Lesson4- 3500B series engines OPERATION.ppt
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May 18, 2024
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About This Presentation
series engines OPERATION TRAINING
Slide Content
3500 B series Engines
PRESENTATION ON CATERPILLAR 3500 B
SERIES ENGINES
SERIES ENGINES
Leadership does not just
happen
1973 ???
OPEC...
closed
happen
1973 ???
OPEC...
closed
Improve Exhaust emissions
Fuel economy
KW outputs
Monitoring capabilities
Reliability
. Durability.
3500 "B" Objective
Fuel economy
KW outputs
Monitoring capabilities
Reliability
. Durability.
3500 "B" Objective
3500 SERIES EVOLUTION
Yr Product Max Rating
1980 Phase 0 100 kW/cyl.
1985 Phase 1 112.5 kW/cyl.
1988 Phase 2 125 kW/cyl.
1995 B Series 137.5 kW/cyl.
2000 B HD 150 kW/cyl.
Yr Product Max Rating
1980 Phase 0 100 kW/cyl.
1985 Phase 1 112.5 kW/cyl.
1988 Phase 2 125 kW/cyl.
1995 B Series 137.5 kW/cyl.
2000 B HD 150 kW/cyl.
Primary objectives of 3500 B
development program.
1.Develop an
electronic engine
control platform.
2.Improved
combustion system.
3.Improved specific
output.
4.Improved transient
development program.
1.Develop an
electronic engine
control platform.
2.Improved
combustion system.
3.Improved specific
output.
4.Improved transient
CUMMINS
20%
OTHERS
28%
MHI
5%
MTU
5%
DETROIT
7%
CAT
35% Market share 910 -2000 kVA
20%
OTHERS
28%
MHI
5%
MTU
5%
DETROIT
7%
CAT
35% Market share 910 -2000 kVA
Introduction to 3500 series B
engines
3500 SERIES B engines are
controlled, monitored & serviced
using a Microprocessor
Higher Injection pressures
Better combustion chamber design
Best fuel efficiency in its class.
Better response & block loading
capability
Larger and bigger Camshaft.
Seperate circuit after cooling
Very low emissions.
engines
3500 SERIES B engines are
controlled, monitored & serviced
using a Microprocessor
Higher Injection pressures
Better combustion chamber design
Best fuel efficiency in its class.
Better response & block loading
capability
Larger and bigger Camshaft.
Seperate circuit after cooling
Very low emissions.
3500B series engines
We are now offering the engine in three versions
8 cylinder version -3508
12 cylinder version -3512.
16 cylinder version -3516.
We are now offering the engine in three versions
8 cylinder version -3508
12 cylinder version -3512.
16 cylinder version -3516.
Ratings
1000 KVA -3508 B -1180
BHP
1500 KVA -3512 B -1756
BHP
2000 KVA -3516 B -2293
BHP
1000 KVA -3508 B -1180
BHP
1500 KVA -3512 B -1756
BHP
2000 KVA -3516 B -2293
BHP
3500 series B electronic architecture
consists of
1.Engine control -ADEM II ( ECM)
2.Monitoring & Instrumentation -
EIP
3.Engine servicing -ET
4.Information management -
PRCM & CCM.
consists of
1.Engine control -ADEM II ( ECM)
2.Monitoring & Instrumentation -
EIP
3.Engine servicing -ET
4.Information management -
PRCM & CCM.
Advanced electronics
PCB technology used in the engine
control module has won mentor graphics
award -eight times against some of the
big names in computer and electronics
industry.
PCB technology used in the engine
control module has won mentor graphics
award -eight times against some of the
big names in computer and electronics
industry.
Electronic Architecture
ECM
E I P
ELECTRONIC
UNIT INJECTORS
ELECTRONIC SENSORS
CCM
PRCM
CAT DATA LINK
Optional
ECM
E I P
ELECTRONIC
UNIT INJECTORS
ELECTRONIC SENSORS
CCM
PRCM
CAT DATA LINK
Optional
Engine control module
ECM is a totally self
contained computer.
It has its own
internal power.
