Mathematical Modeling of Effluent Quality of Cha-Am Municipality Wastewater Treatment Pond System Using PCSWMM

Bhowmick, A. N.; Irvine, Kim N.; Jindal, Ranjna

doi:10.14796/jwmm.c423

Cited by 6 publications

(7 citation statements)

References 16 publications

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“…The model can also help to evaluate future expansion of the sewer network by analyzing available capacity and identifying locations for new drainage construction to offset new development. The next step in this research will be to link the collection system with the ALTS system that has been modelled separately in PCSWMM [10] and explore the impact of future development scenarios on treatment efficiency.…”

Section: Discussionmentioning

confidence: 99%

Mathematical Modelling of Wastewater Collection System in Cha-Am Municipality using PCSWMM

Htun¹,

Irvine²,

Jindal³

2017

IJAAEE

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Abstract-This study aimed at modelling the wastewater collection system in Cha-Am Municipality using PCSWMM to investigate the quantity of combined sewage delivered to the aeration lagoon treatment system (ALTS). Cha-Am is a small sea resort town in Petchaburi Province located about 175 km southwest of Bangkok and is facing increasing development so it is important to understand current system performance and plan for future build out. PCSWMM was calibrated using observed ALTS inflow data for the period 15 June to 20 July 2015. The model was validated using observed ALTS inflow data for the periods 19 July to 20 October 2015 and 1 October to 31 December 2015, respectively. The 1:1 lines between modeled and observed peak flow and event volume for the calibration events qualitatively showed good correspondence. The r 2 values between modeled and observed peak flow (99%) and event volume (89%) also were strong.

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Section: Discussionmentioning

confidence: 99%

Mathematical Modelling of Wastewater Collection System in Cha-Am Municipality using PCSWMM

Htun¹,

Irvine²,

Jindal³

2017

IJAAEE

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“…SWMM is included in the BASINS and is publicly available. Two widely used proprietary software packages derived from SWMM are PCSWMM (Bhowmick et al, 2017) and XP-SWMM (Ricks, 2015), which have additional graphic user interface functions and capabilities.…”

Section: Swmmmentioning

confidence: 99%

Integrated Environmental Modelling Framework for Cumulative Effects Assessment

Gupta¹,

Farjad²,

Wang³

et al. 2021

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The artwork on the cover of this book is not open access and falls under traditional copyright provisions; it cannot be reproduced in any way without written permission of the artists and their agents. The cover can be displayed as a complete cover image for the purposes of publicizing this work, but the artwork cannot be extracted from the context of the cover of this specific work without breaching the artist's copyright.

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“…The aerated lagoon treatment system consists of four ponds: an aeration pond, a settling pond, an extended aeration pond, and an evaporation pond, which is part of the original wetland system in the area. Bhowmick et al (2017) provide more detail on pond configuration and operation, but briefly the surface area and depths of each pond were: aeration pond (Pond 1): surface area 40 082 m 2 , depth 2.5 m-2.8 m; settling pond (Pond 2): surface area 16 452 m 2 , depth 2.3 m-2.5 m; extended aeration pond (Pond 3): surface area 48 522 m 2 , depth 1.7-1.8 m; and evaporation pond (Pond 4): surface area 323 612 m 2 , depth 2.0 m-2.3 m.…”

Section: Study Area and Data Collectionmentioning

confidence: 99%

“…Past studies (e.g. But et al 2016;Bhowmick et al 2017;Koko et al 2017) have examined the water quality and the efficiency of the pond system in managing conventional wastewater parameters such as chemical oxygen demand (COD), total suspended solids (TSS), total Kjeldahl nitrogen (TKN), E. coli and dissolved oxygen, but to date no evaluations have assessed levels of metals in the ponds. The objectives of this study were therefore: to examine the spatial variation of metals levels, longitudinally, from the ponds on through the receiving river channel system, to the ocean; to compare metal levels in the ponds to those in the upper reach of the receiving river to assess the pond system as a source area; and to compare metal levels in the ponds and river with sediment quality guidelines to provide a first indication of environmental risk.…”

Section: Introductionmentioning

confidence: 99%

Spatial Patterns of Heavy Metals in the Sediments of a Municipal Wastewater Treatment Pond System and Receiving Waterbody, Cha am, Thailand

Andreas

Irvine

Jindal

et al. 2019

JWMM

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Cha am, a popular beach destination in Thailand, uses an aerated lagoon system with four ponds in series to treat its municipal wastewater. This study investigated the spatial pattern of heavy metal concentrations in the sediment deposited at the bottom of the four ponds and along the river receiving the treated wastewater discharge. Using a stratified random sampling scheme, between 11 and 14 surface grab samples were collected from each of the four ponds on two different dates in September and October 2016 (94 samples in total). An additional 17 samples were collected in December 2016 along the 1.8 km river section connecting the ponds to the ocean. A Bruker S1 Titan 600 X-ray fluorescence (XRF) analyser was used to determine metal concentrations in the air dried sediment samples. Ordinary kriging in ArcGIS10.1 indicated that while metal concentrations were greater in the middle areas of each pond, from pond to pond the metal concentrations exhibited different spatial trends. The ponds provide treatment for most of the metals analysed, with Student t-tests showing that mean concentrations of arsenic, chlorine and zinc decreased significantly from the first pond to the third pond but increased significantly in the fourth pond. Chromium concentration changed insignificantly between ponds; lead concentration decreased significantly from the first to the second pond, but there were insignificant changes in mean lead concentration thereafter. Concentrations of cadmium, cobalt, mercury and selenium were below the XRF limit of detection, but the mean levels of arsenic, chromium, copper, lead and manganese in each of the four ponds frequently exceeded Ontario Ministry of the Environment and Climate Change lowest effect level (LEL) guidelines for sediment. Metal levels in the upper reach of the river, closest to the pond discharge, were similar to the pond levels and generally decreased downstream. With the exception of zinc, metal levels detected in the river sediment frequently exceeded the LEL guidelines.

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Mathematical Modeling of Effluent Quality of Cha-Am Municipality Wastewater Treatment Pond System Using PCSWMM

Cited by 6 publications

References 16 publications

Mathematical Modelling of Wastewater Collection System in Cha-Am Municipality using PCSWMM

Mathematical Modelling of Wastewater Collection System in Cha-Am Municipality using PCSWMM

Integrated Environmental Modelling Framework for Cumulative Effects Assessment

Spatial Patterns of Heavy Metals in the Sediments of a Municipal Wastewater Treatment Pond System and Receiving Waterbody, Cha am, Thailand

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