application scenarios:
Oil & Gas Fields / Mining Areas: Two sets in parallel providing 2MW power, meeting the temporary power needs of drilling platforms and mining sites. The containerized design is ideal for outdoor transportation.
Data Centers / Hospitals: Achieving 90% continuous running efficiency and 40% thermal efficiency, ensuring uninterrupted power supply for critical loads (such as servers and medical equipment) 24/7. Emergency load response time is less than 3 seconds.
Industrial Parks: Suitable for natural gas with methane content >85% / associated gas, reducing gas waste in the park, while also supporting ethane/propane mixed fuels, adaptable to various gas sources.
Core Advantage Comparison:
| Comparison Dimension | Unit (2 Sets in Parallel) | Traditional Diesel Genset | Standard Natural Gas Genset |
| Electrical Efficiency (Heat Rate) | 40% (V12 Cylinder) | 32% - 35% | 35% - 38% |
| Fuel Cost | Natural gas unit price is low; 30% - 40% annual savings. | Diesel price fluctuates greatly, resulting in high costs. | Lower fuel cost, but source flexibility is limited; some applications require additional modification. |
| Maintenance Interval (Cylinder Head Components) | 16,000 hours | 8,000 - 10,000 hours | 12,000 hours |
| Paralleling Capability | Supports 2-8 units for free paralleling and automatic load sharing. | Requires additional paralleling switchgear with poor compatibility. | Only supports paralleling of ≤ 2 units of the same brand. |
Features of Deutz units:
1. The unit is small in size and good at container-type modular use. It can be freely assembled, paralleled, and adjusted according to the actual load.
2.The equipment is easy to install, connect, and relocate to meet the needs of different project types.
3. The engine is relatively stable, with good sudden load performance, and can supply the required power in a short time without long preheating.
4. Good power generation efficiency, 6-cylinder performance reaches 38%, 12-cylinder performance reaches 40%
5. Strong fuel adaptability: ethane, propane, butane and other multi-component mixed gases can be used, and the explosion-proof performance is enhanced.
6. Stable power supply: In online standby mode, when a single machine fails and protection load reduction/shutdown occurs, the power supply system automatically adjusts the load to ensure normal power consumption.
7. Strong environmental adaptability: It can operate normally in dust, high temperature, low temperature, high humidity and other environments, and the reliability is greatly improved.
8. Cloud platform remote monitoring system can be equipped: We'll check the operation of the equipment online(customer permitted), inform the hidden dangers in advance, and train customers to use the remote cloud inspection service.
9. Low maintenance cost: The equipment adopts an independent cylinder head, and the maintenance cycle of the maintenance parts on the top of the cylinder head is 16,000 hours.
Noted:The product can provide special customization services. If you have any needs, please consult us;
Our Solution
| Pain Point | Solution Offered | Key Benefit |
| Unstable Gas Source | Fuel Flexibility: Supports multi-component mixed gas with >85% Methane (CH$_4$). | Lower Upfront Cost: Eliminates the need for expensive, extra gas purification equipment. |
| Difficult Remote Operation and Maintenance | Cloud Platform Remote Monitoring (with customer authorization). | Proactive Maintenance: Provides early fault warnings (e.g., low lube oil, abnormal water temperature), significantly reducing the need for costly on-site service trips. |
| High Load Fluctuation | Excellent Transient Load Performance (for sudden load changes). | Maximum Uptime: When a single unit fails in a parallel system, the load automatically transfers to the other unit(s), ensuring the power interruption is <0.5 s (significantly faster than the industry standard of 1-2 s) |
Product Parameters:
AC Alternator data | Gas engine data |
Generator Brand | Mecca | Engine Brand | Huachai-Deutz |
Motor Model | ECO38 1L4C | Engine Model | HC6V132 |
Rated Voltage(V) | 415 | Engine type | V6 cylinders, Exhaust turbocharger with water-cooled turbine housing |
Rated Power(H class)kW | 240 | Cylinder Bore x Stroke(mm) | 132mm×145mm |
Rated Capacity(H class)kVA | 300 | Displacement (L) | 11.9 |
Motor efficiency (%)/(400V) | 93.5 | Compression ratio | 11 |
Power factor | 0.8 | Rated output power (single) | 300kW-1500rpm/1800rpm |
Connection Methods | D/Y | Maximum lubricant consumption (g/kW.h) | <0.3 |
Rotor insulation class | H class | Minimum air intake (kg/h) | 1150 |
Rated temperature rise | F class | Ignition method | Electronically controlled single-cylinder independent high-energy ignition |
Excitation method | Brush-less | Fuel Control Method | Equivalent combustion, closed loop control |
Rotation speed (min- 1) | 1500/1800 | Debugging method | Electronic commissioning |
Shell protection grade | IP23 | Cooling method | Forced water cooling |
Remarks:
1.Engine Control System: ECI (American brand);
2.Throttle: Bosch (German brand);
3.Spark plug: NGK(Japanese brand);
4.Generator master controller: Comap (Czech brand); DEIF(Danish brand); DSE(England brnad);
5.Altermator: Mecca (Italian brand); Stamford (American brand); Leroy Somer (French brand);
6.Starting mode: electric start;
7.Overhaul period: 36000h~60000h;
8.Generator type: pure copper brushless, automatic voltage regulation;
9.Operation mode: grid-connected/parallel/isolated/automatic control, etc;
Here’re some typical cases:
Shanghai Disney Resort Distributed Energy Station: Utilizes a natural gas trigeneration system to provide most of the electricity, cooling, and heating for the entire resort.
Guangzhou University Town Distributed Energy Station: One of the largest distributed energy projects in South China.
Hospitals and Data Centers: Commonly equipped with high-power natural gas emergency generators to ensure uninterrupted operation of life support systems and servers during power outages.
