Multiobjective optimization of thermohydrodynamic journal bearing using MOPSO algorithm

Akbarzadeh, Pooria; Mikaeeli, SZ; Rahimiyan, Morteza

doi:10.1177/1350650117724639

Cited by 12 publications

(7 citation statements)

References 14 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The programming code is similar to the one used and validated in the study by. Akbarzadeh 23 and Akbarzadeh et al 12 Besides, for optimizing procedure of the solver, another programming code (written in FORTRAN) has been developed of which algorithm is reported by a flowchart in Figure 2.…”

Section: Solving Equation (16) By a Backward Differencementioning

confidence: 99%

“…Results of the optimization process. 4,6,12,15 Design Figure 6. Results of the optimization process.…”

Section: Case Studymentioning

confidence: 99%

“…In the problem, the design variables such as the oil viscosity and radial clearance were determined to minimize power loss. In 2017, P. Akbarzadeh et al 12 found the optimal performance of partial pad journal bearings using particle swarm optimization algorithm in combination with the thermal-hydrodynamic governing equations of the fluid film (i.e. momentum and energy equations).…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Numerical study and parameter optimization of partial journal bearing using MOPSO algorithm

Mikaeeli

Aghanajafi

Akbarzadeh

2019

Proceedings of the Institution of Mechanical Engineers, Part J:

Self Cite

View full text Add to dashboard Cite

In this paper, multi-objective particle swarm optimization method is developed for optimizing thermo-hydrodynamic journal bearings. This paper focuses on the use of multi-objective particle swarm optimization algorithm with a combination of the thermal hydrodynamic governing equations of the fluid film (i.e. momentum and energy equations) to optimize hydrodynamic partial pad journal bearings and compare with other articles. The governing equations are solved by the central difference method with a successive over-relaxation scheme and the backward difference with an iterative technique. In the paper, the lubricant viscosity changes with the temperature variation in whole fluid film. In this optimization, the bearing power loss, the minimum oil film thickness, and the maximum oil temperature are considered as objective functions and the radial clearance and length to diameter ratio are selected as design variables. The results of the objective functions are compared to other articles. Also, this study discusses the entropy and availability of two concentric cylinders with low curvature and constant wall temperature. Calculations showed that by increasing the Eckert number, the availability increases.

show abstract

Section: Solving Equation (16) By a Backward Differencementioning

confidence: 99%

“…Results of the optimization process. 4,6,12,15 Design Figure 6. Results of the optimization process.…”

Section: Case Studymentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Numerical study and parameter optimization of partial journal bearing using MOPSO algorithm

Mikaeeli

Aghanajafi

Akbarzadeh

2019

Proceedings of the Institution of Mechanical Engineers, Part J:

Self Cite

View full text Add to dashboard Cite

show abstract

“…Raimondi and Boyd [5][6][7] with helping Reynolds equation performed some numerical studies in the field of journal bearings. After that, many researches developed the lubrication theory and implemented it to analyze the performance of various types of bearings using Newtonian lubricant model such as Raimondi, 8 Dowson, 9 Malik, 10 Elsharkawy, 11 Shah and Bhat, 12 Shenoy and Pai, 13 Gustavo et al, 14 Sfyris and Chasalevris, 15,16 Rao et al, 17 Ram and Sharma, 18,19 Jang and Khonsari, 20 Akbarzadeh, 21 Gong et al, 22 Akbarzadeh et al, 23 Novotny´et al, 24 Li et al, 25 Novotny´et al, 26 Yu et al, 27 to name a few. In fact, these studies played a key role in the development of mathematical modeling for hydrodynamic journal/ thrust/sliding bearings and the increase of the accuracy of computational methods and their adaptation to experimental results.…”

Section: Introductionmentioning

confidence: 99%

Analysis of nonlinear viscoelastic lubrication using Giesekus constitutive equation

Abbaspur

Norouzi

Akbarzadeh

et al. 2020

Proceedings of the Institution of Mechanical Engineers, Part J:

