Techno-economic, environmental and emergy analysis and optimization of integrated solar parabolic trough collector and multi effect distillation systems with a combined cycle power plant

Manesh, Mohammad Hasan Khoshgoftar; Aghdam, Meysam Hajizadeh; Modabber, Hossein Vazini; Ghasemi, Amir; Talkhoncheh, Mahdi Khajeh

doi:10.1016/j.energy.2021.122499

Cited by 29 publications

(7 citation statements)

References 20 publications

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“…The rate of cost pertaining to the equipment is denoted as Z ̇ and can be determined through the utilization of eq . Ż = φ · C E · normalC normalR normalF 3600 · N where φ represents the maintenance factor of the equipment, with a value of 1.06 eq .…”

Section: Methodsmentioning

confidence: 99%

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5E Analyses of the Cogeneration System Based on Mass Integration Driven by Low-Temperature Waste Heat

Yang,

Li,

et al. 2023

ACS Sustainable Chem. Eng.

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Section: Methodsmentioning

confidence: 99%

“…CRF 3600 E (10) where φ represents the maintenance factor of the equipment, with a value of 1.06. 26 C E denoting the cost of purchasing the equipment ($), which can be computed using eq 20. N corresponds to the annual operational duration of the system (h), which is valued at 8000.…”

Section: = Mmentioning

confidence: 99%

5E Analyses of the Cogeneration System Based on Mass Integration Driven by Low-Temperature Waste Heat

Yang,

Li,

et al. 2023

ACS Sustainable Chem. Eng.

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“…Moreover, renewable energy-driven desalination processes offer simplified operation and energy diversification, particularly in remote areas, where the setup of a conventional (fossil fuel-dependent) energy supply is cumbersome. , In this context, solar energy has emerged as a potential candidate to run the MED process, especially in coastal regions where solar irradiation is abundant. In recent times, a handful of studies are reported based on solar energy, including both thermal − and photovoltaic methods, − integrated into MED systems. However, the prevalence of solar-assisted desalination processes is very limited, and it corresponds to less than 1% of desalinated water .…”

Section: Introductionmentioning

confidence: 99%

A Carbon-Neutral Highly Productive Solar-Powered Desalination Process: Improving Economic Performance with Carbon Pricing

Mukherjee,

Mondal,

Jana

2024

Ind. Eng. Chem. Res.

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This work proposes a carbon-neutral desalination process. For this, at first a rigorous theoretical framework for multieffect desalination coupled with a thermal vapor compressor (MED-TVC) is developed to validate with the data set of a plant operated in Libya and to show the outperformance over an existing model. A mechanical vapor compressor (MVC) is proposed to integrate with MED, and the hot brine and distillate withdrawn from that MED are employed for feed preheating. A multiobjective genetic algorithm -based optimizer is formulated with three conflicting objectives, namely, productivity, CO 2 emission, and production cost that includes carbon tax. The proposed MED-MVC outperforms MED-TVC in terms of all of those performance metrics. Subsequently, we move to transform this MED-MVC process to a carbon-neutral unit by introducing solar energy to generate makeup steam and electricity. This innovative sustainable zeroemission desalination process secures higher productivity at a lower cost than the existing MED-TVC plant scenario.

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“…In this direction, solar powered desalination has gained significant research attention in recent years . A few studies have reported dealing with solar thermal method, − solar photovoltaic method, − among others. − In these studies, there are two major issues identified: first, solar energy is not a consistently available energy source, and second, the freshwater production cost increases with the retrofitting of equipment to harness solar power. Although the freshwater production cost in solar powered MED exceeds that in the conventional plant, the environmental benefits offer a potential offset .…”

Section: Introductionmentioning

confidence: 99%

Solar-Driven Thermal and Mechanical Vapor Compressor Integrated Desalination System: Zero Emission, High Yield, and Cost Reduction

Mukherjee,

Jana

2024

ACS Sustainable Chem. Eng.

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Water scarcity has become one of the top risks, along with global warming, primarily caused by increasing energy usage. The problem of desalinating water that is a highly energy intensive process gets intensified due to its complex water-energy nexus. Our key objective is to break this nexus by introducing a hybrid solar-thermal multieffect desalination system. More specifically, to unlock the thermodynamic limitation and acquire the benefits of both the thermal (TVC) and mechanical vapor compressor (MVC), an attempt is made to hybridize them for integration with the multieffect distillation (MED) that consequently enhances the yield of water. Ensuring globally optimal performance of this hybrid MED-TVC-MVC configuration, it is proposed to further integrate with a solar cell with the aim of achieving carbon neutrality at the cost of increased capital investment. Imposing a carbon tax is inevitable, and with adding this, we finally explore the techno-economic feasibility of the sustainable solar MED-TVC-MVC. This novel desalination system secures zero carbon emission with reduced freshwater production cost (FWPC) and enhanced recovery ratio with respect to the real-time MED-TVC plant.

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Techno-economic, environmental and emergy analysis and optimization of integrated solar parabolic trough collector and multi effect distillation systems with a combined cycle power plant

Cited by 29 publications

References 20 publications

5E Analyses of the Cogeneration System Based on Mass Integration Driven by Low-Temperature Waste Heat

5E Analyses of the Cogeneration System Based on Mass Integration Driven by Low-Temperature Waste Heat

A Carbon-Neutral Highly Productive Solar-Powered Desalination Process: Improving Economic Performance with Carbon Pricing

Solar-Driven Thermal and Mechanical Vapor Compressor Integrated Desalination System: Zero Emission, High Yield, and Cost Reduction

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