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Oil Flow in Gasoline Engines Christopher Hammond, John Lindsay Smith, Moray Stark , David Waddington Department of Chemistry: University of York Richard Gamble, Martin Priest, Christopher Taylor School of Mechanical Engineering: University of Leeds Harold Gillespie, Eiji Nagatomi, Ian Taylor Shell Global Solutions (UK)
21

Oil Flow in Gasoline Engines Christopher Hammond, John Lindsay Smith, Moray Stark, David Waddington Department of Chemistry: University of York Richard.

Dec 22, 2015

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Page 1: Oil Flow in Gasoline Engines Christopher Hammond, John Lindsay Smith, Moray Stark, David Waddington Department of Chemistry: University of York Richard.

Oil Flow in Gasoline Engines

Christopher Hammond, John Lindsay Smith, Moray Stark, David Waddington

Department of Chemistry: University of York

Richard Gamble, Martin Priest, Christopher Taylor

School of Mechanical Engineering: University of Leeds

Harold Gillespie, Eiji Nagatomi, Ian Taylor

Shell Global Solutions (UK)

Page 2: Oil Flow in Gasoline Engines Christopher Hammond, John Lindsay Smith, Moray Stark, David Waddington Department of Chemistry: University of York Richard.

Introduction

Aim

To Predict Increase in Piston Friction with Oil Degradation• Chemical Model for Base Fluid Oxidation

• Rheological Model for Increase in Viscosity

• Tribological Model for Piston Friction

In This Talk

• Measure Fluid Flow in Piston Ring Pack

• Comparison with Tribological Model

• Chemical Model using Measured Flow Parameters

Page 3: Oil Flow in Gasoline Engines Christopher Hammond, John Lindsay Smith, Moray Stark, David Waddington Department of Chemistry: University of York Richard.

Engine Specification

Ricardo Hydra• Fuel Injected Gasoline • Single Cylinder• 0.5 litre Capacity• 1500 rpm• 50% Throttle• External Sump (70 ºC)• Camshaft Lubricated Separately

Shell XHVI ™ 8.2• No Additive Package

Lubricant Specification

Page 4: Oil Flow in Gasoline Engines Christopher Hammond, John Lindsay Smith, Moray Stark, David Waddington Department of Chemistry: University of York Richard.

Extraction of Oil from Top Piston Ring

1/8” PTFE Tube

Sample Collection

Page 5: Oil Flow in Gasoline Engines Christopher Hammond, John Lindsay Smith, Moray Stark, David Waddington Department of Chemistry: University of York Richard.

Piston Assembly

Page 6: Oil Flow in Gasoline Engines Christopher Hammond, John Lindsay Smith, Moray Stark, David Waddington Department of Chemistry: University of York Richard.

Oil Flow in Engine

Sump

Ring PackSmall VolumeShort Residence Time

Large VolumeLong Residence Time

Flow Rate

Page 7: Oil Flow in Gasoline Engines Christopher Hammond, John Lindsay Smith, Moray Stark, David Waddington Department of Chemistry: University of York Richard.

0

25

50

75

100

0 10 20 30 40 50

Time / arb

Ma

rke

r / %

Ring Pack Residence Time :ringpack

)exp1(]marker[]marker[ RINGPACK

TIME

sumpringpack

1-e-1

Page 8: Oil Flow in Gasoline Engines Christopher Hammond, John Lindsay Smith, Moray Stark, David Waddington Department of Chemistry: University of York Richard.

Ring Pack Residence Time : 60 sec

0

25

50

75

100

0 1 2 3 4 5

Time / min

Mar

ker

/ %

Page 9: Oil Flow in Gasoline Engines Christopher Hammond, John Lindsay Smith, Moray Stark, David Waddington Department of Chemistry: University of York Richard.

Ring Pack Residence Time – Previous Work

S B Saville, F D Gainey, S D Cupples, M F Fox, D J Picken, SAE Technical Paper, International Fuels and Lubricants Meeting, Oct 10-13, 1988

Page 10: Oil Flow in Gasoline Engines Christopher Hammond, John Lindsay Smith, Moray Stark, David Waddington Department of Chemistry: University of York Richard.

Oil Flow and Chemistry in Engine

Sump

Ring PackHigh Temperature Small VolumeShort Residence Time

Low Temperature Large VolumeLong Residence Time

Page 11: Oil Flow in Gasoline Engines Christopher Hammond, John Lindsay Smith, Moray Stark, David Waddington Department of Chemistry: University of York Richard.

Oxidation Chemistry

CC

CC

CC

CC

CC

CC

H

HH

H

HH

H

H

HH

HH

H

H

H

H

HH

H

H

H

HC

CC

H

H

H

H

H

HH

H

H

O

O

H

CC

CC

CC

CC

CC

CC

H

HH

H

HH

H

H

HH

HH

H

H

H

H

HH

H

H

H

HC

CC

H

H

H

H

H

HH

H

O

CC

CC

CC

CC

CC

CC

H

HH

H

HH

H

H

HH

HH

H

H

H

H

HH

H

H

H

HC

CC

H

H

H

H

H

HH

H

H

H

OC

CC

C

O

H

H

H

H

HH

HHCC

CC

CC

CC

CC

CO

H

HH

H

HH

H

H

HH

HH

H

H

H

H

HH

H

H

H

O

H +

Infrared Spectroscopyof Carbonyl Group

Hydrocarbon Base Fluid

Hydroperoxides

Ketones

CarboxylicAcids

Page 12: Oil Flow in Gasoline Engines Christopher Hammond, John Lindsay Smith, Moray Stark, David Waddington Department of Chemistry: University of York Richard.

