Energy and exergy analysis for stationary solar collectors using nanofluids: A review

Eltaweel, Mahmoud; Abdel‐Rehim, Ahmed A.

doi:10.1002/er.6107

Cited by 22 publications

(12 citation statements)

References 148 publications

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“…The solar concentrators are broadly classified into two categories depending upon their movement; that is, stationary collectors and sun tracking collectors. The stationary and tracking solar collectors are further classified depending upon their application as described in Figure 16 53,57,58 …”

Section: Design Development and Performance Evaluation Of Csp‐dssmentioning

confidence: 99%

A review study on mathematical modeling of solar parabolic d ish‐Stirling system used for electricity generation

et al. 2021

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Summary The intensity of the solar radiations falling on the earth surface ranges between 5 and 7.5 kWh/m2/day. For the non‐directed solar thermal application, higher intensity level is required. The Concentrating Solar Power (CSP) technology incorporating reflecting mirrors reinforces the solar radiations with high intensity. It is suitable for various applications; that is, space heating, space cooling, and cooking, steam, and power generation without any polluted emissions. Meanwhile, among the various CSP technologies, the Concentrating Solar Parabolic Dish Stirling engine System (CSP‐DSS) has got attention of the research community due to its various attractive features. The output power and efficiency of the CSP‐DSS depend upon their geometrical, optical, and operating parameters. It is therefore, necessary to mathematically investigate the influence of these parameters on system performance before its design and installation. In the existing literature reported, only some specific parameters of the CSP‐DSS have been focused and considered to investigate the system performance. To the best of author's knowledge, no literature has been found to provide the mathematical modeling of all the system parameters in a single manuscript to study and investigate their influence on the system performance. Hence, this review article aims to compile, expansively review and organize the systematical mathematical modeling for all optical, geometrical, and operating parameters of the CSP‐DSS along with the system design methodology. Likewise, the effects of these parameters on the system output power and efficiency under various operating conditions have been investigated. In addition, comprehensive study of CSP‐DSS components along with their classification have been painstakingly discussed to determine optimal system configuration. Finally, the latest review study in the field of CSP‐DSS have been deeply and comprehensively discussed. This review study concludes that, the kinematic gamma type Stirling engine coupled with Permanent Magnet DC generator (PMDC) and Azimuth‐Altitude Dual Axis Tracker (AADAT) could be the better CSP‐DSS design and configuration in context of the standalone off‐grid electricity generation system.

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Section: Design Development and Performance Evaluation Of Csp‐dssmentioning

confidence: 99%

A review study on mathematical modeling of solar parabolic d ish‐Stirling system used for electricity generation

et al. 2021

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“…As a result, the FPSC's thermal efficiency is improved. The large surface area to volume ratio of nanoparticles in the nanofluids is their main advantage [10]. When it comes to the thermal performance of solar collector systems, increasing heat transfer, reducing pressure drops, optimising the ratio of heat transfer to the pressure drop, and reducing costs are crucial criteria for judging designs.…”

Section: Introductionmentioning

confidence: 99%

Thermodynamic Analysis of a Flat Plate Solar Collector with Different Hybrid Nanofluids as Working Medium—A Thermal Modelling Approach

et al. 2023

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In this study, the performance of hybrid nanofluids in a flat plate solar collector was analysed based on various parameters such as entropy generation, exergy efficiency, heat transfer enhancement, pumping power, and pressure drop. Five different base fluids were used, including water, ethylene glycol, methanol, radiator coolant, and engine oil, to make five types of hybrids nanofluids containing suspended CuO and MWCNT nanoparticles. The nanofluids were evaluated at nanoparticle volume fractions ranging from 1% to 3% and flow rates of 1 to 3.5 L/min. The analytical results revealed that the CuO-MWCNT/water nanofluid performed the best in reducing entropy generation at both volume fractions and volume flow rate when compared to the other nanofluids studied. Although CuO-MWCNT/methanol showed better heat transfer coefficients than CuO-MWCNT/water, it generated more entropy and had lower exergy efficiency. The CuO-MWCNT/water nanofluid not only had higher exergy efficiency and thermal performance but also showed promising results in reducing entropy generation.

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“…In recent decades, the utilization of nanofluids as thermal medium has garnered great interest due to their excellent thermal properties. These nanofluids are expected to produce a more efficient heat transfer to meet the growing need for saving energy [1,2]. Nanofluids are essentially conventional heat transfer fluids which contain solid nanoparticles of high intrinsic thermal conductivity [3].…”

Section: Introductionmentioning

confidence: 99%

Comparison of heat transfer performance of water-based graphene nanoplatelet- and multi-walled carbon nanotube-nanofluids in a concentric tube heat exchanger

Dayou¹,

Wei²,

Vigolo

2022

Diamond and Related Materials

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Energy and exergy analysis for stationary solar collectors using nanofluids: A review

Cited by 22 publications

References 148 publications

A review study on mathematical modeling of solar parabolic d ish‐Stirling system used for electricity generation

A review study on mathematical modeling of solar parabolic d ish‐Stirling system used for electricity generation

Thermodynamic Analysis of a Flat Plate Solar Collector with Different Hybrid Nanofluids as Working Medium—A Thermal Modelling Approach

Comparison of heat transfer performance of water-based graphene nanoplatelet- and multi-walled carbon nanotube-nanofluids in a concentric tube heat exchanger

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