transient fluid flow analysis inside an intake manifold...
TRANSCRIPT
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TRANSIENT FLUID FLOW ANALYSIS INSIDE
AN INTAKE MANIFOLD APPLIED TO DIESEL
ENGINE
Fabio Yukio Kurokawa, Celso Argachoy
MWM International Motores
Rodrigo Peralta, Marcelo Kruger, Martin Kessler,
Geraldo Severi
ESSS
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PRESENTATION TOPICS
• Company Overview;
• Problem Description / Goals;
• Methodology;
– Stages;
– Computational Model;
– Results;
• Remarks and next steps.
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Established in 1902
World Headquarters in Warrenville, IL
Total Worldwide Employees: 17,800
More than 1,000 Truck dealer locations
across North America
Distributors in more than 70 countries
Operations in USA, Brazil, Canada, India,
Mexico and Argentina
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NAFTA
Global
Business Unit
North America
Business Unit
Mercosur
Business Unit
Worldwide Leader
3 to 15L Diesel Engines
270,000 Units (2009)
NAVISTAR ENGINE BUSINESS
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• 100% Navistar subsidiary
• 57 years diesel engines manufacturer leader
in South America
• More than 3,6 millions engines produced for
several applications
– Vehicular
– Agricultural
– Industrial and
– Marine
Mercosul
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Sprint / 10 series
Acteon / 229 series
Big Bore Blocks
NGD 3.0 /
NGD 9.3 / MS series
Systems and parts
machining for
diesel engines
MWM INTERNATIONAL MOTORES
São Paulo - Brazil Canoas - Brazil J M - Argentina
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Diesel Engines production
301;214 units (Aug’ YTD 2010)
MWM32%
A16%B
19%
C13%
D5%
E1%
F3%
G3%
H5%
I0%
J3%
Mercosul Diesel Production
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Problem description - Goals
• To evaluate transient fluid flow regime inside
an intake manifold.
• Challenge:
Develop a numerical model without
considering the valves displacement, but
that is able to represent the transient flow
behavior;
Goals: Develop a computational model that represents the fluid flow
inside an Intake Manifold;
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Methodology
Develop a computational model on ANSYS CFD that represents the fluid
flow inside an Intake Manifold;
Validate the ANSYS CFD results with GT-Power results.
Evaluate the influence of replacing the discharge coefficient by porous
zone;
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Stages
1st Stage > Developed a model using the ANSYS Fluent
• transient, turbulent, compressible and single phase flow;
• replace the discharge coefficient by a porous zone;
• Journal File to control the transient cycles;
2nd Stage > Developed a model using the ANSYS CFX
• transient, turbulent, incompressible and single phase flow;
• replace the discharge coefficient by a porous zone;
• Multi-Configuration Simulations control the transient cycles;
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Initial & Boundary Conditions
Time dependencies
(per cycle):
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Detail of replacing the discharge
coefficient by a porous zone;
1st Stage – ANSYS Fluent
Porous domain
Fluid domain
Inlet:
Mass Flow
Outlets: Pressure
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1st Stage – ANSYS Fluent
-2,00
-1,50
-1,00
-0,50
0,00
0,50
1,00
1,50
2,00
2,50
3,00
0 100 200 300 400 500 600 700
Dim
en
sio
nle
ss F
low
Crank Angle [deg]
Valv1
Valv2
Valv3
Valv4
Valv5
Valv6
Intern Outlet
• Presence of backflow can be noted on the
plot
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1st Stage – ANSYS Fluent
There is a great quantity of backflow;
The imposed boundary condition at the outlets (transient pressure), was
not able to reproduce the effects generated by the opening valve.
REMARKS
The porous zone at ANSYS FLUENT works only for the thermal energy
equation (when imposing porosity);
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Detail of replacing the
discharge coefficient
by a porous zone;
– Included another fluid
domain to improve the
boundary condition.
2nd Stage – ANSYS CFX
Porous domain
Fluid domain
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2nd Stage – ANSYS CFX
13 Simulations per cycle: Flow analysis +
Configuration
Each simulation with different boundary conditions
set in Flow Analysis;
Simulations controlled by activation control on
respectively configuration:
Ex: Begin new simulation when last simulation is over
using this results as initial condition;
Multi-Configuration Simulations
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2nd Stage – ANSYS CFX
Initial conditions:
• 1st simulation: Air stagnant
• Others simulations: Result from
previous simulation
Boundary conditions:
• Walls
– No slip
• Inlet
– Prescribed mass flow (time-
dependent)*
• Outlets: Opening
– Opened cylinder: Prescribed relative
pressure (time-dependent)*
– Closed cylinder: Prescribed relative
pressure: 0 Pa
• Porous zone
– Opened cylinder: Permeability
calculated by discharge coefficient
(time-dependent)*
– Closed cylinder: Infinite resistance
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2nd Stage – ANSYS CFX
Similar behavior between
ANSYS CFX and GT-Power
results.
Backflow
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Remarks
The Multi-Configuration method showed a good alternative to model the
flow inside the intake manifold without considering the valves
displacement;
The reliability of the results increases the confidence in the computational
model for implementing new configurations;
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Next steps
Compressible flow simulation using ANSYS CFX;
Coupling ANSYS CFD with GT-Power;
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Thank you for your attention.