High-Efficiency
Natural Gas Engine for Reliable, Low-Carbon Power Generation Our advanced
natural gas engines deliver high performance and exceptional
Fuel efficiency while supporting global decarbonization goals. Designed with lean-burn technology and intelligent control systems, these units reduce operational costs and meet strict international emissions standards—making them ideal for industries seeking clean, sustainable power solutions without compromising output. Key Features: - Optimized combustion system using turbocharged intercooling for improved thermal efficiency - Vertical inline six-cylinder water-cooled configuration ensuring smooth operation and reduced vibration - Intelligent ignition and low-pressure gas injection systems for precise fuel delivery and stable idling - Enhanced durability through wear-resistant valve seat inserts and specialized piston rings to minimize
Oil consumption - Compact footprint with optimized dimensions (up to 1436x939x1479 mm) and manageable weight (1078 kg), enabling flexible installation in various settings Detailed Description: The CM6T28F series natural
Gas Engine is engineered for consistent, reliable power generation across diverse industrial applications. Featuring a single overhead camshaft design, an integrated four-valve cylinder head, and wet-type water-cooled liners, this unit maximizes mechanical efficiency while minimizing maintenance requirements. The four-stroke cycle ensures cleaner exhaust emissions compared to two-stroke alternatives, aligning with Tier III emission regulations such as GB20891. With specific fuel consumption below 192 g/kW·h and noise levels under 97 dB(A), it provides quiet, efficient operation even in sensitive environments. Each model—including HMT 12F.380 30, HMT 12F.408 32, HMF 13F.408 30, and HMF 13F.435 32—offers tailored power outputs ranging from 280 kW to 320 kW at speeds between 1500 and 1800 rpm, allowing users to match engine capacity precisely to load demands. Ideal Applications: These engines are widely used in commercial and industrial power generation, including backup power systems for hospitals, data centers, and manufacturing facilities; cogeneration units in district heating projects; and mobile or fixed-site generator sets in remote locations where grid access is limited. Their compatibility with natural gas infrastructure makes them particularly suitable for regions transitioning away from diesel-based power sources toward cleaner alternatives. User Feedback: Customers consistently praise the engine’s robust build quality, ease of integration into existing power setups, and long-term reliability under continuous operation. Many highlight the noticeable reduction in both fuel expenses and environmental impact when switching from traditional
Diesel Engines to this natural gas-powered solution. Frequently Asked Questions: What makes this engine more efficient than conventional models? It employs lean-burn combustion, intelligent controls, and optimized airflow management that significantly lower fuel usage while maintaining peak torque across a wide RPM range. Is it suitable for continuous duty cycles? Yes, its durable construction, effective cooling system, and minimal wear components ensure reliable performance during extended runtime operations. Can it be adapted for different types of gas supply? While primarily designed for pipeline-quality natural gas, modifications can be made to accommodate biogas or landfill gas depending on purity levels and local regulations. How does it compare to diesel engines in terms of emissions? This engine emits substantially less NOx, CO, and particulate matter due to cleaner burning characteristics and compliance with stringent global standards like China Phase III, which many countries recognize as a benchmark for
Clean energy equipment.
