Process Integration in Energy and Carbon Intensive Industries through Exploitation of Optimization Techniques and Decision Support
Porzio, G.F.
Colla, V.
Matarese, N.
Nastasi, G.
Branca, T.A.
Amato, A.
Fornai, B.
Vannucci, M.
Bergamasco, M.
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How to Cite

Porzio G., Colla V., Matarese N., Nastasi G., Branca T., Amato A., Fornai B., Vannucci M., Bergamasco M., 2013, Process Integration in Energy and Carbon Intensive Industries through Exploitation of Optimization Techniques and Decision Support, Chemical Engineering Transactions, 35, 193-198.
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Abstract

Process industries show an ever-increasing interest in reducing their environmental impact and energy consumption as well as maintaining an acceptable profit. This is particularly true for industries such as the steel one, which is among the highest energy consumers worldwide. Process modelling and optimization are techniques by which this problem can be effectively addressed, particularly if the overall system is optimised as a whole.
In this article we describe a model for a discrete dynamic optimization of the process gas network in an integrated steel plant. The main sub-plants are modelled in order to calculate mass and energy balances in different scenarios of operation. The scenarios are then exploited within a multi-objective optimization problem, where cost and CO2 emissions are simultaneously minimised. The optimization is carried out by exploitation of evolutionary algorithms that enable a flexible problem formulation and to effectively generate a set of different trade-off solutions. Application of the model to an industrial case study results in an interesting potential for reduction of CO2 emissions and costs.
The described optimisation model is embedded in a more general software tool to help the plant managers in their daily decision-making process.
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