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Computational Ecology and Software, 2022, 12(4): 195-213
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Article

Comparative study and prediction of ambient air quality of Durgapur Industrial Belt, West Bengal using time series forecast model

S. Sarkar, S. Sanyal, M. Chakrabarty
PG Department of Conservation Biology, Durgapur Government College, Jawahar Lal Nehru Avenue, Durgapur-713214, India

Received 6 June 2022;Accepted 15 July 2022;Published online 2 August 2022;Published 1 December 2022
IAEES

Abstract
Time series predictive forecast models can be used to monitor air levels and study, trends in ambient air quality. In this study, we have collected the data of Oxides of Sulphur (SO_x), Suspended Particulate Matter (SPM₁₀), and Oxides of Nitrogen (NO_x) in Bidhannagar, Durgapur Industrial Belt, West Bengal from the West Bengal Pollution Control Board (2007-2019). The data was analysed both season-wise and month-wise to nullify the irregularity of the data obtained.Time series model can be established only using regular data. The study mainly focused on the comparision between month-wise and season-wise models, in order to identifya prediction model that provides best predictions. The forecast was performed using the seasonal autoregressive integrated moving average (SARIMA) model. The results confirmed that among all forecast models of SARIMA (P, D, Q) (p, d, q) the season-wise model provide best predictions. Graphs indicated a higher concentration of SPM₁₀ and NO_x in the winter. The season-wise model for SPM₁₀ (1,0,0)(0,1,1) showed significant higher trends but similar season-wise forecast model for NO_x (1,0,0)(0,1,1) showed a decreasing trend. The levels of SPM₁₀ is predicted to show an increasing trend in next four years whereas NO_x level is predicted to remain low for the next four years. The seasonal prediction models can be used in understanding the trend in ambient air quality in Durgapur Industrial Belt and facilitate in taking necessary steps to combat the prevailing environmental conditions.

Keywords air pollution;oxides of nitrogen;oxides of sulphur;suspended particulate matter;SARIMA;forecast.

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