Development and Multiobjective Optimization of Improved Cumene Production Processes

Flegiel, Felix; Sharma, Shivom; Rangaiah, Gade Pandu

doi:10.1080/10426914.2014.967355

Cited by 26 publications

(28 citation statements)

References 14 publications

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“…Alternatively, in the bottom flash heat pump (BF) [19], the bottom liquid is cooled down by expansion over a throttle valve to a temperature below that of the condenser. Then, it is evaporated at the In mechanical heat pumps, several studies [19][20][21][22] show that VRC process seems to have better performance in economical view over the VC and BF processes but it depends on the electricity price [23] and on the temperature lift [24]. However, there is no unanimous thermodynamic reason to prefer VRC process [25].…”

Section: Introductionmentioning

confidence: 99%

Reducing process cost and CO2 emissions for extractive distillation by double-effect heat integration and mechanical heat pump

2016

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We study heat integration and mechanical heat pump processes for the extractive distillation. We propose a new objective function for optimizing heat integrated extractive distillation processes. We propose a novel partial heat integration process and two partial mechanical heat pump processes. The proposed optimal partial HI process gives the lowest TAC and the full BF process produces the lowest CO 2 emissions. The novel mechanical heat pump processes can effectively reduce initial investments and total annual cost.

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Section: Introductionmentioning

confidence: 99%

Reducing process cost and CO2 emissions for extractive distillation by double-effect heat integration and mechanical heat pump

2016

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“…The advantage of VRC and BF over VC is that a smaller heat transfer area and a lower temperature lift are used because the heat is exchanged only once. Several studies (Díez et al, 2009;Modla and Lang, 2013;Flegiel et al, 2015) show that VRC process seems to have better performance in economical view over the VC and BF processes but this depends on the electricity price and on the temperature lift (Chew et al, 2014;Reddy et al, 2014). However, there is no undisputed thermodynamic reason to prefer VRC process.…”

Section: Heat Pump Assisted Extractive Distillationmentioning

confidence: 99%

Review of extractive distillation. Process design, operation, optimization and control

Gerbaud

Rodríguez-Donis

Hégely

et al. 2019

Chemical Engineering Research and Design

190

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Operation and control Extractive distillation processes enable the separation of non-ideal mixtures, including minimum or maximum boiling azeotropes and low relative volatility mixtures. Unlike azeotropic distillation, the entrainer fed at another location than the main mixture induces an extractive section within the column. A general feasibility criterion shows that intermediate and light entrainers and heterogeneous entrainers are suitable along common heavy entrainers. Entrainer selection rules rely upon selectivity ratios and residue curve map (rcm) topology including univolatility curves. For each type of entrainer, we define extractive separation classes that summarize feasibility regions, achievable products and entrainer-feed flow rate ratio limits. Case studies are listed as Supplementary materials. Depending on the separation class, a direct or an indirect split column configuration will allow to obtain a distillate product or a bottom product, which is usually a saddle point of rcm. Batch and continuous process operations differ mainly by the feasible ranges for the entrainer-feed flow rate ratio and reflux ratio. The batch process is feasible under total reflux and can orient the still path by changing the reflux policy. Optimisation of the extractive process must systematically consider the extractive column along with the entrainer regeneration column that requires energy and may limit the product purity in the extractive column through recycle. For the sake of reducing the energy cost and the total cost, pressure change can be beneficial as it affects volatility, or new process structures can be devised, namely heat integrated extractive distillation, extractive divided wall column or processes with preconcentrator.

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“…Clearly, we can assume that all the intermediate quality functions values as well as are going to be minimized, so minimizing of have a chance to lead to a proper solution [5][6][7][8].…”

Section: Optimization Techniquesmentioning

confidence: 99%

A Methodology for Optimization in Multistage Industrial Processes: A Pilot Study

Jarosz

Kusiak

Małecki

et al. 2015

Mathematical Problems in Engineering

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The paper introduces a methodology for optimization in multistage industrial processes with multiple quality criteria. Two ways of formulation of optimization problem and four different approaches to solve the problem are considered. Proposed methodologies were tested first on a virtual process described by benchmark functions and next were applied in optimization of multistage lead refining process.

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Development and Multiobjective Optimization of Improved Cumene Production Processes

Cited by 26 publications

References 14 publications

Reducing process cost and CO2 emissions for extractive distillation by double-effect heat integration and mechanical heat pump

Reducing process cost and CO2 emissions for extractive distillation by double-effect heat integration and mechanical heat pump

Review of extractive distillation. Process design, operation, optimization and control

A Methodology for Optimization in Multistage Industrial Processes: A Pilot Study

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