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G3520C Series Gas Engine G3520C Series Gas Engine
Gas Engine Business Strategy & MarketsGas Engine Business Strategy & Markets
• What are the market drivers for the 1 – 2 MW gas engine series?
EfficiencyEmissions Installed CostPerformance / Availability Maintenance Cost
G3500C Design Modifications G3500C Design Modifications
Head
Air System
Exhaust System
Fuel System
Controls
G3520C GAS ENGINE / G3520C GAS ENGINE / GENSET RATINGSGENSET RATINGS
G3520C Gas Engine Ratings G3520C Gas Engine Ratings 50 Hz Ratings 50 Hz Ratings
JW SCAC Continuous Generator Frequency
50 Hz Rating º C º C kVA eKW rpm
CHP Gen Set * 90 32, 54 2500 2000 1500
99 32, 54
Open Gen Set 90 32, 54 2437 1950 1500
99 70
Emissions 0.5 g/bhp hr & 1.0 g/bhp hr; ½ TA Luft & TA Luft*
Efficiency** 42.3% (ISO 3046/1 @80MN)
Heat Rate 8.67 MJ/ekw-hr ( ISO 3046/1 80MN) CHP Genset
8532 BTU/ekw-hr ( ISO 3046/1 80MN) Open Package
* No JW/ SCAC pump ** Mechanical Efficiency (CHP w/o pumps)
G3520C GAS ENGINE G3520C GAS ENGINE SYSTEMSYSTEM
G3520C Gas Engine SystemG3520C Gas Engine SystemGas Engine vs. Diesel ConfigurationGas Engine vs. Diesel Configuration
• Basic Engine Design Based on Proven Diesel Engine
• Kept the following strong diesel components – gas engines BMEP levels are lower than diesel
Crankshaft Cylinder Block Rods & Bearings Camshaft
• Unique Gas Components which are not common to Diesel New Cylinder Head Design New Larger Exhaust and Air Intake System
– Larger Turbo, significantly Larger After-cooler, and now Outboard Mounted Exhaust. New Patent Pending Control System
– Senses Combustion Air Density for Power & Air Fuel Ratio Control.
G3520C Gas Engine SystemG3520C Gas Engine SystemCurrent Fuel Requirements Current Fuel Requirements
• Designed for Pipeline Quality Natural Gas 80 MN is the base fuel for 50/60 Hz At 65 MN the fuel is burning faster and it is necessary to
retard timing – Derates from 5 – 14% (for 50Hz)
• The derates for both (50 / 60 Hz) depends on JW and SCAC temperatures and emission levels.
Power & Fuel Efficiency Estimates on 31 & 55MN (Japan 13A )
Fuel system sized for 31.5 - 47.2 MJ/Nm3 (800 - 1200 btu/ft3) range
– System design permits easy adaptation to low energy fuels.
G3520C Gas Engine SystemG3520C Gas Engine SystemLow Pressure Fuel System Low Pressure Fuel System
• Low pressure gas capability 35 – 345 mbar (0.50 - 5 psi for 50 Hz) and 45 – 345 mbar (0.65 - 5 psi for 60 Hz) Possible by the open chamber design
• Exclusive Caterpillar Fuel Control Valve Receives control signal from ECM (ADEM III based control) to
deliver proper fuel flow. Electronic controls lead to accurate fuel flow and low emissions
with more diagnostic capability
BENEFIT: Simple effective design with “state of the art” electronics control.
G3520C Gas Engine System G3520C Gas Engine System Fuel System Fuel System
G3500 B G3500 B Combustion System Combustion System
G3500 C G3500 C Combustion System Combustion System
14 Bar BMEP 19.2 Bar BMEP* (50 Hz)
16.6 Bar BMEP* (60 Hz)
*19.2 BMEP @ 32C SCAC 16.6 BMEP @ 54C SCAC
High Swirl Combustion Low/No Swirl Combustion
11.7:1 Offset Bowl Piston 11.3:1 Center Bowl Piston
ABB RR151 Turbo One ABB TPS57 Turbo (50Hz)
Two ABB TPC49 Turbo (60Hz) Top view of 60Hz Product Fuel System
G3520C Gas Engine SystemG3520C Gas Engine SystemFuel System Fuel System
Benefits of G3520C Fuel System:
• Charge density closed loop air to fuel ratio control
Maintains the level of NOx emissions
Closed Loop Control without Oxygen Sensor
•Fuel system designed for high BMEP operation
Optimizes cylinder to cylinder flow distribution
Higher power density, thus better fuel efficiency
G3520C Gas Engine SystemG3520C Gas Engine SystemFuel System Fuel System
• Engine installed electronic fuel metering valve.• Throttle plate, electronically controlled 24 V DC Actuator: GECM
Controlled.• Gas shutoff valve ( 24V DC) energized-to-run, ETR.• Fuel Filter required.• ANSI/din flange connections.
