of surface water bodies is used up in breaking down biological and chemical wastes. The quantity of oxygen that would be required to break down these wastes completely was described as biochemical oxygen demand (BOD).…”

Section: Introductionmentioning

confidence: 90%

“…Therefore, the current study, which may be the first of its kind, proposes a method that combines both statistical and visual inspection of graphs of multiple models using the same data sets. The selected models for this study are Atuwara , Streeter et al (1936) (which is also known as US Geological Survey equation), O'Connor & Dobbins (1958), Owens et al (1964), Langbein and Dururn (1967), Bansal (1973), Bennet and Rathburn (1972), Long (1984), Baecheler and Lazo (1999), Jha et al, (2001) and, Agunwamba et al (2007) model which was developed in southern Nigeria using data obtained during the wet season only ( Table 1). The Streeter et al (1936) model was selected because it is the first proposed k 2 model.…”

Section: Introductionmentioning

confidence: 99%

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Composite Goodness of Fit in Reaeration Coeffcient Modeling

Omole¹

2012

ENRR

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Determination of reaeration coefficient is an important factor in surface water quality modeling as it determines the efficiency of the Streeter-Phelps model used for predicting dissolved oxygen deficit of any stream. This study compared the efficiency of Atuwara model with ten other reaeration coefficients models by making use of three data sets obtained from river Atuwara during the prevalent wet and dry seasons using composite goodness of fit test which was developed by quantitatively combining statistical and graphical goodness of fit. The eleven tested models were ranked in order of performance. Results show that the four top ranking models were developed through a process that utilized data from multiple streams while models that were developed from data obtained from the test subject alone performed less competitively. The outcome of the study also suggests that the usual practice of selecting the best model based on statistical analysis alone does not necessarily yield the best result and therefore recommended the incorporation of quantitatively analyzed graphs. The paper concludes that selection of the best performing model among existing reaeration coefficient models using the composite goodness of fit may present a cheaper and better alternative to conventional model development approach.

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Section: Introductionmentioning

confidence: 90%

Section: Introductionmentioning

confidence: 99%

Composite Goodness of Fit in Reaeration Coeffcient Modeling

Omole¹

2012

ENRR

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“…In previous studies, chronic tests have primarily been conducted in pure water, while the present study was conducted in ponds where the toxicity of the added ammonium may be modulated by various ecosystem processes. The added ammonia may in part be lost by N 2 emission through nitrification-denitrification (Admiraal and Botermans, 1989;Mulholland et al, 2000;Peterson et al, 2001) and NH 3 volatilization (Young and Huryn, 1999;Jha et al, 2001;Passell et al, 2007). Ammonia may also be taken up by phytoplankton and later, in part, transferred to the sediment when phytoplankton dies or sinks.…”

Section: Toxicity Of Ammonia To Fish In Natural Environmentsmentioning

confidence: 99%

“…Thus, the toxicity of total ammonia increases as pH or temperature increases (USEPA, 2013), and pH is increasing with phytoplankton production, which, in turn, may be stimulated by higher loading of ammonia (Moss et al, 2013). However, aquatic ecosystems possess mechanisms reducing accumulation of ammonia: (1) uptake by aquatic algae and macrophytes as their nitrogen source (Mulholland et al, 2000;Peterson et al, 2001;Dodds et al, 2002), (2) transfer to sediments by adsorption on particulates (Rosenfeld, 1979;Mackin and Aller, 1984;Peterson et al, 2001), (3) emission to the atmosphere in the form of N 2 via nitrification-denitrification (Admiraal and Botermans, 1989;Chesterikoff et al, 1992;Mulholland et al, 2000;Peterson et al, 2001), and (4) NH 3 volatilization at the airwater interface (Young and Huryn, 1999;Jha et al, 2001;Hall and Tank, 2003;Passell et al, 2007). Accordingly, the organisms in natural lake ecosystems are often exposed lower ammonia concentrations than would be expected from the loading.…”

Section: Introductionmentioning

confidence: 99%

Effects of high ammonia concentrations on three cyprinid fish: Acute and whole-ecosystem chronic tests

Wang

Xiao

Wang

et al. 2017

Science of The Total Environment

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“…Another main process in the oxygen condition of streams is that of re-aeration (Moog & Jirka, 1998;Jha et al, 2001Jha et al, , 2004Jain & Jha, 2005), which is the uptake of oxygen across the water surface due to the turbulent motion of water and to molecular diffusion. This process reduces the "oxygen deficit" (D) of water, which is defined as the difference between saturation oxygen content and the actual dissolved oxygen level.…”

Section: Introductionmentioning

confidence: 99%

Critical appraisal of BOD and DO models applied to a highly polluted river in India

Jha¹,

Ojha

Bhatia³

2007

Hydrological Sciences Journal

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Most commonly used biochemical oxygen demand (BOD) and dissolved oxygen (DO) models have been tested for their applicability in the River Kali, which is one of the most polluted rivers in India. A total of 732 field data sets were generated during field survey from March 1999 to February 2000. The modelling of BOD and DO in the River Kali involves derivation and solution of the governing equations that describe concentration change with time and space brought on by advective, decay, settling and loading functions. However, due to continuous discharges (e.g. from wastewater treatment plants) and steady-state flow conditions in the River Kali, the dispersion effects are found to be insignificant. In the analysis, the model parameters used in BOD-DO models were optimized using the Newton-Raphson technique and the performance of different models was evaluated using correlation statistics (r 2 ) and error estimation, viz. standard error (SE) and mean multiplicative error (MME). The results indicate that the BOD-DO models developed after Camp (1963) yielded the best agreement with the observed values as compared with several other approaches. Mots clefs demande biochimique en oxygène (DBO

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Refinement of predictive reaeration equations for a typical Indian river

Cited by 51 publications

References 13 publications

Composite Goodness of Fit in Reaeration Coeffcient Modeling

Composite Goodness of Fit in Reaeration Coeffcient Modeling

Effects of high ammonia concentrations on three cyprinid fish: Acute and whole-ecosystem chronic tests

Critical appraisal of BOD and DO models applied to a highly polluted river in India

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