Heat transfer to a stationary cubic particle in a laminar tube flow: Computational fluid dynamics simulations and experiments

Ibrahim, Mohd Tarmizan; Zacharias, Jörg; Briesen, Heiko; Först, Petra

doi:10.1016/j.jfoodeng.2019.109833

Cited by 2 publications

(2 citation statements)

References 19 publications

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“…PSE research at molecular level fall under the guise of “computer‐aided molecular design” (CAMD), which optimizes chemical synthesis using molecular properties. Application of NDDMs in CAMD includes: solvent selection, 108–110 design of molecules, 88,111,112 property predictions, 113–115 and fluid dynamics 116,117 . At the process level, process intensification (PI) is the all‐encompassing topic that covers every aspect of chemical operations.…”

Section: Process Systems Engineeringmentioning

confidence: 99%

“…Application of NDDMs in CAMD includes: solvent selection, [108][109][110] design of molecules, 88,111,112 property predictions, [113][114][115] and fluid dynamics. 116,117 At the process level, process intensification (PI) is the allencompassing topic that covers every aspect of chemical operations. PI seeks to reduce the cost of energy consumption, operation expenditure, and cycle time by improving industrial processes.…”

Section: Model-based Process Systems Engineeringmentioning

confidence: 99%

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Model‐based systems engineering approaches to chemicals and materials manufacturing

Le,

Feingold,

Glandorf

et al. 2023

AIChE Journal

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Model‐based systems engineering (MBSE) is part of a long‐term trend toward model‐centric approaches adopted by many engineering disciplines. We establish the need of an MBSE approach by reviewing the importance, complexity, and vulnerability of the U.S. chemical supply chains. We discuss the origins, work processes, modeling approaches, and supporting tools of the systems engineering discipline (SE) and discuss limitations of the Process Systems Engineering (PSE) framework. We make the case for MBSE as a more generalizable approach. We introduce systems modeling strategies for MBSE, and a novel MBSE method that supports the automation tailored and extended to support the analysis of chemical supply chains. We demonstrate a specific use case of this method by creating a systems model for the manufacturing of an active pharmaceutical ingredient, Atropine. We conclude with a prospectus on developmental opportunities for extracting greater benefit from MBSE in the design and management of chemical supply chains.

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Section: Process Systems Engineeringmentioning

confidence: 99%

Section: Model-based Process Systems Engineeringmentioning

confidence: 99%

Model‐based systems engineering approaches to chemicals and materials manufacturing

Le,

Feingold,

Glandorf

et al. 2023

AIChE Journal

View full text Add to dashboard Cite

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Intensification of cooling fluid process

Slavyanskiy

Семенов

Babakin

et al. 2020

Foods and Raw Materials

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A number of sectors in the food industry practice cooling substances of biological origin. This contributes to the maintenance of their biological properties, as well as prevents microflora growth in the product. One of the ways to intensify production processes and maintain the quality of raw materials and finished products is their accelerated cooling with the help of low-energy cooling equipment. The use of physical bodies cooled to low temperatures is a promising way to accelerate liquid cooling. We used balls with frozen eutectic solution. In our research, the problem of cooling a liquid system is formulated and solved within the framework of classical linear boundary value problem for the equation of a stationary convective heat transfer. In the area of the actual values of the process parameters on the study object, the solution obtained is used as the basis for numerical experiment on the modelling of the cooling liquid flow with the cooling agent system, namely balls filled with eutectic solution. By calculation, the efficiency of the proposed method for cooling liquid was justified based on such factors as temperature, the number of balls in a two-phase liquid system, and the duration of low-temperature treatment. The presented results of the numerical experiment complied with real heat transfer processes during liquid cooling.

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Heat transfer to a stationary cubic particle in a laminar tube flow: Computational fluid dynamics simulations and experiments

Cited by 2 publications

References 19 publications

Model‐based systems engineering approaches to chemicals and materials manufacturing

Model‐based systems engineering approaches to chemicals and materials manufacturing

Intensification of cooling fluid process

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