CPU has two
motorola 68 HC-11
microcontrollers and
A1 -kb dual port ram
chip, each of 2 MHz
ECM is a totally self
contained computer.
It has its own
internal power.
CPU has two
motorola 68 HC-11
microcontrollers and
A1 -kb dual port ram
chip, each of 2 MHz
EEPROM -Customer and factory
programmable values.
EPROM -Software programs.
FLASH EEPROM -Field up load software
program
OPERATING ROM -Library software
programs aboard micro controller.
BATTERY BACK RAM -Logged events &
data recording.
ECM MEMORIES.
programmable values.
EPROM -Software programs.
FLASH EEPROM -Field up load software
program
OPERATING ROM -Library software
programs aboard micro controller.
BATTERY BACK RAM -Logged events &
data recording.
ECM MEMORIES.
Electronic Injectors -Timing
and metering done by the
solenoid.
Solenoid is controlled by the
ECM.
ECM monitors the engine
real time.
Frequency of monitoring is
1/4th of a second.
ECM gives command for the
solenoid to open and close
FUEL SYSTEM OF 3500 B
SERIES
and metering done by the
solenoid.
Solenoid is controlled by the
ECM.
ECM monitors the engine
real time.
Frequency of monitoring is
1/4th of a second.
ECM gives command for the
solenoid to open and close
FUEL SYSTEM OF 3500 B
SERIES
ELECTRONIC UNIT
INJECTORS
Electronically controlled
unit injector combines
electronic actuator,
pump assembly and
nozzle into a single
compact unit.
The fuel can be injected
into the cylinder at a
very high pressure to the
tune of 22000 psi.
Fuel is metered by the
solenoid valve and also
INJECTORS
Electronically controlled
unit injector combines
electronic actuator,
pump assembly and
nozzle into a single
compact unit.
The fuel can be injected
into the cylinder at a
very high pressure to the
tune of 22000 psi.
Fuel is metered by the
solenoid valve and also
Timing control by ADEM II
(ECM)
•Timing is varied with
respect to speed ,
load and after cooler
temperature -4 D
timing map..
•Cold mode strategy
adjusts fuel injection
timing as a function
of jacket water
temperature, engine
speed and injection
duration.
(ECM)
•Timing is varied with
respect to speed ,
load and after cooler
temperature -4 D
timing map..
•Cold mode strategy
adjusts fuel injection
timing as a function
of jacket water
temperature, engine
speed and injection
duration.
EUI -Injector Fill
Without
pressure from
the rocker arm,
a spring keeps
the plunger
retracted
Fuel flows into
the injector
through the fill /
spill port, past
Without
pressure from
the rocker arm,
a spring keeps
the plunger
retracted
Fuel flows into
the injector
through the fill /
spill port, past
EUI -Mechanical
Stroke
As the cam
rotates, it
drives the
plunger
downward
Until the ECM
signals the
start of
injection, fuel
goes out the
fill / spill port
Stroke
As the cam
rotates, it
drives the
plunger
downward
Until the ECM
signals the
start of
injection, fuel
goes out the
fill / spill port
EUI -Injection
On a signal
from the ECM,
the solenoid
closes the
poppet valve
Pressure
elevates at
the tip to the
5,500 psi
needed to
unseat the
nozzle check /
On a signal
from the ECM,
the solenoid
closes the
poppet valve
Pressure
elevates at
the tip to the
5,500 psi
needed to
unseat the
nozzle check /
EUI -Injection
Fuel continues
to inject until
the ECM
signals the
solenoid to
open the valve
Injection
timing and
duration is
controlled by
the ECM
Fuel continues
to inject until
the ECM
signals the
solenoid to
open the valve
Injection
timing and
duration is
controlled by
the ECM
SFC CHART
251.4
223.3
215
209.7
203.3
199.9
197.9
196.8
196.5
196.4
196.7
197.2
0
50
100
150
200
250
300
100
90 80 75 70 60 50 40 30 25 20 10
%load
sfc in gms/kwh(+/-3%)
251.4
223.3
215
209.7
203.3
199.9
197.9
196.8
196.5
196.4
196.7
197.2
0
50
100
150
200
250
300
100
90 80 75 70 60 50 40 30 25 20 10
%load
sfc in gms/kwh(+/-3%)
Fuel Savings -3500 B
series
Fuel savings -compared
to the competetion 15 -
20 % !!!
