Entropy Generation and Optimization of Laminar Forced Convection Air Cooling in a Horizontal Channel Containing Heated Sources

Bensouici, Moumtez; Bensouici, Fatima Zohra

doi:10.18869/acadpub.jafm.73.240.26847

Cited by 4 publications

(4 citation statements)

References 14 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The model is empirically developed via regression from various response values or simulations. The numerical simulation outcomes were evaluated using the outcome of the surface interpolation process utilizing the subsequent second-order polynomial equation [29][30][31]:…”

Section: Response Surface Methodologymentioning

confidence: 99%

See 1 more Smart Citation

Performance Analysis and Optimization of Regenerative Gas Turbine Power Plant using RSM

Bensouici,

Azizi,

Bensouici

2023

Int. J. Automot. Mech. Eng.

View full text Add to dashboard Cite

In the present study, a thermodynamic analysis of thermal performance is carried out in a regenerative GT power plant. The optimization procedure of design parameters is realized by the response surface methodology (RSM). The thermodynamic simulations were carried out using the EES code for numerous variables such as compression ratio (2≤rp≤12), inlet temperature (273≤T1≤313K), turbine inlet temperature (1200≤T3≤1600K), and regenerator effectiveness (45≤ε≤85%). Analysis of variance (ANOVA) was carried out to identify the process parameters that influence thermal efficiency (ηth) and specific fuel consumption (SFC). Then, a second-order regression model was developed to correlate the process parameters with ηth and SFC. Consequently, numerical and graphical optimizations were performed to achieve multi-objective optimization for the desired criteria. According to the desirability function approach, it can be seen that the optimum objective functions are ηth=50.61% and SFC=0.117 kg/kWh, corresponding to process parameters T1=273.26K, T3=1597.64K, rp=6.95 and ε=84.89%. Lastly, verification simulations were conducted to validate the importance of the generated statistical models.

show abstract

Section: Response Surface Methodologymentioning

confidence: 99%

“…where x i is the i th individual parameter of the empty encoded value, the uncoded value of the i th independent parameter is indicated by X i * similarly, at the middle point, the uncoded value of the i th individual parameter is designated by x ij , and the variation in the step value has been described as ∆X i [31].…”

Section: Response Surface Methodologymentioning

confidence: 99%

Performance Analysis and Optimization of Regenerative Gas Turbine Power Plant using RSM

Bensouici,

Azizi,

Bensouici

2023

Int. J. Automot. Mech. Eng.

View full text Add to dashboard Cite

show abstract

“…The entropy generation induced by forced convection air cooling process from heated sources in a channel was numerically analyzed by Bensouici and Bensouici. 4 They observed that the increase of separation distance, height, and width of the components cause an increase in the total entropy generation and the average Nusselt number. Davalath and Bayazitoglu 5 studied the forced convection from several heat-conducting rectangular bodies in a channel.…”

Section: Introductionmentioning

confidence: 99%

Natural convection cooling process from two identical porous‐covering electronic components

2021

View full text Add to dashboard Cite

show abstract

“…The results showed that the MHD effects lessened the convective heat transport leading to further increment in conductive heat transport, the aspect ratio of the enclosure has considerably affected the temperature, concentration and velocity profiles. Bensouici and Bensouici (2017) have numerically applied the entropy generation minimization theory to optimize the heat transfer and the liquid motion in a horizontal channel to lessen the energy loss and to promote the cooling of heat sources. They obtained that a better configuration for highest heat transfer and minimum entropy was reached for the optimal Re number, separation distance, width and height of heat source, which are equal to 50, 1, 0.25 and 0.25, respectively.…”

Section: Introductionmentioning

confidence: 99%

A computational analysis of heat transport irreversibility phenomenon in a magnetized porous channel

Marzougui

Bouabid

Mebarek‐Oudina

et al. 2020

HFF

View full text Add to dashboard Cite

Purpose The purpose of this paper is to evaluate the temperature, the Dirichlet conditions have been considered to the parallel horizontal plates. The model of generalized Brinkman-extended Darcy with the Boussinesq approximation is considered and the governing equations are computed by COMSOL multiphysics. Design/methodology/approach In the current study, the thermodynamic irreversible principle is applied to study the unsteady Poiseuille–Rayleigh–Bénard (PRB) mixed convection in a channel (aspect ratio A = 5), with the effect of a uniform transverse magnetic field. Findings The effects of various flow parameters on the fluid flow, Hartmann number (Ha), Darcy number (Da), Brinkman number (Br) and porosity (ε), are presented graphically and discussed. Numerical results for temperature and velocity profiles, entropy generation variations and contour maps of streamlines, are presented as functions of the governing parameter mentioned above. Basing on the generalized Brinkman-extended Darcy formulation, which allows the satisfaction of the no-slip boundary condition on a solid wall, it is found that the flow field and then entropy generation is notably influenced by the considering control parameters. The results demonstrate that the flow tends toward the steady-state with four various regimes, which strongly depends on the Hartman and Darcy numbers variations. Local thermodynamic irreversibilities are more confined near the active top and bottom horizontal walls of the channel when increasing the Da and decreasing the Hartmann number. Entropy generation is also found to be considerably affected by Brinkman number variation. Originality/value In the present work, we are presenting our investigations on the influence of a transverse applied external magnetohydrodynamic on entropy generation at the unsteady laminar PRB flow of an incompressible, Newtonian, viscous electrically conducting binary gas mixture fluid in porous channel of two horizontal heated plates. The numerical solutions for the liquid velocity, the temperature distribution and the rates of heat transport and entropy generation are obtained and are plotted graphically.

show abstract

Entropy Generation and Optimization of Laminar Forced Convection Air Cooling in a Horizontal Channel Containing Heated Sources

Cited by 4 publications

References 14 publications

Performance Analysis and Optimization of Regenerative Gas Turbine Power Plant using RSM

Performance Analysis and Optimization of Regenerative Gas Turbine Power Plant using RSM

Natural convection cooling process from two identical porous‐covering electronic components

A computational analysis of heat transport irreversibility phenomenon in a magnetized porous channel

Contact Info

Product

Resources

About