Hamed Olia scite author profile

The present review paper aims to document the latest developments on the applications of nanofluids as working fluid in parabolic trough collectors (PTCs). The influence of many factors such as nanoparticles and base fluid type as well as volume fraction and size of nanoparticles on the performance of PTCs has been investigated. The reviewed studies were mainly categorized into three different types of experimental, modeling (semi-analytical), and computational fluid dynamics (CFD). The main focus was to evaluate the effect of nanofluids on thermal efficiency, entropy generation, heat transfer coefficient enhancement, as well as pressure drop in PTCs. It was revealed that nanofluids not only enhance (in most of the cases) the thermal efficiency, convection heat transfer coefficient, and exergy efficiency of the system but also can decrease the entropy generation of the system. The only drawback in application of nanofluids in PTCs was found to be pressure drop increase that can be controlled by optimization in nanoparticles volume fraction and mass flow rate.

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Intra and damage analysis of laminated composites using coupled continuum damage mechanics with cohesive interface layer

Mohammadi

Olia

Hosseini‐Toudeshky

2015

Composite Structures

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Multiphase Flow-Related Defects in Continuous Casting of Steel Slabs

Cho

Liang

Olia

et al. 2020

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Modeling Air Aspiration in Steel Continuous Casting Slide-Gate Nozzles

Yang

Olia

Thomas

2021

Metals

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Air aspiration is an important cause of nozzle clogging and inclusions in final products of continuous casting of steel due to the presence of metal oxides (such as alumina) which occur through the reoxidation of molten steel. This problem is most likely to occur when the flow control system (slide-gate or stopper rod) causes the pressure inside the nozzle to drop below atmospheric pressure, drawing gas into the system through possible cracks or gaps in the refractory walls. In this work, a 1-D pressure-energy model of the complete metal delivery system from the tundish to the mold is developed to predict the pressure distribution and throughput under dynamic operating conditions and varying clogging conditions. The energy balance approach includes pressure losses in the slide-gate, wall friction, and nozzle geometry variations, including the effects of multiphase flow due to argon gas injection. The model also predicts air aspiration, oxide inclusion formation, and the time for clogging shutdown. The predicted pressure distribution is verified with a three-dimensional numerical simulation of multiphase turbulent flow, and is validated with plant measurements. Parametric studies with different submerged entry nozzle (SEN) designs revealed that a smaller SEN diameter may lessen negative pressure by redistributing the pressure loss from the slide-gate to the entire nozzle through increased friction losses. Under negative pressure, a submillimeter-thin gap was shown to cause considerable air aspiration. Clogging shutdown times were evaluated for several scenarios under static and dynamic operating conditions.

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Pressure Distribution and Flow Rate Behavior in Continuous-Casting Slide-Gate Systems: PFSG

Olia

Yang²,

Cho

et al. 2022

Metall Mater Trans B

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Dynamic Modeling of Unsteady Bulging in Continuous Casting of Steel

Chen

Olia

Petrus³

et al. 2019

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Design and operation of a two-phase flow research facility

Maeder¹,

Kestin²,

Dickinson³

et al. 1982

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Two-phase fluid flow through nozzles and abrupt enlargements

Olia¹,

Maeder²,

DiPippo³

et al. 1983

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Hamed Olia

Application of Nanofluids in Thermal Performance Enhancement of Parabolic Trough Solar Collector: State-of-the-Art

Intra and damage analysis of laminated composites using coupled continuum damage mechanics with cohesive interface layer

Multiphase Flow-Related Defects in Continuous Casting of Steel Slabs

Modeling Air Aspiration in Steel Continuous Casting Slide-Gate Nozzles

Pressure Distribution and Flow Rate Behavior in Continuous-Casting Slide-Gate Systems: PFSG

Dynamic Modeling of Unsteady Bulging in Continuous Casting of Steel

Design and operation of a two-phase flow research facility

Two-phase fluid flow through nozzles and abrupt enlargements

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