Biochemical Oxygen Demand Modeling in Waste Stabilization Pond Model

Published
2024-03-13
Digital Object Identifier: 10.58578/ajstea.v2i2.2797
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  • Phoummixay Siharath National University of Laos, Lao PDR
  • Somchay Vilaychaleun National University of Laos, Lao PDR
  • Khampasith Thammathevo National University of Laos, Lao PDR
  • Soulyphan Kannitha National University of Laos, Lao PDR
  • Chankhachone Sonemanivong National University of Laos, Lao PDR
  • Phaiphana Siharath National University of Laos, Lao PDR
  • Sangkhom Singharaj National University of Laos, Lao PDR
  • Thongsalak Saktikoun National University of Laos, Lao PDR
  • Keoduangchai Keokhamphui National University of Laos, Lao PDR

Abstract

The objective of the study is to optimize the kinetic  reaction value and model the Biochemical Oxygen Demand (BOD5) on remaining and removal in the waste stabilization pond model, therefore, the waste stabilization pond system includes an anaerobic, facultative and maturation ponds, the study are employed the initial concentration of BOD5 (44.67±6.79 mg/l) from the wastewater sources at Huakhua village, Xaysettha District, Vientiane Capital, additionally, the evaluation are conducted in 3 hydraulic schemes that includes: plug flow, complete mix(single cell) and complete mixed (equal cells in series), consequently, according to the results found that: kinetic  reaction values is 0.49 d-1 and the coefficient of determination (R2) are 0.99, 0.95 and 0.98, respectively.

Keywords: Anaerobic; BOD5; Facultative; Kinetic Reaction; Maturation

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Siharath, P., Vilaychaleun, S., Thammathevo, K., Kannitha, S., Sonemanivong, C., Siharath, P., Singharaj, S., Saktikoun, T., & Keokhamphui, K. (2024). Biochemical Oxygen Demand Modeling in Waste Stabilization Pond Model. Asian Journal of Science, Technology, Engineering, and Art, 2(2), 280-293. https://doi.org/10.58578/ajstea.v2i2.2797
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Vol 2 No 2 (2024): Asian Journal of Science, Technology, Engineering, and Art
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