2019
DOI: 10.3390/en12071315
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A Holistic Methodology for Optimizing Industrial Resource Efficiency

Abstract: Efficient consumption of energy and material resources, including water, is the primary focus for process industries to reduce their environmental impact. The Conference of Parties in Paris (COP21) highlighted the prominent role of industrial energy efficiency in combating climate change by reducing greenhouse gas emissions. Consumption of energy and material resources, especially water, are strongly interconnected and, therefore, must be treated simultaneously using a holistic approach to identify optimal sol… Show more

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Cited by 13 publications
(13 citation statements)
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“…The problem was solved using a novel decomposition algorithm with integer cuts. Similarly, Kermani et al developed a holistic and generic method, which solves heat and mass integration, heat exchanger network design and improves the industrial processes by organic Rankine cycle integration [20]. The method proposed in this work is based on a PI method [21], which introduces location aspects, such as heat losses and piping costs between plants.…”
Section: State-of-the-artmentioning
confidence: 99%
“…The problem was solved using a novel decomposition algorithm with integer cuts. Similarly, Kermani et al developed a holistic and generic method, which solves heat and mass integration, heat exchanger network design and improves the industrial processes by organic Rankine cycle integration [20]. The method proposed in this work is based on a PI method [21], which introduces location aspects, such as heat losses and piping costs between plants.…”
Section: State-of-the-artmentioning
confidence: 99%
“…where, F k is the heat capacity flow rate of stream k and f k,I l is the heat capacity flow rate of stream k towards the inlet of heat exchanger of match (k, l)/(l, k) in the superstructure of stream k. (15) Mass balance at the mixer preceding a heat exchanger of stream k ∈ HCS:…”
Section: Mass and Energy Balances In Non-water Streams Superstructurementioning
confidence: 99%
“…1. providing systematic holistic methodologies addressing non-water processes [10][11][12][13], thermal utilities [10,14,15], and other energy conversion and heat recovery technologies [15], 2. considering multi-period operations and uncertainty analysis of HIWANs addressing variations of operating conditions, 3. proposing Multi-Criteria Decision Making (MCDM) tools addressing conflicting set of objectives and providing a set of optimal solutions to guide decision-makers in selecting the most appropriate configuration(s) [15], and 4. proposing efficient solution strategies to address the increasing difficulty of solving large-scale cases [16,17].…”
Section: Introductionmentioning
confidence: 99%
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