The NTA855-M is specifically engineered for marine propulsion systems, making it an ideal choice for a wide range of vessels such as fishing boats, commercial ships, yachts, and more.
With its robust construction and advanced features, this engine offers exceptional power and efficiency for marine operations.
At the heart of the NTA855-M lies a six-cylinder, in-line configuration that utilizes advanced turbocharging and aftercooling technologies. These features enhance the engine's combustion efficiency, resulting in improved fuel economy, reduced emissions, and increased power output. The engine's displacement of 14 liters provides ample torque and horsepower, ensuring reliable performance even in demanding marine environments.
The NTA855-M incorporates Cummins' cutting-edge engineering, including a reliable fuel injection system that optimizes combustion for both power and efficiency. This results in reduced fuel consumption and extended engine life. Additionally, the engine is designed with robust materials and components to withstand the corrosive nature of the marine environment, ensuring longevity and reduced maintenance requirements.
One of the standout features of the NTA855-M is its adaptability to various propulsion setups.
It can be used with traditional fixed-pitch propellers, controllable-pitch propellers, or water jets, offering flexibility to shipbuilders and operators to tailor the engine to their specific needs.
Cummins places a strong emphasis on serviceability, and the NTA855-M is no exception. Its modular design allows for easy access to critical components, simplifying maintenance and reducing downtime. This engine is also supported by Cummins' global service network, providing reliable assistance and spare parts availability in ports around the world.
The NTA855-M meets stringent emission standards, ensuring compliance with international regulations while minimizing the environmental impact of marine operations. Cummins' dedication to sustainable solutions is evident in the engine's design, contributing to cleaner and more efficient maritime transportation.
The NTA855-M is specifically engineered for marine propulsion systems, making it an ideal choice for a wide range of vessels such as fishing boats, commercial ships, yachts, and more.
With its robust construction and advanced features, this engine offers exceptional power and efficiency for marine operations.
At the heart of the NTA855-M lies a six-cylinder, in-line configuration that utilizes advanced turbocharging and aftercooling technologies. These features enhance the engine's combustion efficiency, resulting in improved fuel economy, reduced emissions, and increased power output. The engine's displacement of 14 liters provides ample torque and horsepower, ensuring reliable performance even in demanding marine environments.
The NTA855-M incorporates Cummins' cutting-edge engineering, including a reliable fuel injection system that optimizes combustion for both power and efficiency. This results in reduced fuel consumption and extended engine life. Additionally, the engine is designed with robust materials and components to withstand the corrosive nature of the marine environment, ensuring longevity and reduced maintenance requirements.
One of the standout features of the NTA855-M is its adaptability to various propulsion setups.
It can be used with traditional fixed-pitch propellers, controllable-pitch propellers, or water jets, offering flexibility to shipbuilders and operators to tailor the engine to their specific needs.
Cummins places a strong emphasis on serviceability, and the NTA855-M is no exception. Its modular design allows for easy access to critical components, simplifying maintenance and reducing downtime. This engine is also supported by Cummins' global service network, providing reliable assistance and spare parts availability in ports around the world.
The NTA855-M meets stringent emission standards, ensuring compliance with international regulations while minimizing the environmental impact of marine operations. Cummins' dedication to sustainable solutions is evident in the engine's design, contributing to cleaner and more efficient maritime transportation.