Effect of Dam Depth and Relief Track Depth on Steady-State and Dynamic Performance Parameters of 3-Lobe Pressure Dam Bearing

Kumar, Ashutosh; Kakoty, Sashindra Kumar

doi:10.1155/2017/1380367

Cited by 4 publications

(5 citation statements)

References 10 publications

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“…Further, it is observed that threshold speed increases up to ε = 0.25 and then decreases gradually for increase in eccentricity ratio. The maximum threshold speed is observed at an eccentricity of 0.25, which is in agreement with the optimum range given by Kumar and Kakoty (2017) for Newtonian lubrication. Results from Tables 2 and 3 confirm the discussions presented in Figures 3–7.…”

Section: Discussion Of Resultssupporting

confidence: 89%

“…The influence of elastohydrodynamic on selected dynamic characteristics of an inverted three-lobed bearing with a pressure dam was reported by Batra et al (2012). Kumar and Kakoty (2017) concluded that when the relief track ratio is selected between 0.2–0.6, the stability of three-lobe dam bearing can be achieved. Nicholas et al (1980) experimentally found the best eccentricity is 0.25 to obtain a better threshold for pressure dam bearing.…”

Section: Introductionmentioning

confidence: 99%

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Analysis of elliptical dam bearing lubricated with micropolar fluid

Sharma

Krishna

Singh

2022

ILT

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Purpose This paper aims to evaluate the theoretical performance of elliptical dam bearing (EDB). The objective of this paper is to study the influence of eccentricity ratio, dam parameters and micropolarity parameters on the stability of EDB with respect to micropolar lubrication. Design/methodology/approach In this study, the modified Reynolds’ equation for dynamic state is solved using the finite element method and Galerkin technique. A MATLAB code is written to compute pressure and stability and also to analyse the characteristics. The stability parameters of an EDB are computed for selected values of eccentricity ratios at four levels in the range of 0.20 to 0.35 and for length-diameter ratio of 2.0. Findings The results from stability analysis reveal that micropolar lubricated EDB provides better stability at smaller material length due to increased effective viscosity. Hence, it is better to select the smaller characteristic length and higher dam width to achieve optimum performance of these bearings. Originality/value Very few researchers investigated the effects of working eccentricity, bearing dam and micropolar fluid parameters on the EDB in the past. It is important to study these aspects for optimum performance of bearings.

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Section: Discussion Of Resultssupporting

confidence: 89%

Section: Introductionmentioning

confidence: 99%

Analysis of elliptical dam bearing lubricated with micropolar fluid

Sharma

Krishna

Singh

2022

ILT

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“…There are so many other viscosity models to observe variation in viscosity but Krieger–Dougherty viscosity model is valid for a wide range of volume fractions of nanoparticle. As per the Krieger–Dougherty viscosity model 37 where φm is the maximum volume fraction and η is the intrinsic viscosity with a typical value of 2.5 for singular dispersion of rigid spherical particles. 38 The volume fraction of nanoparticle is taken as 0.005 and different nondimensional couple stress parameters as 0, 0.2, 0.4, and 0.6.…”

Section: Theorymentioning

confidence: 99%

Effect of couple stress parameter on steady-state and dynamic characteristics of three-lobe journal bearing operating on TiO₂ nanolubricant

Kumar

Kakoty

2019

Proceedings of the Institution of Mechanical Engineers, Part J:

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Steady-state and dynamic performance parameters of three-lobe fluid film bearing, operating on TiO2 nanolubricant have been obtained. The effective viscosity for a given volume fraction of TiO2 nanoparticle in base fluid is obtained by using Krieger–Dougherty viscosity model. Various bearing performance parameters are obtained by solving remodeled Reynolds equation, which includes couple stress parameter. The stiffness and damping coefficients are also obtained for different values of the couple stress parameter. Results show a significant rise in the nondimensional load-carrying capacity and flow coefficient while there is a decrease in friction variable. It also reveals a significant improvement in the dynamic coefficient of bearing.

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“…Optimum oil groove location of two-lobe bearings affects the performance of bearings. 18 Kumar and Kakoty 19 evaluated the performance of three-lobe pressure dam bearings using finite difference method. They suggested that by incorporating dam and relief track, stability and threshold speed increases.…”

Section: Introductionmentioning

confidence: 99%

“…They suggested that by incorporating dam and relief track, stability and threshold speed increases. Results of researchers 15–19 indicated an enhancement in the performance of pressure dam bearings by incorporating dam in the upper lobe and relief track in the lower lobe of a non-circular hydrodynamic journal bearing, while operating with Newtonian lubrication.…”

Section: Introductionmentioning

confidence: 99%

Performance characteristics of two-lobe pressure dam bearings with micropolar lubrication

Sharma

Verma

2018

Proceedings of the Institution of Mechanical Engineers, Part J:

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A circular bearing experiences the instability problem due to oil whirl, causing violent vibrations at high speed. Two-lobe pressure dam bearing is a solution to the instability arising in high-speed rotating machineries. The paper presents the various static and dynamic characteristics of two-lobe pressure dam bearings, while operating with micropolar fluid. The modified Reynolds equation used to model the lubrication is solved using the finite element method. Performance characteristics such as load, attitude angle, critical mass, threshold speed and whirl frequency are computed, presented graphically and analysed. A detailed comparison of the performance characteristics is done for various micropolar and dam parameters. It is concluded that bearing performance is significantly influenced by dam parameters (dam angles) and micropolar parameters (coupling number and characteristics length).

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Effect of Dam Depth and Relief Track Depth on Steady-State and Dynamic Performance Parameters of 3-Lobe Pressure Dam Bearing

Cited by 4 publications

References 10 publications

Analysis of elliptical dam bearing lubricated with micropolar fluid

Analysis of elliptical dam bearing lubricated with micropolar fluid

Effect of couple stress parameter on steady-state and dynamic characteristics of three-lobe journal bearing operating on TiO₂ nanolubricant

Performance characteristics of two-lobe pressure dam bearings with micropolar lubrication

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Effect of Dam Depth and Relief Track Depth on Steady-State and Dynamic Performance Parameters of 3-Lobe Pressure Dam Bearing

Cited by 4 publications

References 10 publications

Analysis of elliptical dam bearing lubricated with micropolar fluid

Analysis of elliptical dam bearing lubricated with micropolar fluid

Effect of couple stress parameter on steady-state and dynamic characteristics of three-lobe journal bearing operating on TiO2 nanolubricant

Performance characteristics of two-lobe pressure dam bearings with micropolar lubrication

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Product

Resources

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Effect of couple stress parameter on steady-state and dynamic characteristics of three-lobe journal bearing operating on TiO₂ nanolubricant