THE BEST in its class.
THE RESULT -Customer
laughs all the way to the
BANK.
series
Fuel savings -compared
to the competetion 15 -
20 % !!!
THE BEST in its class.
THE RESULT -Customer
laughs all the way to the
BANK.
SENSOR
S
Sensors used on the
engine are Electrical -
either Digital or Analog
Power Supply is
distributed by ADEM II.
All Electronic Items
undergo Failure Mode
and Effects Analysis
to ensure very high
reliability
S
Sensors used on the
engine are Electrical -
either Digital or Analog
Power Supply is
distributed by ADEM II.
All Electronic Items
undergo Failure Mode
and Effects Analysis
to ensure very high
reliability
Crankcase pressure sensor.
Coolant temperature sensor.
Filtered fuel pressure sensor.
Unfiltered fuel pressure sensor.
Filtered oil pressure sensor.
Unfiltered oil pressure sensor.
Speed /timing sensor.
Left turbocharger inlet pressure
sensor
Right turbocharger inlet pressure
sensor.
Turbocharger outlet pressure sensor.
Atmospheric pressure sensor.
Aftercooler temperature sensor.
Right exhaust temperature sensor.
Left exhaust temperature sensor.
SENSORS
Coolant temperature sensor.
Filtered fuel pressure sensor.
Unfiltered fuel pressure sensor.
Filtered oil pressure sensor.
Unfiltered oil pressure sensor.
Speed /timing sensor.
Left turbocharger inlet pressure
sensor
Right turbocharger inlet pressure
sensor.
Turbocharger outlet pressure sensor.
Atmospheric pressure sensor.
Aftercooler temperature sensor.
Right exhaust temperature sensor.
Left exhaust temperature sensor.
SENSORS
3500 B series Engine
Monitoring
Monitoring
ELECTRONIC INSTRUMENT
PANEL
EIP consists of the following for the monitoring
of the engine continuously.
1. Gauge clusters
2. Smart electronic monitoring system.
3. Engine control switch
4. Scroll switch
5. Mode selector toggle switch
6. Horn & horn silencer.
Most importantly this panel can be kept even
100 ft away from the engine using extension
cables and mounting hard ware.
PANEL
EIP consists of the following for the monitoring
of the engine continuously.
1. Gauge clusters
2. Smart electronic monitoring system.
3. Engine control switch
4. Scroll switch
5. Mode selector toggle switch
6. Horn & horn silencer.
Most importantly this panel can be kept even
100 ft away from the engine using extension
cables and mounting hard ware.
GUAGE
CLUSTERS
There will be two guage
clusters as standard in the
engine
Each guage cluster will have
four guages for monitoring the
following.
1. Oil pressure
2. Coolant temperature
3. System voltage
4. Fuel pressure.
Oil Pressure
System Voltage
Coolant Temp
Fuel Pressure
CLUSTERS
There will be two guage
clusters as standard in the
engine
Each guage cluster will have
four guages for monitoring the
following.
1. Oil pressure
2. Coolant temperature
3. System voltage
4. Fuel pressure.
Oil Pressure
System Voltage
Coolant Temp
Fuel Pressure
5. RH exhaust temperature.
6. LH exhaust temperature.
7. RH air inlet pressure
8. LH air inlet pressure.
9. Fuel filter pressure differential
10. Oil filter pressure differential.
Exhaust
Temp
Fuel Filter
Restriction
Air Inlet
Restriction
Oil Filter
Restriction
GUAGE CLUSTERS
6. LH exhaust temperature.
7. RH air inlet pressure
8. LH air inlet pressure.
9. Fuel filter pressure differential
10. Oil filter pressure differential.
Exhaust
Temp
Fuel Filter
Restriction
Air Inlet
Restriction
Oil Filter
Restriction
GUAGE CLUSTERS
SEMS panel has ten LED s
with alaram to alert the
operator of the condition of
the engine :
System shutdown .
