A comprehensive review on the exergy analysis of combined cycle power plants

Ibrahim, Thamir K.; Kamil, Mohammed; Awad, Omar I.; Abdalla, Ahmed N.; Basrawi, Firdaus; Mohammed, Marwah Noori; Najafi, Gholamhassan; Mamat, Rizalman

doi:10.1016/j.rser.2018.03.072

Cited by 97 publications

(48 citation statements)

References 165 publications

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“…In energy and exergy analyses of CCPPs and its components, several researchers obtained the same conclusions about elements which have the highest losses from both (energy and exergy) aspect. The highest energy losses in CCPP of any kind can be found in steam condenser [9,10], while the highest exergy losses occur in gas turbine combustion chambers [9][10][11]. These conclusions are confirmed by several researchers and for CCPPs of different size, power output and configuration, so it can be concluded that they are valid in general.…”

Section: Introductionsupporting

confidence: 61%

Genetic Algorithm Approach to Design of Multi-Layer Perceptron for Combined Cycle Power Plant Electrical Power Output Estimation

et al. 2019

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In this paper a genetic algorithm (GA) approach to design of multi-layer perceptron (MLP) for combined cycle power plant power output estimation is presented. Dataset used in this research is a part of publicly available UCI Machine Learning Repository and it consists of 9568 data points (power plant operating regimes) that is divided on training dataset that consists of 7500 data points and testing dataset containing 2068 data points. Presented research was performed with aim of increasing regression performances of MLP in comparison to ones available in the literature by utilizing heuristic algorithm. The GA described in this paper is performed by using mutation and crossover procedures. These procedures are utilized for design of 20 different chromosomes in 50 different generations. MLP configurations that are designed with GA implementation are validated by using Bland - Altman (B-A) analysis. By utilizing GA, MLP with five hidden layers of 80,25,65,75 and 80 nodes, respectively, is designed. For aforementioned MLP, k - fold cross-validation is performed in order to examine its generalization performances. The Root Mean Square Error ( R M S E ) value achieved with aforementioned MLP is 4.305 , that is significantly lower in comparison with MLP presented in available literature, but still higher than several complex algorithms such as KStar and tree based algorithms.

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Section: Introductionsupporting

confidence: 61%

Genetic Algorithm Approach to Design of Multi-Layer Perceptron for Combined Cycle Power Plant Electrical Power Output Estimation

et al. 2019

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“…This can be reached by increasing the thermal efficiency of the applied cycle and/or by increasing the efficiency of its individual components. In the case of the most recent and most technologically advanced large steam power plants, the efficiencies of their machinery and equipment are very high and we cannot expect that they can be further significantly increased [23][24][25][26][27][28]. For instance, the maximal efficiency of boilers ranges within 92-95%, high-pressure turbines 88-94%, medium-pressure turbines 90-97%, low-pressure turbines 88-95%, electric current generators 98.5-99%, and water pumps-about 85%.…”

Section: Problem Posingmentioning

confidence: 99%

Thermodynamic Cycle Concepts for High-Efficiency Power Plans. Part A: Public Power Plants 60+

et al. 2019

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An analysis was carried out for different thermodynamic cycles of power plants with air turbines. Variants with regeneration and different cogeneration systems were considered. In the paper, we propose a new modification of a gas turbine cycle with the combustion chamber at the turbine outlet. A special air by-pass system of the combustor was applied and, in this way, the efficiency of the turbine cycle was increased by a few points. The proposed cycle equipped with a regenerator can provide higher efficiency than a classical gas turbine cycle with a regenerator. The best arrangements of combined air–steam cycles achieved very high values for overall cycle efficiency—that is, higher than 60%. An increase in efficiency to such degree would decrease fuel consumption, contribute to the mitigation of carbon dioxide emissions, and strengthen the sustainability of the region served by the power plant. This increase in efficiency might also contribute to the economic resilience of the area.

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“…The mechanism of heat transfer enhancement of internally ribbed tubes depends on the stream reattachment and separation by ribs . The experimental studies demonstrate that ribs with multiple heads provide heat transfer of fluid by a helical stream in various heads ribbed tubes . The enhancement can be imputed to the reduction of the thermal boundary layers thickness on the wall …”

Section: Introductionmentioning

confidence: 98%

Experimental and numerical study of forced convection heat transfer in different internally ribbed tubes configuration using TiO₂ nanofluid

Kumait

Ibrahim

Abdullah

2019

Heat Trans. Asian Res.

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A comprehensive review on the exergy analysis of combined cycle power plants

Cited by 97 publications

References 165 publications

Genetic Algorithm Approach to Design of Multi-Layer Perceptron for Combined Cycle Power Plant Electrical Power Output Estimation

Genetic Algorithm Approach to Design of Multi-Layer Perceptron for Combined Cycle Power Plant Electrical Power Output Estimation

Thermodynamic Cycle Concepts for High-Efficiency Power Plans. Part A: Public Power Plants 60+

Experimental and numerical study of forced convection heat transfer in different internally ribbed tubes configuration using TiO₂ nanofluid

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A comprehensive review on the exergy analysis of combined cycle power plants

Cited by 97 publications

References 165 publications

Genetic Algorithm Approach to Design of Multi-Layer Perceptron for Combined Cycle Power Plant Electrical Power Output Estimation

Genetic Algorithm Approach to Design of Multi-Layer Perceptron for Combined Cycle Power Plant Electrical Power Output Estimation

Thermodynamic Cycle Concepts for High-Efficiency Power Plans. Part A: Public Power Plants 60+

Experimental and numerical study of forced convection heat transfer in different internally ribbed tubes configuration using TiO2 nanofluid

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Experimental and numerical study of forced convection heat transfer in different internally ribbed tubes configuration using TiO₂ nanofluid