Abstract
In this paper, we study the potential of fractional derivatives to model air pollution. We introduce an M-fractional truncated derivative type for $$\alpha $$ -differentiable functions that generalizes other types of fractional derivatives. We denote this new differential operator by $$_{i}D_{\mathrm{M}}^{\alpha ,\beta }$$ , where the parameters $$\alpha $$ and $$\beta $$ , associated with the order of the derivative are such that $$0<\alpha <1$$ , $$\beta >1$$ and M is the notation to indicate that the function to be derived involves the truncated function of Mittag-Leffler with a parameter. The definition of this type of truncated M-fractional derivative satisfies the properties of the integer calculation. Based on this observation, we solved these models and we compared the solutions with the data obtained from the Copenhagen experiment. Fractional derivative models work much better than the traditional Gaussian model and the computed values are in good agreement with experimental ones.
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