Oxidation in Sump – IR Spectrospcopy

0

0.005

0.01

0.015

0.02

0 10 20 30 40 50

Time / hours

Ac

id +

Ke

ton

e /

mo

l d

m-3

0

0.2

0.4

0.6

Ca

lcu

late

d TA

N

Page 13: Oil Flow in Gasoline Engines Christopher Hammond, John Lindsay Smith, Moray Stark, David Waddington Department of Chemistry: University of York Richard.

Oxidation in Ring Pack

0

0.05

0.1

0.15

0.2

0 20 40 60 80 100

Time / min

Ac

id +

Ke

ton

e /

mo

l d

m-3

0

2

4

6

Ca

lcu

late

d TA

N

sump (x100)

ringpack

Page 14: Oil Flow in Gasoline Engines Christopher Hammond, John Lindsay Smith, Moray Stark, David Waddington Department of Chemistry: University of York Richard.

Oxidation in Ring Pack : Previous Work

S B Saville, F D Gainey, S D Cupples, M F Fox, D J Picken, SAE Technical Paper, International Fuels and Lubricants Meeting, Oct 10-13, 1988

0

0.01

0.02

0.03

0.04

0 10 20 30 40 50 60

Time / hours

Aci

d +

Ket

on

e / m

ol d

m-3

Caterpillar diesel (Oil A)

Caterpillar diesel (Oil B)

Page 15: Oil Flow in Gasoline Engines Christopher Hammond, John Lindsay Smith, Moray Stark, David Waddington Department of Chemistry: University of York Richard.

Sump Residence Time and Oil Flow Rates

dt

dSUMPRINGPACK

]Product[]Product[

13 mincm012.0271.0

SUMPSUMPRINGPACK

SumpVolumeFlowRate

Hours8156 SUMP

0

0.05

0.1

0.15

0.2

0 20 40 60 80 100

Time / min

Ac

id +

Ke

ton

e /

mo

l d

m-3

0

2

4

6

Ca

lcu

late

d TA

N

sump (x100)ringpack

Page 16: Oil Flow in Gasoline Engines Christopher Hammond, John Lindsay Smith, Moray Stark, David Waddington Department of Chemistry: University of York Richard.

Characterisation of Ricardo Hydra EngineRing PackResidence Time 60 ± 15 secondsVolume of Oil 0.30 ± 0.08 cm3

Temperature 200 °C

Flow RatesInto Ring Pack 0.32 ± 0.02 cm3

min-1

Returning to Sump 0.27 ± 0.01 cm3 min-1

Loss From Ring Pack 0.05 cm3 min-1

SumpResidence Time 156 ± 8 hoursVolume 3 litresTemperature 70 °C

Conditions: 1500 rpm, 50% Throttle

Page 17: Oil Flow in Gasoline Engines Christopher Hammond, John Lindsay Smith, Moray Stark, David Waddington Department of Chemistry: University of York Richard.

Piston Assembly

Page 18: Oil Flow in Gasoline Engines Christopher Hammond, John Lindsay Smith, Moray Stark, David Waddington Department of Chemistry: University of York Richard.

Comparison with Tribological Model

Ring Pack Experiment Theory

Residence Time 60 ± 15 10 seconds

Volume of Oil 0.30 ± 0.08 0.02 cm3

Flow Rates

Into Ring Pack 0.32 ± 0.02 0.17 cm3min-1

Returning to Sump 0.27 ± 0.01 0.12 cm3min-1

Loss From Ring Pack 0.05 0.05 cm3min-1

Sump

Residence Time 156 ± 8 300 hours

Conditions: 1500 rpm, 50% Throttle

Page 19: Oil Flow in Gasoline Engines Christopher Hammond, John Lindsay Smith, Moray Stark, David Waddington Department of Chemistry: University of York Richard.

Oxidation Chemistry

Hydrocarbon Base Fluid

Hydroperoxides

Ketones

CarboxylicAcids

DiketonesHydroxyketones

Current Mechanism

Page 20: Oil Flow in Gasoline Engines Christopher Hammond, John Lindsay Smith, Moray Stark, David Waddington Department of Chemistry: University of York Richard.

Two Reactor Simulation

Residence Time Volume TemperatureSump 156 hours 3 litre 70 CRing Pack 60 sec 0.27 cm3 200 C

0

0.05

0.1

0.15

0.2

0 20 40 60 80 100

Time / min

Car

bo

nyl

/ m

ol d

m-3

0

2

4

6 Calcu

lated TA

Nsump (x100)ringpack

Page 21: Oil Flow in Gasoline Engines Christopher Hammond, John Lindsay Smith, Moray Stark, David Waddington Department of Chemistry: University of York Richard.

Conclusions

• Measured Oil Flow in Gasoline Engine

• Modelled Fluid Flow in Ring Pack

• Modelled Base Fluid Oxidation in Engine


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