Methodology for Minimising the Utility Consumption of a 2G Ethanol Process
Bechara, R.
Gomez, A.
Saint-Antonin, V.
Albarelli, J.Q.
Ensinas, A.
Schweitzer, J.M.
Maréchal, F.
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How to Cite

Bechara R., Gomez A., Saint-Antonin V., Albarelli J., Ensinas A., Schweitzer J., Maréchal F., 2014, Methodology for Minimising the Utility Consumption of a 2G Ethanol Process, Chemical Engineering Transactions, 39, 91-96.
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Abstract

The production of ethanol from lignocellulosic biomass has gained increased interest in recent years, notably in the context of valorising agricultural by-products and providing fuels from renewable sources In order to increase their competitiveness, the energy demand of such processes needs to be minimised. This issue procures two benefits : (1) reduce utility consumption and (2) increase cogeneration possibility. In the present article we investigate this problem for a study process: ethanol production from sugarcane bagasse by enzymatic hydrolysis and glucose fermentation. We therefore apply a rigorous optimisation methodology in which we control certain design parameters in order to maximize the net production of utility. As a result, we obtain a design for our process which (1) eliminates the need for an external hot utility, (2) minimizes the need for the cold utility and (3) maximises the cogeneration possibility.
As a conclusion, the proposed methodology provides a strong tool for minimising the utility consumption for a 2G ethanol plant. Considering its key components, it can further be applied in the context of a multi-objective problem.
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