System voltage.
Overspeed
Overcrank
Not in auto.
Low oil pressure.
High coolant
temperature
Low coolant
temperature
Engine coolant level
Engine fuel level(
SEMS
PANEL
with alaram to alert the
operator of the condition of
the engine :
System shutdown .
System voltage.
Overspeed
Overcrank
Not in auto.
Low oil pressure.
High coolant
temperature
Low coolant
temperature
Engine coolant level
Engine fuel level(
SEMS
PANEL
SEMS Panel has a Liquid
Crystal Display or LCD
which can give read out of
engine parameters
MODE -0: Engine speed and
hours of operation
MODE -1 : Fuel
consumption /hr and
individual values being
displayed by guage modules.
MODE -2 : Diagonostic
codes
MODE -3 : Displays the
worst case & Tattle tale.
MODE -4 : Toggles between
English and Meteric units.
SEMS Panel
Crystal Display or LCD
which can give read out of
engine parameters
MODE -0: Engine speed and
hours of operation
MODE -1 : Fuel
consumption /hr and
individual values being
displayed by guage modules.
MODE -2 : Diagonostic
codes
MODE -3 : Displays the
worst case & Tattle tale.
MODE -4 : Toggles between
English and Meteric units.
SEMS Panel
ENGINE CONTROL SWITCH
ENGINE CONTROL
SWITCH HAS THE
FOLLOWING
SELECTIONS.
OFF/ RESET
AUTO
MAUAL START
COOL DOWN / STOP
AUTO
MANUAL
START
STOP
OFF -RESET
ENGINE CONTROL
SWITCH HAS THE
FOLLOWING
SELECTIONS.
OFF/ RESET
AUTO
MAUAL START
COOL DOWN / STOP
AUTO
MANUAL
START
STOP
OFF -RESET
Emergency Stop Button and
Alarm/Alarm Silence
Alarm/Alarm Silence
Start-up Testing
CAT DATA LINK
The cat data link is a
proprietory high speed
electronic communication.
Using this link ECM can
share information EMCP
II, PRCM, CCM and ADEM
related service tool.
Maximum total distance
from one end of the link to
the other is 1500 ft (457 m)
The cat data link is a
proprietory high speed
electronic communication.
Using this link ECM can
share information EMCP
II, PRCM, CCM and ADEM
related service tool.
Maximum total distance
from one end of the link to
the other is 1500 ft (457 m)
ENGINE PROTECTION
STRATEGIESPARAMETERS ALARM DERATE SHUT OFF
ECM VOLTAGE YES
ENGINE OIL PRESSURE YES YES YES
JW TEMPERATURE HIGH YES YES YES
JW TEMPERATURE LOW YES
OVERSPEED YES YES
AIR INLET RESTRICTION YES YES
ALTITUDE DERATION YES
EXH. TEMPERATURE YES YES
OIL FILTER DIFFERENTIAL YES
FUEL FILTER DIFFERENTIAL YES
CRANK CASE PRESSURE YES YES YES
AFTER COOLER TEMP HIGH YES YES
STRATEGIESPARAMETERS ALARM DERATE SHUT OFF
ECM VOLTAGE YES
ENGINE OIL PRESSURE YES YES YES
JW TEMPERATURE HIGH YES YES YES
JW TEMPERATURE LOW YES
OVERSPEED YES YES
AIR INLET RESTRICTION YES YES
ALTITUDE DERATION YES
EXH. TEMPERATURE YES YES
OIL FILTER DIFFERENTIAL YES
FUEL FILTER DIFFERENTIAL YES
CRANK CASE PRESSURE YES YES YES
AFTER COOLER TEMP HIGH YES YES
CAT Electronic Technician
By using this computer
based service tool the
3500 series B
electronics can be
easily accessed. CAT
ET provides real time
access
ET can also capture the
engine operating
conditions just before
the fault condition.
ET is also self
diagnosing, it is able to
detect the correctness
of the reading.
By using this computer
based service tool the
3500 series B
electronics can be
easily accessed. CAT
ET provides real time
access
ET can also capture the
engine operating
conditions just before
the fault condition.
