K.M. Wagialla scite author profile

This article addresses the problem of in-plant pollution prevention for processes with multiple streams, containing pollutants and environmentally undesirable properties through mass exchange networks (MEN). In-plant interception is used to adjust the concentrations and properties of the wastewater streams. A pinch-based disjunctiveoptimization approach is adopted. The determination of the pinch point (being the most constrained thermodynamic and practical operating condition) is critical for determination of optimum design conditions. The selection of the appropriate mass separating agent(s) (MSAs) is based on thermodynamic and economic considerations. A screening procedure modeled through mathematical programming is developed with disjunctive constraints to screen alternatives and invoke the proper models when a certain technology is to be utilized. A case study is solved to illustrate the proposed approach.

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Modeling and Simulation of Energy Storage in Fluidized Beds Using the Two-Phase Model

Wagialla

Fakeeha

Elnashaie

et al. 1991

Energy Sources

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K.M. Wagialla

Fluidized-bed reactor for methanol synthesis. A theoretical investigation

Bifurcation and complex dynamics in fixed-bed catalytic reactors

Modelling and simulation of 1,2-dichloroethane production by ethylene oxychlorination in fluidized-bed reactor

An integrated approach to the optimization of in-plant wastewater interception with mass and property constraints

Modeling and Simulation of Energy Storage in Fluidized Beds Using the Two-Phase Model

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