G3520C Gas Engine SystemG3520C Gas Engine SystemLube &Lube & Cooling SystemCooling System
• Cooling Circuits JW, Oil Cooler and 1st Stage AC are all combined on one circuit for easy heat
recovery Standard outlet temperature of 90 ºC Optional 99 ºC for CHP applications DIN/ANSI flanged customer connections.
• Lube System Spin on oil filters for easy oil changes Long oil life (estimate 1500 hrs of typical operation) A very low 0.3 g/bkw-hr (1500rpm) & 0.35 g/bkw-hr (1800rpm) of oil
consumption.
• Remote Radiator Options 43 °C ambient capability for 54 °C SCAC (90 °C JW)
Remote radiator at 60 Hz field test site Remote radiator at 60 Hz field test site
G3520C Gas Engine System G3520C Gas Engine System Lube & Cooling System Lube & Cooling System
Added cooling ring around cylinder head valve seat inserts
BENEFIT: Cooler Valves for Longer Life
G3520C Gas Engine SystemG3520C Gas Engine SystemCooling SystemCooling System
G3520C Gas Engine System G3520C Gas Engine System Air System Air System
• Front Mounted Turbocharger Benefit: Front mount
reduces concentration of heat from generator and engine as opposed to the rear mounted turbochargers.
Single TPS57 turbocharger for 50 Hz
Dual TPC49 for 60 Hz
• V-design Air Inlet, Outboard Mounted Exhaust
Benefit: Larger piping size minimizes flow losses and virtually eliminates inlet charge reheating.
Completely NEW Redesign of Cylinder Head
“Staggered” Valves: Moved Guide Bosses Out of Intake and Exhaust Port Paths.
BENEFIT: Less Flow Restriction and Better Efficiency.
G3520C Gas Engine SystemG3520C Gas Engine SystemAir SystemAir System
G3520C Gas Engine System G3520C Gas Engine System Air System Air System
Sloped Shoulder Design Mates With Band Clamp
• Exhaust Manifold Bellows and Clamps Band clamps push bellows and castings together
– Sloped shoulder mates with clamps and applies compression to joint. – Joints are gas tight and easy to remove and install without leakage.
G3520C Gas Engine Systems G3520C Gas Engine Systems Air System Air System
• Air Cleaner with enclosure is a ship loose standard item • Horizontal mount is the standard
G3520C Gas Engine System G3520C Gas Engine System Air System Air System
• Exhaust Shielding Molded foil lined insulation halves spring clamp around the exhaust manifold. Outer metal covering over insulation. All piping to turbo and most of turbo is covered in molded insulation and a soft
wrap.
Molded Insulation Halves
G3520C Gas Engine SystemG3520C Gas Engine System
Optional Positive Crankcase VentilationOptional Positive Crankcase Ventilation • Ingestive Crankcase Fumes System -- Strongly Recommend this
System if a PCV system is needed!
Removes 99.9 % plus of Oil Mist from Crankcase Fumes.
Returns “Oil Free” Crankcase Fumes to Air Intake for Combustion – No More Oil Mist Condensing at Crankcase Breather Tube. – Alternative to Systems which Place Oil Fumes in the Exhaust Stack
which can cause Plugging and Extra Maintenance.
Essentially No Buildup of Oil in Air Intake or AC Core which can lead to
decreased Engine Performance.
BENEFIT: Rear mounted for easy serviceability.
G3520C Gas Engine System G3520C Gas Engine System Control System Control System
Primary GECM
Connector
Cover Seal
Internal
Harness
Secondary
GECM
Service Tool Right Ignition Harness
GECM Enclosure
Shock Mounted back plate
G3520C Gas Engine SystemG3520C Gas Engine SystemControl SystemControl System
• Newer Gas Engine Control Module – based on ADEM III This is a single source for full engine control of following:
– Air to Fuel Ratio • Nitrogen Oxide Control
– Governing (4 – 20 ma speed input)• Iso Sync or Droop
– Ignition • Detonation protection per cylinder
– Start / Stop logic– Diagnostic reports– Alarms and Shutdowns– Remote data access and communications
G3520C Gas Engine SystemG3520C Gas Engine SystemControl SystemControl System
• Gas Engine Control Module – based on ADEM III Programmable Engine Protection System
– There are protection systems for the following: • Detonation Sensitive Timing • Failure to start (Over crank)• High Jacket Water Temperature • High Oil Temperature• Low Oil Pressure• High Exhaust Port Temperature
Temperatures are monitored from the Integrated Temperature Sensing Module (ITSM)
G3520C Gas Engine SystemG3520C Gas Engine SystemControl SystemControl System
• Gas Engine Control Module Communications Digital, User Friendly, ET Programmable, CCM offers PLC Monitoring. ECM transfers engine information over Data link:
• All engine safety alerts• Diagnostics and Prognostics• Engine Operating Parameters • Histogram Information• Internal Engine Temperatures• Cylinder & Turbocharger(s) Stack Temperatures
BENEFIT: Accessible engine performance information 24 hrs / day.
