Optimisation of a combined Stirling cycle–organic Rankine cycle using a genetic algorithm

Seyed Saeed Bahari; Mohammad Sameti; Mohammad Hossein Ahmadi; Mohammad Sadegh Haghgooyan

doi:10.1080/01430750.2014.977497

Optimisation of a combined Stirling cycle–organic Rankine cycle using a genetic algorithm

Seyed Saeed Bahari
, Mohammad Sameti
, Mohammad Hossein Ahmadi
, Mohammad Sadegh Haghgooyan

Research output: Contribution to journal › Article › peer-review

Abstract

In a Stirling cycle a huge amount of energy is wasted due to the losses. This wasted energy may be utilised as a heat source for the boiler of an organic Rankine cycle (ORC). Combination of these two cycles leads to an increased cycle efficiency compared to a single Stirling cycle and the analysis and optimisation of the integrated system is carried out. Optimisation is performed using the genetic algorithm and considering three decision variables: the temperature of the cold tank of the Stirling cycle, the pressure ratio and the temperature of the ORC condenser. In optimisation, the efficiency is considered as the objective function and the highest value is achieved by adjusting the decision variables. Using this method, the efficiency of the overall combined cycle was improved in which the highest efficiency was obtained to be 41.5%.

Original language	English
Pages (from-to)	398-402
Number of pages	5
Journal	International Journal of Ambient Energy
Volume	37
Issue number	4
DOIs	https://doi.org/10.1080/01430750.2014.977497
Publication status	Published - 3 Jul 2016
Externally published	Yes

Keywords

efficiency
genetic algorithm
optimisation
ORC cycle
Stirling cycle

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10.1080/01430750.2014.977497

Cite this

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title = "Optimisation of a combined Stirling cycle–organic Rankine cycle using a genetic algorithm",

abstract = "In a Stirling cycle a huge amount of energy is wasted due to the losses. This wasted energy may be utilised as a heat source for the boiler of an organic Rankine cycle (ORC). Combination of these two cycles leads to an increased cycle efficiency compared to a single Stirling cycle and the analysis and optimisation of the integrated system is carried out. Optimisation is performed using the genetic algorithm and considering three decision variables: the temperature of the cold tank of the Stirling cycle, the pressure ratio and the temperature of the ORC condenser. In optimisation, the efficiency is considered as the objective function and the highest value is achieved by adjusting the decision variables. Using this method, the efficiency of the overall combined cycle was improved in which the highest efficiency was obtained to be 41.5\%.",

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author = "Bahari, \{Seyed Saeed\} and Mohammad Sameti and Ahmadi, \{Mohammad Hossein\} and Haghgooyan, \{Mohammad Sadegh\}",

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year = "2016",

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doi = "10.1080/01430750.2014.977497",

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T1 - Optimisation of a combined Stirling cycle–organic Rankine cycle using a genetic algorithm

AU - Bahari, Seyed Saeed

AU - Sameti, Mohammad

AU - Ahmadi, Mohammad Hossein

AU - Haghgooyan, Mohammad Sadegh

PY - 2016/7/3

Y1 - 2016/7/3

N2 - In a Stirling cycle a huge amount of energy is wasted due to the losses. This wasted energy may be utilised as a heat source for the boiler of an organic Rankine cycle (ORC). Combination of these two cycles leads to an increased cycle efficiency compared to a single Stirling cycle and the analysis and optimisation of the integrated system is carried out. Optimisation is performed using the genetic algorithm and considering three decision variables: the temperature of the cold tank of the Stirling cycle, the pressure ratio and the temperature of the ORC condenser. In optimisation, the efficiency is considered as the objective function and the highest value is achieved by adjusting the decision variables. Using this method, the efficiency of the overall combined cycle was improved in which the highest efficiency was obtained to be 41.5%.

AB - In a Stirling cycle a huge amount of energy is wasted due to the losses. This wasted energy may be utilised as a heat source for the boiler of an organic Rankine cycle (ORC). Combination of these two cycles leads to an increased cycle efficiency compared to a single Stirling cycle and the analysis and optimisation of the integrated system is carried out. Optimisation is performed using the genetic algorithm and considering three decision variables: the temperature of the cold tank of the Stirling cycle, the pressure ratio and the temperature of the ORC condenser. In optimisation, the efficiency is considered as the objective function and the highest value is achieved by adjusting the decision variables. Using this method, the efficiency of the overall combined cycle was improved in which the highest efficiency was obtained to be 41.5%.

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KW - optimisation

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KW - Stirling cycle

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M3 - Article

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JO - International Journal of Ambient Energy

JF - International Journal of Ambient Energy

IS - 4

ER -

Optimisation of a combined Stirling cycle–organic Rankine cycle using a genetic algorithm

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Keywords

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