H.A. Pedrozo scite author profile

In this work, we propose a superstructure optimization approach for the optimal design of an ethylene and propylene coproduction plant. We formulate a superstructure that embeds ethane and propane steam cracking technologies, propane dehydrogenation and olefin metathesis processes. We represent the superstructure with a Generalized Disjunctive Programming model, and solve the problem through a custom implementation of the Logic-based Outer Approximation algorithm in GAMS. We propose a stateequipment-network representation to model potential distillation trains, as well as alternative acetylene reactor configurations. Rigorous models are formulated for distillation columns, compressors, turboexpanders, vessels and several process equipment units. The objective function is to maximize the net present value. We analyze four international price scenarios for raw material and utility costs, while considering global ethylene and propylene prices. We obtain the optimal scheme for each case. Numerical results show that the combination of ethane steam cracking, olefin metathesis and ethylene dimerization is the most profitable configuration under low ethane price scenarios, whereas the combination of ethane and propane steam cracking together with propane dehydrogenation is the optimal solution when the propane price is on the order of ethane price.

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Surrogate-model based MILP for the optimal design of ethylene production from shale gas

Pedrozo

Reartes

Chen

et al. 2020

Computers & Chemical Engineering

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H.A. Pedrozo

Simultaneous design of macroalgae-based integrated biorefineries and their heat exchanger network

Optimal design of ethylene and propylene coproduction plants with generalized disjunctive programming and state equipment network models

Surrogate-model based MILP for the optimal design of ethylene production from shale gas

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