Thermodynamic analysis in the design of process networks

Flower, J.R.; Linnhoff, B.

doi:10.1016/0098-1354(79)80047-2

Cited by 37 publications

(8 citation statements)

References 6 publications

(30 reference statements)

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“…The GCC is developed in accordance with the algorithm established by Flower and Linnhoff . The method involves shifting the hot composite curve along the temperature axis by 0.5ΔT min and that of the cold composite curve by 0.5ΔT min .…”

Section: Resultsmentioning

confidence: 99%

Toward an environmentally sustainable natural gas‐based ethylene production process through exergy‐aided pinch analysis

Ghannadzadeh

Sadeqzadeh

2018

Asia-Pacific J Chem Eng

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This paper presents a case study on improving the energy integration of a gasbased ethylene process by focusing on major sources of thermal exergy losses.Exergy analysis is used to find the main sources of thermal exergetic inefficiency. Thermal solutions are then developed, leading to a comprehensive list of cold and hot process streams that could potentially reduce exergy losses from these sources. Pinch analysis is then carried out to screen these streams so only those, which can minimize the energy requirement, are maintained.Besides this, pinch analysis is used to select utilities and to explore cogeneration potential. Thus, the methodology used in this paper takes advantage of both exergy and pinch analyses, in a way that all the possible thermal solutions supported by exergy analysis are considered, preventing exclusion of any hot or cold process stream with high potential for heat integration during pinch analysis.

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Section: Resultsmentioning

confidence: 99%

Toward an environmentally sustainable natural gas‐based ethylene production process through exergy‐aided pinch analysis

Ghannadzadeh

Sadeqzadeh

2018

Asia-Pacific J Chem Eng

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“…EIPs. The study shows that modeling methods are typically based on tools developed to optimize processes including the pinch analysis (Flower and Linnhoff, 1979) and mixed integer linear programming (MILP).…”

Section: Methods To Evaluate Effects Of Uncertainty In Eipsmentioning

confidence: 99%

Design Optimization for Sustainable Products Under Users' Preference Changes

Afshari

Peng

2016

Journal of Computing and Information Science in Engineering

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Decisions made in the early design phase enormously contribute to the performance of a product during its life cycle. Since users' preferences may change over time, a product design should be revised under the preference change. Providing accurate data for designers ensures an optimal decision for product design; this research presents a new method to assess effects of the quantified changes on product cost and development time. In addition, two models to optimize design under unexpected disturbances are proposed. Normally, optimal parameters require several search iterations in design process before finalizing a product. The design time in terms of number of iterations can be reduced by adding resources in each iteration using modern control engineering methods. However, adding resources will increase the design cost. The proposed method in this research minimizes the total product design cost and environmental impacts under changes of users' preferences. The method is validated using an example of the smartphone design. The research novelty is a method of applying quantified changes of external disturbances (such as changes in users' preferences) in the design process, addressing a real problem in industry, and proposing optimal models of products for reduced cost and environmental impacts.

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“…One of the fundamental methods of process systems optimization is pinch analysis, originally developed by Flower and Linnhoff [56], which has become a mainstay of process design. The basic notion of pinch analysis is that ideal targets for a set of process streams can be established using a graphical representation and then a network design can be chosen or developed which approaches or meets that target [57].…”

Section: Energy and Heat Systemsmentioning

confidence: 99%