The bearing characteristic number of a hydrodynamic journal bearing depends on

This question was previously asked in

BPSC Asstt. Prof. ME Held on Nov 2015 (Advt. 22/2014)

Option 3 : viscosity, speed and bearing pressure

ST 1: General Awareness

6967

15 Questions
15 Marks
15 Mins

**Explanation:**

Several dimensionless numbers are used to understand the performance of bearing. Some of them are –

**Bearing Characteristic Number**= \( \frac{{Z{N_s}}}{P}\)- Bearing Modulus: The value of Bearing characteristic number when the co-efficient of friction is minimum.
- Sommerfield number: It is used to co-relate the working condition of a different machine which are operating under the same bearing. It is given by

\( {\rm{S}} = \left( {\frac{{{\rm{Z}}{{\rm{N}}_{\rm{s}}}}}{{\rm{P}}}} \right){\left( {\frac{{\rm{r}}}{{\rm{C}}}} \right)^2}\)

where **Z = Absolute viscosity of the lubricant**, **N _{s} = Revolution per sec**,

- Eccentricity ratio/Attitude: It is the ratio of eccentricity to radial clearance.

\({\rm{e}} = \frac{{{\rm{eccentricity}}}}{{{\rm{radial\;clearance}}}} = \frac{{\left( {R - r} \right) - {h_o}}}{{\left( {R - r} \right)}} = 1 - \frac{{{h_o}}}{c}\)