| Customization: | Available |
|---|---|
| Certification: | ISO9001, CE |
| Standard Component: | Standard Component |
Suppliers with verified business licenses
Audited Supplier Audited by an independent third-party inspection agency
Woodward gas controller valve Tecjet110 8407-523
The original Woodward gas controller valve TECJE50plus, gas control valve TECJE52 and TECJE110 can be equipped with 12V190 gas engine and 16V190 generator set of Jichai.
The difference between Tecjet50+ and TecJet™ 52 intelligent electronically controlled gas control valves for the Woodward 190 series
1. Improved anti-vibration performance compared to Tecjet 50 Plus
2. New platforms that allow for future performance improvements and new applications or processors
3. Integrated return spring
4. Matches Jichai EGS-02
5. Bidirectional communication CAN be realized through CANBUS, CANOPEN, 1939 or custom CAN
6. Better dynamic response & reproducibility than Tecjet 50 Plus
7. Full flow range control accuracy is reliable
8. Flow testing ensures that the engine does not need to be recalibrated after the replacement of Tecjet
9. Compensate gas pressure and gas temperature fluctuation
More installation options include:
Smaller and lighter than Tecjet 50 Plus/Flanged connection/Easily change Tecjet 50 (original version) to Tecjet 52 if space is limited/Fully compatible with Tecjet 50 Plus
Gas metering valves 8407-512 and 8407-514, Woodward EGS02 gas metering valves Tecjet50
An independent engine control system, such as Jichai EGS-02, can calculate the gas demand flow according to different engine and gas parameters.This gas demand flow rate is transmitted through the CAN bus to the Tecjet valve.Tecjet valves automatically compensate for gas pressure and gas temperature changes to ensure that gas is supplied at the required flow rate.
The microprocessor in the Woodward Tecjet valve converts the gas demand flow signal and gas parameter information into a valve position signal based on the gas intake pressure, gas temperature and valve differential pressure.
The function of the intercooler is to reduce the intake temperature of the engine.So why lower the intake temperature?
(1) the temperature of the exhaust gas from the engine is very high, and the temperature of the intake air will be increased through the heat conduction of the supercharger.Moreover, the density of air will increase in the process of compression, which will also lead to the temperature rise of the air discharged from the supercharger, which will increase with the pressure, but the oxygen density will decrease, thus affecting the effective charging efficiency of the engine.If you want to further improve the charging efficiency, it is necessary to reduce the intake temperature.Data show that under the same air-fuel ratio conditions, the engine power can be increased by 3% ~ 5% for every 10 ºC drop in the temperature of the pressurized air.
(2) If the uncooled pressurized air enters the combustion chamber, it will not only affect the charging efficiency of the engine, but also easily lead to too high combustion temperature of the engine, causing faults such as knock, and increase the content of NOx in the exhaust gas of the engine, causing air pollution.
In order to solve the adverse effect caused by the pressurized air heating, it is necessary to install an intercooler to reduce the intake air temperature
(3) reduce engine fuel consumption.
(4) to improve the adaptability to altitude.At high altitudes, the use of intercooling allows the use of a compressor with a higher pressure ratio, which gives the engine more power and improves the car's adaptability.
(5) improve the supercharger matching and adaptability.
| Main specification for gas gesets | ||||||||
| Model of genset | Model of engine | Rated Power(KW/KVA) | Rated Voltage(V) | Rated Frequency(HZ) | Overall Dimension L*B*H(mm) | Net weigh(KG) | Fuel | |
| 400GF-MK1 | 12V190ZLM-2 | 400/500 | 400/230 | 50 | 5120*2040*2678 | 12000 | coal gas | |
| 500GF-TK | G12V190ZLT-2 | 500/625 | 400/230 | 50 | 5120*2040*2678 | 12000 | natural gas | |
| 500GF-MK1 | 12V190ZLM | 500/625 | 400/230 | 50 | 5120*2040*2678 | 12000 | coal gas | |
| 500GF-MK2 | 12V190ZLM-2 | 500/625 | 400/230 | 50 | 5120*2040*2678 | 12000 | coal gas | |
| 500GF-LK | G12V190ZL-2 | 500/625 | 400/230 | 50 | 5120*2040*2678 | 12000 | refinery gas | |
| 700GF-TK | G12V190ZLT | 700/875 | 400/230 | 50 | 5120*2040*2678 | 12000 | natural gas | |
| Main specification for gas engines | ||||||||
| Model | Rated Power(KW) | Rated Speed(r/min) | Compression ratio | No.and layout of cylinders | Overall Dimension L*B*H(mm) | Net weigh(KG) | Fuel | |
| 12V190ZLM-2 | 450 | 1000 | 10:01 | 12,60.Vee | 2785*1628*2437 | 5300 | coal gas | |
| G12V190ZLL-2 | 550 | 1000 | 10:01 | 12,60.Vee | 2785*1628*2437 | 5300 | refinery gas | |
| 12V190ZLM | 550 | 1500 | 10:01 | 12,60.Vee | 2785*1628*2437 | 5300 | coal gas | |
| G12V190ZLT-2 | 600 | 1000 | 10:01 | 12,60.Vee | 2785*1628*2437 | 5300 | natural gas | |
| 12V190ZLZ | 700 | 1500 | 10:01 | 12,60.Vee | 2785*1628*2437 | 5300 | biogas | |
| G12V190ZLT | 800 | 1500 | 10:01 | 12,60.Vee | 2785*1628*2437 | 5300 | natural gas | |
| 12V190ZLT | 800 | 1500 | 10:01 | 12,60.Vee | 2670*1588*2538 | 5300 | natural gas | |
| Main technical data | ||||||||
| Type:Four stroke,water cooled,turbocharged and aftercooled,spark plug ignition,outer mixing | ||||||||
| Bore:190mm | ||||||||
| Stroke:210mm | ||||||||
| Direction of rotation:Counter-clockwise(facing to flywheel) | ||||||||
| Starting method: electric motor | ||||||||
| Lubricating method:Pressure and splash lubrication | ||||||||
| Specific heat consumption:≤9800KJ/KW·h | ||||||||
| Specific oil consumption:≤1.6g/KW·h | ||||||||
| Stable speed regulating rate:0-5%adjustable | ||||||||
){kind=link}