View full text Add to dashboard Cite

Recent research has shown that adding polymeric materials to mineral oils and consequently changing the behavior of Newtonian lubricants into viscoelastic materials will enhance the lubrication performance. Therefore, in order to examine theoretically the actual behavior of such lubricants, a suitable viscoelastic model must be considered. Hence, in this paper, the solution of fluid film lubrication is presented analytically using the Giesekus viscoelastic model. This constitutive model is based on the concept of configuration-dependent molecular mobility and is suitable for predicting the nonlinear viscoelastic properties. Indeed, it can describe the power-law regions for viscosity, the normal-stress coefficients, the elongational viscosity, and also the complex viscosity. In order to linearize the momentum and constitutive equations and obtain the generalized Reynolds equation, the perturbation method is used and the mobility factor is considered as the perturbation parameter. Here, the effects of mobility factor, outlet-to-inlet height ratio, and Weissenberg number on fluid film pressure distribution, velocity profiles, load capacity, friction coefficient, and first normal stress difference are investigated in detail. Due to the normal stress difference in viscoelastic fluids, using a viscoelastic fluid in contrast a Newtonian fluid can significantly increase the load-carrying capacity of bearing. Another result is with increasing the value of mobility factor, the fluid viscosity decreases and consequently the pressure distribution decreases simultaneously while the lateral normal stress in the y-direction increases. The term pressure distribution is more negligible than the term lateral normal stress and as a result by increasing the mobility factor the load-carrying capacity increases too. It is also observed that, when the Weissenberg numbers tend to infinity regardless of the mobility factor, the friction coefficient tends towards a constant value and rubber-like elasticity is responses.

show abstract

“…The study reported that the pivot position, preload factor, pad number, and speed of shaft is greatly influences the performance of journal bearing. Akbarzadeh et al 12 used the multi-objective particle swarm optimization algorithm for solving the partial pad hydrodynamic journal bearings problem. The optimization results were depicted in the form of Pareto curves/tabular form and the effect on pad temperature, minimum oil film thickness and frictional power loss studied.…”

Section: Introductionmentioning

confidence: 99%

Influence of bearing surface irregularities on hybrid slot-entry journal bearing with electrically conducting lubricant

Sahu

Sharma

2019

Proceedings of the Institution of Mechanical Engineers, Part J:

View full text Add to dashboard Cite

This study concerns with the numerical simulation of a hybrid slot entry journal bearing lubricated with electrically conducting lubricant under the influence of magnetic field for both thermal and isothermal conditions. The Navier–Stokes equation has been used to formulate the flow of electrically conducting lubricant through slot restrictor and combining the Lorentz force in the equations of motion, together with the Ohm’s law and Maxwell equations. Further, the effect of surface irregularities on bearing surface is considered to analyse the performance of the slot-entry bearing. The surface irregularities asperity profile has been modelled in both axial as well as circumferential directions. Finite element method is used to solve the Modified MHD Reynolds equation. To compute the bearing performance characteristic parameters, a MATLAB source code based on Gauss–Seidel iteration method has been developed. A comparative numerical analysis has been carried out for an electrically conducting lubricant, Newtonian lubricant, bearing surface having irregularities and bearing with smooth surface. The numerically simulated results indicate that considering the bearing surface irregularities and MHD effects enhances the value of fluid film damping coefficients [Formula: see text] and the value of minimum fluid film thickness [Formula: see text].

show abstract

Multiobjective optimization of thermohydrodynamic journal bearing using MOPSO algorithm

Cited by 12 publications

References 14 publications

Numerical study and parameter optimization of partial journal bearing using MOPSO algorithm

Numerical study and parameter optimization of partial journal bearing using MOPSO algorithm

Analysis of nonlinear viscoelastic lubrication using Giesekus constitutive equation

Influence of bearing surface irregularities on hybrid slot-entry journal bearing with electrically conducting lubricant

Contact Info

Product

Resources

About