ET is also self
diagnosing, it is able to
detect the correctness
of the reading.
Customer Programmable
Functions
Accelaration delay on start up.
Accelaration ramp time.
Cooldown /shut down
Auto crank cycle time
Crank terminate.
Here the customer can alter the default
settings of the engine to suit his
convenience with a service tool only. No
password required.
Functions
Accelaration delay on start up.
Accelaration ramp time.
Cooldown /shut down
Auto crank cycle time
Crank terminate.
Here the customer can alter the default
settings of the engine to suit his
convenience with a service tool only. No
password required.
Low emission diesel
30% average
improvement
5-8 g/bhp-hr
depending on SCAC
strategy
Improved fuel
economy
Improved transient
response
Less transient smoke
Emissions
30% average
improvement
5-8 g/bhp-hr
depending on SCAC
strategy
Improved fuel
economy
Improved transient
response
Less transient smoke
Emissions
New Emission Draft LawsSmoke
Limit
No
xHCCOPM
1.7.20039.21.350.60.7
1.7.20049.21.33.50.30.7
1.7.20039.21.350.50.7
1.7.20049.21.33.50.30.7
>50kwupto
260 kw 1.7.20039.21.33.50.30.7
>260kw upto
800kw 1.7.20049.21.33.50.30.7
>19kw upto
50kw
Rating
Date of
Impleme
ntation
Emission limits(g/kw-
hr) for
upto 19kw
Limit
No
xHCCOPM
1.7.20039.21.350.60.7
1.7.20049.21.33.50.30.7
1.7.20039.21.350.50.7
1.7.20049.21.33.50.30.7
>50kwupto
260 kw 1.7.20039.21.33.50.30.7
>260kw upto
800kw 1.7.20049.21.33.50.30.7
>19kw upto
50kw
Rating
Date of
Impleme
ntation
Emission limits(g/kw-
hr) for
upto 19kw
Remote Communications
PROGRAMMABLE RELAY CONTROL
MODULE.(OPTIONAL)
By using PRCM, information
through CAT data link can be
used to activate standard
relay contacts.
This has seven standard
relays and it can be expanded
upto total 25 relay contacts.
Since it is programmable,
operator can select from over
53 functions, which to
annunciate.
This can be used for remote
PRCM
SEVEN RELAYS
LEDS
MODULE.(OPTIONAL)
By using PRCM, information
through CAT data link can be
used to activate standard
relay contacts.
This has seven standard
relays and it can be expanded
upto total 25 relay contacts.
Since it is programmable,
operator can select from over
53 functions, which to
annunciate.
This can be used for remote
PRCM
SEVEN RELAYS
LEDS
ECM
PRCM
CAT DATA LINK
DIGITAL SIGNALS
RELAY OUTPUTS
RELAY
RELAY
DATA LINKS
UPTO 1000 FT OR 305 M
9 DRY CONTACTS
9 DRY CONTACTS
PROGRAMMABLE RELAY CONTROL
MODULE (OPTIONAL)
PRCM
CAT DATA LINK
DIGITAL SIGNALS
RELAY OUTPUTS
RELAY
RELAY
DATA LINKS
UPTO 1000 FT OR 305 M
9 DRY CONTACTS
9 DRY CONTACTS
PROGRAMMABLE RELAY CONTROL
MODULE (OPTIONAL)
CAT DATA LINK
DATA LINKS
UPTO 1000 FT OR 305 M
CCM
MODEM
SATELLITE
PERSONAL
COMPUTER
PERSONAL
COMPUTER
Customer Communication
Module(Optional)
ECM
DATA LINKS
UPTO 1000 FT OR 305 M
CCM
MODEM
SATELLITE
PERSONAL
COMPUTER
PERSONAL
COMPUTER
Customer Communication
Module(Optional)
ECM
Genset Data Links
CAMCIM
Alarm Modules (six options)
CCM
ADEM
Remote
RDM
Note: Maximum of 3 Modules
on Serial Data Link
Serial Data Link
(two conductor,
1000 feet max.
from GSC)
Generator Fault
Relay Output to
Breaker Shunt tripOver current/
Over Voltage
Relays
RS 232
Interface
(40 feet
max.)
