Abstract

High-speed small-scale turbomachinery for waste heat recovery and vapor compression cycles is typically supported on gas-lubricated bearings operating close to the saturation conditions of the lubricant. Under particular conditions, the gas film might locally reach the saturation pressure with potentially hazardous effects on the performance of the gas bearing. The present work introduces a model based on the Reynolds equation and the development of cavitation modeling in liquid-lubricated bearings for condensing gas bearings. The effect of condensation on load capacity and pressure and density profiles is investigated for two one-dimensional bearing geometries (parabolic and Rayleigh step) and varying operating conditions. The results suggest that the load capacity is generally negatively affected if condensation occurs. An experimental setup consisting of a Rayleigh-step gas journal bearing with pressure taps to measure the local fluid film pressure is presented and operated in R245fa in near-saturated conditions. The comparison between the evolution of the fluid film pressure under perfect gas and near saturation conditions clearly suggests the occurrence of condensation in the fluid film. These results are corroborated by the very good agreement with the model prediction.

References

1.
Javed
,
A.
,
Arpagaus
,
C.
,
Bertsch
,
S.
, and
Schiffmann
,
J.
,
2016
, “
Small-Scale Turbocompressors for Wide-Range Operation With Large Tip-Clearances for a Two-Stage Heat Pump Concept
,”
Int. J. Refrigeration
,
69
(
9
), pp.
285
302
. 10.1016/j.ijrefrig.2016.06.015
2.
Rosset
,
K.
,
Mounier
,
V.
,
Guenat
,
E.
, and
Schiffmann
,
J.
,
2018
, “
Multi-Objective Optimization of Turbo-ORC Systems for Waste Heat Recovery on Passenger Car Engines
,”
Energy
,
159
(
18
), pp.
751
765
. 10.1016/j.energy.2018.06.193
3.
Mounier
,
V.
,
Mendoza
,
L. C.
, and
Schiffmann
,
J.
,
2017
, “
Thermo-Economic Optimization of An ORC Driven Heat Pump Based on Small Scale Turbomachinery and Comparison With Absorption Heat Pumps
,”
Int. J. Refrigeration
,
81
(
9
), pp.
96
110
. 10.1016/j.ijrefrig.2017.05.021
4.
Elwell
,
R.
,
1961
, “
Observations on the Performance of Self- Acting Gas Journal Bearings. Part II : Moisture Condensation in Self-Acting Gas Bearings
,” General Electrical Laboratory, Technical Report, Contract No-2844(00).
5.
Orcutt
,
F. K.
,
1963
, “
Experimental Investigation of Two-phase Flow in Thrust Bearings
,” Mechanical Technology, Inc, Technical Report, MTI-62TR40.
6.
Orcutt
,
F. K.
,
Dougherty
,
D. E.
,
Malanoski
,
S. B.
, and
Pan
,
C. H. T.
,
1968
, “
Investigation of Externally Pressurized Steam-Lubricated Journal Bearing
,”
ASME J. Lubr. Tech.
,
90
(
4
), pp.
723
730
. 10.1115/1.3601708
7.
Unterberg
,
W.
, and
Ausman
,
J. S.
,
1966
, “
Condensing Vapor Lubrication of Self-Acting Long Journal Bearings
,”
ASME J. Basic Eng.
,
88
(
1
), pp.
236
245
. 10.1115/1.3645813
8.
Jakobsson
,
B.
, and
Floberg
,
L.
,
1957
, “
The Finite Journal Bearing Considering Vaporization
,”
Trans. Chalmers Univ. Technol.
,
190
, pp.
1
116
.
9.
Olsson
,
K. O.
,
1965
, “
Cavitation in Dynamically Loaded Bearings
,”
Trans. Chalmers Uni. Technol.
,
308
, pp.
308
368
.
10.
Elrod
,
H. G.
,
1974
, “
A Cavitation Algorithm
,”
Mech. Eng. Publ.
,
103
(
3
), pp.
37
41
.
11.
Vijayaraghavan
,
D.
, and
Keith
,
T. G.
,
1989
, “
Development and Evaluation of a Cavitation Algorithm
,”
Tribol. Trans.
,
32
(
2
), pp.
225
233
.
12.
Vijayaraghavan
,
D.
, and
Keith
,
T. G.
,
1990
, “
Grid Transformation and Adaption Techniques Applied in the Analysis of Cavitated Journal Bearings
,”
ASME J. Tribol.
,
112
(
1
), pp.
52
59
. 10.1115/1.2920230
13.
Vijayaraghavan
,
D.
,
Keith
,
T. G.
, and
Brewe
,
D. E.
,
1991
, “
Extension of Transonic Flow Computational Concepts in the Analysis of Cavitated Bearings
,”
ASME J. Tribol.
,
113
(
3
), pp.
539
546
. 10.1115/1.2920657
14.
Zuber
,
N.
, and
Dougherty
,
D. E.
,
1982
, “
The Field Equations for Two-Phase Reynolds Film Flow With a Change of Phase
,”
ASLE Trans.
,
25
(
1
), pp.
108
116
. 10.1080/05698198208983072
15.
Guenat
,
E.
, and
Schiffmann
,
J.
,
2018
, “
Effects of Humid Air on Aerodynamic Journal Bearings
,”
Tribol. Int.
,
127
(
11
), pp.
333
340
. 10.1016/j.triboint.2018.06.002
16.
Bell
,
I. H.
,
Wronski
,
J.
,
Quoilin
,
S.
, and
Lemort
,
V.
,
2014
, “
Pure and Pseudo-pure Fluid Thermophysical Property Evaluation and the Open-Source Thermophysical Property Library CoolProp
,”
Ind. Eng. Chem. Res.
,
53
(
6
), pp.
2498
2508
. 10.1021/ie4033999
You do not currently have access to this content.