Outer approximation algorithm with physical domain reduction for computer‐aided molecular and separation process design

Gopinath, Smitha; Jackson, George; Galindo, Amparo; Adjiman, Claire S.

doi:10.1002/aic.15411

Cited by 50 publications

(34 citation statements)

References 62 publications

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“…For example, Buxton et al [19] proposed iteratively solving two subproblems: one to identify process conditions and the other to determine molecular structures. A new approach from Gopinath et al [60] uses the outer approximation algorithm [37] to treat the product/process design problems as two subproblems. In this approach, one subproblem solved the process problem for a fixed molecule and the other determined another candidate molecule.…”

Section: Decomposition In Integrated Product/process Designmentioning

confidence: 99%

Computer-aided molecular design: An introduction and review of tools, applications, and solution techniques

Austin

Sahinidis

Trahan

2016

Chemical Engineering Research and Design

171

110

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This article provides an introduction to and review of the field of computer-aided molecular design (CAMD). It is intended to be approachable for the absolute beginner as well as useful to the seasoned CAMD practitioner. We begin by discussing various quantitative structure-property relationships (QSPRs) which have been demonstrated to work well with CAMD problems. The methods discussed in this article are (1) group contribution methods, (2) topological indices, and (3) signature descriptors. Next, we present general optimization formulations for various forms of the CAMD problem. Common design constraints are discussed and structural feasibility constraints are provided for the three types of QSPRs addressed. We then detail useful techniques for approaching CAMD optimization problems, including decomposition methods, heuristic approaches, and mathematical programming strategies. Finally, we discuss many applications that have been addressed using CAMD.

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Section: Decomposition In Integrated Product/process Designmentioning

confidence: 99%

Computer-aided molecular design: An introduction and review of tools, applications, and solution techniques

Austin

Sahinidis

Trahan

2016

Chemical Engineering Research and Design

171

110

View full text Add to dashboard Cite

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“…The methods reviewed can be so computationally expensive that their application may not be practical. However, efficient algorithms for the application of group contribution methods are being developed [12]. Methods based on quantum calculations have been able to find best solvent candidates that minimise energy requirements by up to 63% [13] .…”

Section: From Molecules To Process Flowsheetsmentioning

confidence: 99%

Trends in sustainable process design—from molecular to global scales

Martínez-Hernández

2017

Current Opinion in Chemical Engineering

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Sustainability issues are changing the nature of process design problems and methods. • Design boundaries have expanded down towards molecular level and up to global scales. • Methods and decision support frameworks address multidimensionality and multiscale. • Explicit consideration of ecosystems has shown recent advancements. • Tools capturing the full range of scales and interactions are yet to be developed.

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“…14 The discrete molecular structure makes the integrated design problem a challenging mixedinteger nonlinear programming (MINLP) problem (for a recent review see Papadopoulos et al 1 ). In literature, frameworks for integrated design based on CAMD have been developed, for example, for the design of working fluids for ORCs, [15][16][17][18][19][20][21][22][23] refrigerants for heat pumps, 24,25 mixtures, 25,26 solvents for absorption processes, [27][28][29][30][31][32][33] extraction processes, 34,35 or reactions. 36 Methods for the integrated design of processes and molecules usually consider a fixed predefined process flowsheet configuration.…”

Section: Introductionmentioning

confidence: 99%

Integrating superstructure‐based design of molecules, processes, and flowsheets

2020

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The key to many chemical and energy conversion processes is the choice of the right molecule, for example, used as working fluid. However, the choice of the molecule is inherently coupled to the choice of the right process flowsheet. In this work, we integrate superstructure‐based flowsheet design into the design of processes and molecules. The thermodynamic properties of the molecule are modeled by the PC‐SAFT equation of state. Computer‐aided molecular design enables considering the molecular structure as degree of freedom in the process optimization. To consider the process flowsheet as additional degree of freedom, a superstructure of the process is used. The method results in the optimal molecule, process, and flowsheet. We demonstrate the method for the design of an organic Rankine cycle considering flowsheet options for regeneration, reheating, and turbine bleeding. The presented method provides a user‐friendly tool to solve the integrated design problem of processes, molecules, and process flowsheets.

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Outer approximation algorithm with physical domain reduction for computer‐aided molecular and separation process design

Cited by 50 publications

References 62 publications

Computer-aided molecular design: An introduction and review of tools, applications, and solution techniques

Computer-aided molecular design: An introduction and review of tools, applications, and solution techniques

Trends in sustainable process design—from molecular to global scales

Integrating superstructure‐based design of molecules, processes, and flowsheets

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