G3520C Gas Engine SystemG3520C Gas Engine SystemControl System Control System
Charge Density (Patent Pending) - Closed Loop Air-to-Fuel Ratio Control
• Tightly maintains the level of NOx emissions: Improved emissions control over previous Oxygen based system.
• Simple Design: No Oxygen Sensor - only the Inlet Pressure, Temperature Sensor, and ECM Maps are needed.
• Built-In maps in the ECM to determine fuel flow for desired load and % of Rated Load. • Flexible Design:
“Flash” programming of ECM allows easy field updates.
G3520C Gas Engine SystemG3520C Gas Engine System G3520C Engine Control G3520C Engine Control
• Excellent Transient Response at TA Luft (1.0 g/bhp-hr) & island mode operation:
Meets ISO 8528-5 Class 1–With up to 25 % first load step (See map next slide)
“Transient Richening” software provides load pickup “Turbo Bypass” piping and ECM software allows block unload
without turbo surge, improves engine stability Test were conducted at 21 kPa (3 psi) gas pressure to the
engine
G3520C Gas Engine System G3520C Gas Engine System Transient Capabilities Transient Capabilities
with Transient Richening and Turbo By-Pass with Transient Richening and Turbo By-Pass
G3520C Gas Engine System G3520C Gas Engine System Transient Capabilities Transient Capabilities
• Transient Richening software – supports load pickup by momentarily
richening the air-to-fuel mixture to improve load pickup.
• Turbo Bypass and the Gas Electronic Control Module software allows block
unload without turbo surges, and improves the engine stability.
Turbo Bypass Line Turbo Bypass Valve
• Coil “Pocket” in top of valve cover Coil is isolated from all conditions, external and internal.
(Slotted Top Cover shown in red on previous slide allows for Plug Connection & Heat to Escape)
Removal of coil is very easy by removing top cover.
“Jacking Screws” to assist in removing coil if needed.
G3520C Gas Engine System G3520C Gas Engine System Ignition System Ignition System
G3520C Gas Engine System G3520C Gas Engine System Ignition System Ignition System
• New feature on G3520C Spark plug is threaded into a water cooled insert in the cylinder head.
BENEFIT: Cooler spark plug for longer plug life
A slice through the bottom of cylinder head exposing the water passages to
the valve inserts and spark plug sleeve
G3520C Gas Engine System G3520C Gas Engine System Ignition System Ignition System
• Based on proven G3600 Ignition Coil and Jumper Tube.
•Pre-chamber type sparkplug
Pre-Chamber Type
Spark Plug
Jumper Tube
Ignition Coil
IGNITION ASSEMBLY
G3520C Gas Engine System G3520C Gas Engine System Ignition System Ignition System
• Ignition System Pre-Chamber Type Spark Plug
• Extends Lean Limit • Fewer Misfires • Proven on G3516B and G3520B
New Feature on G3520C • Spark Plug is threaded into a water cooled Plug Sleeve in the Cylinder Head
BENEFIT: Cooler spark plug for longer plug life
Improved controls assist engine performance:
• Detonation Sensors – • There is one detonation sensor per two cylinders. In addition, the “listening window” for detonation has been decreased. This reduces the chance for extraneous noises and the chance of false detonations.
• One detonation sensor per two cylinders allows individual cylinder monitoring and timing control.
BENEFIT: Optimized the detonation sensor to more accurately pick up only detonation related noises .