Cat Data Link
(two conductor,
1500 feet max.)
CAMCIM
Alarm Modules (six options)
CCM
ADEM
Remote
RDM
Note: Maximum of 3 Modules
on Serial Data Link
Serial Data Link
(two conductor,
1000 feet max.
from GSC)
Generator Fault
Relay Output to
Breaker Shunt tripOver current/
Over Voltage
Relays
RS 232
Interface
(40 feet
max.)
Cat Data Link
(two conductor,
1500 feet max.)
CYLINDER
BLOCK
High Tensile strength
block -better strength &
Rigidity.
Top Deck Cooling Shelf
-Optimized heat
transfer & Cool
operation and long
Engine life
Access covers on block
with out board split
camshafts.
BLOCK
High Tensile strength
block -better strength &
Rigidity.
Top Deck Cooling Shelf
-Optimized heat
transfer & Cool
operation and long
Engine life
Access covers on block
with out board split
camshafts.
Articulated
Pistons
These engines uses two
piece articulated piston
consisting of forged steel
crown and a cast
aluminium skirt.
This two part design
provides excellent piston
strength and reduced
weight while allowing for
closer fit to the cylinder
liner and reducing noise
from piston slap.
These pistons also
incorporate gallery
cooling, this allows oil to
Pistons
These engines uses two
piece articulated piston
consisting of forged steel
crown and a cast
aluminium skirt.
This two part design
provides excellent piston
strength and reduced
weight while allowing for
closer fit to the cylinder
liner and reducing noise
from piston slap.
These pistons also
incorporate gallery
cooling, this allows oil to
Larger Camshafts
Cam shaft major bearing diameter from
85.9 mm to 91.9 mm to allow for more
aggressive lift ramp on injector lobe.
Cam base circle and un machined core
diameters are increased to the maximum
diameter possible.
To accomadate higher valve train loads ,
all lifters feature a larger diameter roller
pressure lubricated . helper spring
provided for better stability.
Cam shaft major bearing diameter from
85.9 mm to 91.9 mm to allow for more
aggressive lift ramp on injector lobe.
Cam base circle and un machined core
diameters are increased to the maximum
diameter possible.
To accomadate higher valve train loads ,
all lifters feature a larger diameter roller
pressure lubricated . helper spring
provided for better stability.
R
A
D
I
A
T
O
R
Lower fuel consumption and low
emissions, controlling the after cooler
temperature either to 30 deg C or 60
deg C or 90 deg C, irrespective of
ambient temperature.
Seperate Circuit After
Cooling (SCAC)
ENGINE
AFTER COOLER
P
P
A
C
R
A
D
A
D
I
A
T
O
R
Lower fuel consumption and low
emissions, controlling the after cooler
temperature either to 30 deg C or 60
deg C or 90 deg C, irrespective of
ambient temperature.
Seperate Circuit After
Cooling (SCAC)
ENGINE
AFTER COOLER
P
P
A
C
R
A
D
3500 B -Transient
ResponseTransient Response
30
35
40
45
50
55
1 2 3 4 5 6 7 8 9 1011
Time(secs)
Freq.(Hz)
(secs)
3516 B
3516
Transient response is
excellent due to :
Higher injection
pressures
Improved combustion
chamber design.
Better atomisation.
Variable timing.
Dual turbo -low
inertia matched
turbos
ResponseTransient Response
30
35
40
45
50
55
1 2 3 4 5 6 7 8 9 1011
Time(secs)
Freq.(Hz)
(secs)
3516 B
3516
Transient response is
excellent due to :
Higher injection
pressures
Improved combustion
chamber design.
Better atomisation.
Variable timing.
Dual turbo -low
inertia matched
turbos
Service is the Difference
Partners in Power
Power Partners should have
complimentary capabilities and
organizations. Choosing the correct
partner is the key to the long term success
Power Partners should have
complimentary capabilities and
organizations. Choosing the correct
partner is the key to the long term success
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