Propagation of pollutants discharged by urban drainage overflows in natural streams in unsteady flow conditions

A. Paoletti, U. Sanfilippo, D. Sessa & I. Innocenti
The first aim of the paper is to present a new conceptual approach to simulate the propagation of dissolved pollutants in one-dimensional streams under unsteady flow conditions by means of the superimposition of effects. Such approach consists in the extension to the unsteady flow of an already existing so-called IUP approach, already set up and widely tested for steady flow. The reliability of such an extension to unsteady flow is validated comparing it with the...

2 Related Works

Propagation of pollutants discharged by urban drainage overflows in natural streams in unsteady flow conditions

A. Paoletti, U. Sanfilippo, D. Sessa & I. Innocenti
The first aim of the paper is to present a new conceptual approach to simulate the propagation of dissolved pollutants in one-dimensional streams under unsteady flow conditions by means of the superimposition of effects. Such approach consists in the extension to the unsteady flow of an already existing so-called IUP approach, already set up and widely tested for steady flow. The reliability of such an extension to unsteady flow is validated comparing it with the...

Propagation of pollutants discharged by urban drainage overflows in natural streams in unsteady flow conditions

A. Paoletti, U. Sanfilippo, D. Sessa & I. Innocenti
The first aim of the paper is to present a new conceptual approach to simulate the propagation of dissolved pollutants in one-dimensional streams under unsteady flow conditions by means of the superimposition of effects. Such approach consists in the extension to the unsteady flow of an already existing so-called IUP approach, already set up and widely tested for steady flow. The reliability of such an extension to unsteady flow is validated comparing it with the...

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