G3520C Gas Engine System G3520C Gas Engine System Ignition System Ignition System
DST Sensor
Sales InformationSales InformationMaintenance CostsMaintenance Costs
• The cost for maintenance is < 6 € /eMW hr * (Gen Set Only)
The cost for fuel and travel time are not include in the above price. Varies by labor rates. Standard Overhaul Intervals
B10 B50 B10** B50**Top End 15,000 Hrs 20,000 Hrs 12,000 Hrs 16,000 HrsMinor Overhaul 45,000 Hrs 60,000 Hrs 36,000 Hrs 48,000 HrsMajor Overhaul 90,000 Hrs 120,000 Hrs 72,000 Hrs 96,000 Hrs
* Based on average U.S. labor rates, 10 year, Continuous Operation Includes: Lube oil, Coolants, Minor and Major Overhauls, Unscheduled Maintenance
Sales Process Sales Process Generator Generator
• SR4B Generator Standard Features: Permanent Magnet Excited Form wound Class H insulation, Class F temperature rise @ 40 ºC/ 104 ºF 6 Lead SR4B with Digital Voltage Regulator 3-phase sensing Reactive droop RTD for Stator Winding Temperatures
Sales Process Sales Process Generator Generator
• SR4B Generators - Optional Features Low / Medium Voltage:
– Oversize and & Premium Generators.– Digital Voltage Regulator w/ kVAR/PF control.– Form Wound.– RTDs : Bearing Temperature Detectors.– European Bus Bar Connection. – Extension Box (Option on Low Voltage and Standard on Medium Voltage)
High Voltage: – Wall mount EMCP II + panel is standard on Open PKG Gensets
instead of generator mounted control. – Extension Box and RTDs for bearing temperature detection are standard.– K65-12B Voltage regulator is standard.
Sales Process Sales Process Starting / Charging System Starting / Charging System
• Standard 24V DC starters Air starter
– Consult Application Support Center
• Alternator, 45 Amps 24 V Standard on PKG
– Consult Application Support Center for CHP
60 Hz G3520C Series Gas Engine
G3520C Gas Engine SystemG3520C Gas Engine SystemEMCP II+EMCP II+ Control PanelControl Panel
• EMCP II+ control panel including: 24 volt DC control NEMA12, IP44 dust proof enclosure Lockable hinged door Generator terminal Box (Mounted Rear Facing) Single location customer connection UL 508A Listed Panel illuminating lights Auto start/stop control switch Voltage adjustment potentiometer True RMS AC metering, 3 phase Purge Cycle and Staged shutdown logic
G3500C Control System G3500C Control System
G3500C Control SystemG3500C Control System
• Oxygen Sensing Required NOx analyzer are commissioning Desired NOx level had associated O2 level
Oxygen sensing did not account for atmospheric changes
NOx levels could fluctuate +/- 130%
G3500C Control SystemG3500C Control System
• Customer required inputs via Cat ET Fuel quality
– The lower heating value of the fuel
Gas specific gravity– Fuel’s specific gravity in relation to the specific gravity of
air
Fuel specific heat ratio– Ratio of the fuel’s specific heat at a constant pressure and
the fuel’s specific heat at a constant volume
G3500C Control SystemG3500C Control System• Required load inputs
Engine full load rating– Rating stamped on the engines information plate in kW
Engine driven load equipment– Load of auxiliary equipment driven by the engine (such as a radiator)
Generator output power sensor scale factor– Linear scale between the wattmeter’s output voltage and the generator
output in kW
Generator output power sensor offset– Offset used to make the wattmeters output accurate
G3500C Control SystemG3500C Control System
• Calculation of the percentage of the engine’s load
[ ( A + G ) / R ] * 100 = % Load
• “A” is the load of the auxiliary equipment in kW• “G” is the generator’s output in kW• “R” is the engine’s rated load
G3500C Control SystemG3500C Control System• Open loop mode
Runs in open loop at loads < 25% ECM calculates air flow and fuel flow ECM utilizes volumetric efficiency (map in ECM)
along with pressure and temperature to calculate air flow
ECM sends signal to fuel metering valve to regulate fuel flow to the engine
This process is continuous up to 25% load
G3500C Control SystemG3500C Control System
• Charge density (patent pending) ECM uses patent pending algorithms incorporating
charge density Maps pre-programmed in ECM compare engine
speed and load to desired charge density ECM adjusts charge density as required
– Charge is too dense the volume of fuel is increased– Charge is inadequate the volume of fuel is reduced
G3500C Control SystemG3500C Control System• Charge density (patent pending)
FCF (fuel correction factor) calculated using map in ECM and fuel quality, allows programmed LHV to affect air/fuel ratio
Charge density varies so will the FCF NOx emission gain adjustment
– Additional required customer input for charge density– Allows small gain to richen or lean the mixture if needed– Small change of gain results in a large change of NOx
• Example: 1% change in gain result in NOx change of 20-40 ppm