Iterative Real-Time Optimization Scheme for Optimal Operation of Chemical Processes under Uncertainty: Proof of Concept in a Miniplant

Hernández, Reinaldo; Dreimann, Jens M.; Vorholt, Andreas J.; Behr, Arno; Engell, Sebastian

doi:10.1021/acs.iecr.8b00615

Cited by 19 publications

(9 citation statements)

References 66 publications

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“…The hydroformylation of 1-dodecene with synthesis gas is a reaction network, which was analyzed in detail in the DFG collaborative research center/Transregio 63 InPROMPT (see, e.g., refs − ). In contrast to standard hydroformylation processes with short-chain alkenes, it is not possible to dissolve the long-chain alkene 1-dodecene in a polar solvent to get the nonpolar reactant and the polar catalyst system into contact because of the large polarity difference.…”

Section: Case Studymentioning

confidence: 99%

Surrogate Modeling of Fugacity Coefficients Using Adaptive Sampling

Nentwich

Winz

Engell

2019

Ind. Eng. Chem. Res.

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Complex thermodynamic models such as the perturbed chain statistical associating fluid theory (PC-SAFT) model describe the phase equilibria in a chemical process in a very precise way; however, because of their implicit and complex nature, the application of such models in process simulation and optimization can lead to a high computational effort, which may prevent the direct application of such models in process simulation and optimization. In this contribution, we replace the iterative calculation of the fugacity coefficient using PC-SAFT with explicit surrogate models that are trained using a novel adaptive sampling method.

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Section: Case Studymentioning

confidence: 99%

Surrogate Modeling of Fugacity Coefficients Using Adaptive Sampling

Nentwich

Winz

Engell

2019

Ind. Eng. Chem. Res.

Self Cite

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“…While petrochemical and refining industries have accepted RTO in the past few years, its application to different chemical processes is still limited. To overcome this, Hernandez et al 22 proposed an RTO scheme applicable to a complex catalyzed process showing operational improvements despite modeling errors. A recent application on the bioethanol production showed that the use of closed-loop dynamic RTO in the ethanol distillation process can improve the profitability of this product as an environmentally friendly fuel 23 .…”

Section: Introductionmentioning

confidence: 99%

“…21 While petrochemical and refining industries have accepted RTO in the past few years, its application to different chemical processes is still limited. To overcome this, Hernandez et al 22 proposed an RTO scheme applicable to a complex catalyzed process showing operational improvements despite modeling errors.…”

Section: Introductionmentioning

confidence: 99%

Optimally Managing Chemical Plant Operations: An Example Oriented by Industry 4.0 Paradigms

Vaccari

Capaci

Brunazzi

et al. 2021

Ind. Eng. Chem. Res.

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Updating industrial facilities in order to increase the level of automation and digitalization to match Industry 4.0 paradigms has become essential for many companies. Following such trend, this paper presents a Real-Time Optimization (RTO) algorithm that plays a central role in a larger project framework devoted to highly interconnect different network components of an Italian chemical industrial site. The proposed methodology aims at best managing the production rates of various products in order to fulfill a sales plan organized to satisfy numerous client requests. The considered model takes into account both batch and continuous processes, as well as salable and non-storable products. The algorithm structure relies on the use of a non-linear optimization scheme and on the concepts of batch scheduling. Different features of the proposed methodology have been tested on real plant data showing how the predicted forecast always improved the initial operation plan, by considering both aspects of feasibility and † A preliminary version of this work has been presented in Vaccari et al. 1 . 1 economic nature. The use of the proposed algorithm assures the basis for fully integrating the control systems and the selling department of the facility in a more interactive and responsive manner.

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“…In this context, real-time optimization (RTO) appears as an adequate approach to adapt the operation to the current environment and aims. RTO makes use of a rigorous stationary model of the process to compute the operation conditions that optimize a predefined performance index, for example, minimization of the operating costs, maximization of product yields, or minimization of waste [8]. There are many examples in the literature of the benefits of using an RTO tool to facilitate the decision-making process [9][10][11][12].…”

Section: Introductionmentioning

confidence: 99%

“…EC ev X ev,p ≤ EC ev,p ≤ EC ev X ev,p ∀ev ∈ E V, ∀p ∈ P (8) where EC ev and EC ev state the minimum and maximum evaporation load for a plant to operate correctly. With X ev,p we assure that EC ev,p take zero value for the products not linked to plant ev.…”

mentioning

confidence: 99%

Integrated Process Re-Design with Operation in the Digital Era: Illustration through an Industrial Case Study

2021

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This work discusses what should be the desirable path and correct tools for the optimal re-design and operation of processes in the Industry 4.0 framework, as illustrated in a challenging case study corresponding to a complex network of evaporation plants in a viscose-fiber factory. The goal is to integrate optimal design, to improve the existing cooling systems, together with the optimal operation of the whole network, balancing the initial investment with the potentially achievable savings. A rigorous mathematical model for such optimization purpose has been built. The model explicitly considers different structural alternatives as a superstructure for the incorporation of new equipment into the network. The uncertainty associated to future operating conditions is also considered by using a two-stage stochastic formulation. Furthermore, the model is also the base from which a deterministic real-time optimization (RTO) builds upon to support the daily management of the future network operation. The RTO tool suggests the allocation of different products to evaporation plants, the distribution of the cooling water and the suitable number of heat pumps to switch on for optimal economic operation. Design and operation problems are formulated and solved via mixed-integer non-linear programming and the results have been tested with historical plant data.

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Iterative Real-Time Optimization Scheme for Optimal Operation of Chemical Processes under Uncertainty: Proof of Concept in a Miniplant

Cited by 19 publications

References 66 publications

Surrogate Modeling of Fugacity Coefficients Using Adaptive Sampling

Surrogate Modeling of Fugacity Coefficients Using Adaptive Sampling

Optimally Managing Chemical Plant Operations: An Example Oriented by Industry 4.0 Paradigms

Integrated Process Re-Design with Operation in the Digital Era: Illustration through an Industrial Case Study

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