Entropy and heat transfer investigation of Casson–Maxwell, Casson–Jeffrey, and Casson–Oldroyd-B binary nanofluids in a parabolic trough solar collector: a comparative study

Raafat, Philopatir B.; Ibrahim, F.N.

doi:10.1007/s10973-023-12003-9

Cited by 18 publications

(2 citation statements)

References 60 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…As a result, many fluid models have been created to accurately characterise the properties of non-Newtonian materials. In a parabolic trough solar collector, Casson-Maxwell, Casson-Jeffrey, and Casson-Oldroyd-B binary nanofluids were compared with engine oil by Raafat and Ibrahim [18]. With the appropriate similarity variables, the partial differential equations controlling the flow of nanofluids were converted into ordinary differential equations to solve the model.…”

Section: Introductionmentioning

confidence: 99%

Importance of Activation Energy on Magnetized Dissipative Casson‐Maxwell Fluid through Porous Medium Incorporating Chemical Reaction, Joule Heating, and Soret Effects: Numerical Study

Althobaiti

2024

Journal of Applied Mathematics

View full text Add to dashboard Cite

In recent decades, the study of non-Newtonian fluids has attracted the interest of numerous researchers. Their study is encouraged by the significance of these fluids in fields including industrial implementations. Furthermore, the importance of heat and mass transfer is greatly increased by a variety of scientific and engineering processes, including air conditioning, crop damage, refrigeration, equipment power collectors, and heat exchangers. The key objective of this work is to use the mathematical representation of a chemically reactive Casson-Maxwell fluid over a stretched sheet circumstance. Arrhenius activation energy and aspects of the magnetic field also have a role. In addition, the consequences of both viscous dissipation, Joule heating, and nonlinear thermal radiation are considered. The method transforms partial differential equations originating in fluidic systems into nonlinear differential equation systems with the proper degree of similarity which is subsequently resolved utilizing the Lobatto IIIA technique’s powerful computing capabilities. It is important to recall that the velocity profile drops as the Maxwell fluid parameter increases. Additionally, the increase in the temperature ratio parameter raises both the fluid’s temperature and the corresponding thickness of the boundary layer.

show abstract

Section: Introductionmentioning

confidence: 99%

Importance of Activation Energy on Magnetized Dissipative Casson‐Maxwell Fluid through Porous Medium Incorporating Chemical Reaction, Joule Heating, and Soret Effects: Numerical Study

Althobaiti

2024

Journal of Applied Mathematics

View full text Add to dashboard Cite

show abstract

“…Hence, various attempts are made to search for affordable, efficient, and environmentally friendly water systems. Firstly, solar energy-based technologies 1 are proposed by researchers 2 as a cost-effective energy source in solar water pumps. Secondly, methods for heavy metal removal are being discussed 3 .…”

Section: Introductionmentioning

confidence: 99%

On determining conditions and suitable locations for fish survival by using the solution of the two coupled pollution and aeration equations

Raafat

Ibrahim

Saleh³

2023

Sci Rep

Self Cite

View full text Add to dashboard Cite

The coupled equations of pollution and aeration for flow in a river were studied under generalized assumptions in terms of parameter dependency on space and time, as well as general boundary constraints. An analytical solution was obtained in the steady-state case. Also, the system was solved in its unsteady state numerically in a dimensionless form using the finite difference scheme. The effect of different parameters controlling the flow (such as the velocity, Peclet number, injected pollutants, and so on…) was studied. Investigations indicate that the special cases of the proposed model (i.e., uniform distribution of pollutant and Dissolved Oxygen concentrations, and zero injected pollutants along the river) give results that agree with the previous studies. This simple model helps in understanding the behavior of the pollution-aeration process and its relation to the injected pollution along a river and its effect on fish survival. A simple procedure was discussed in this study to help in regulating farming, industrial, and urban practices and impose restrictions if necessary. This study determines with accuracy the intervals of the river at which fish can survive at a given time, as well as the maximum amount of pollutants allowed to be injected along the river for fish survival.

show abstract

Application of nanofluid flow in entropy generation and thermal performance analysis of parabolic trough solar collector: experimental and numerical study

Ekiciler

Arslan

Turgut

2023

J Therm Anal Calorim

View full text Add to dashboard Cite

Entropy and heat transfer investigation of Casson–Maxwell, Casson–Jeffrey, and Casson–Oldroyd-B binary nanofluids in a parabolic trough solar collector: a comparative study

Cited by 18 publications

References 60 publications

Importance of Activation Energy on Magnetized Dissipative Casson‐Maxwell Fluid through Porous Medium Incorporating Chemical Reaction, Joule Heating, and Soret Effects: Numerical Study

Importance of Activation Energy on Magnetized Dissipative Casson‐Maxwell Fluid through Porous Medium Incorporating Chemical Reaction, Joule Heating, and Soret Effects: Numerical Study

On determining conditions and suitable locations for fish survival by using the solution of the two coupled pollution and aeration equations

Application of nanofluid flow in entropy generation and thermal performance analysis of parabolic trough solar collector: experimental and numerical study

Contact Info

Product

Resources

About