At its core, the KTA38-C1400 is equipped with a 12-cylinder configuration, offering a displacement of approximately 38 liters.
This substantial displacement allows the engine to generate a remarkable power output of around 1400 horsepower (1044 kW) at a specified RPM, making it suitable for a wide range of industrial applications that require high horsepower and torque.
One of the key features of the KTA38-C1400 is its advanced combustion technology, which is designed to optimize fuel efficiency while minimizing emissions. This technology not only contributes to reduced fuel consumption but also helps the engine comply with stringent emissions regulations, making it environmentally friendly.
The engine incorporates a range of durability-enhancing features, including a heavy-duty block and cylinder head construction, robust materials, and precision engineering. These factors contribute to the engine's reliability, ensuring it can withstand challenging operating conditions, prolonged usage, and heavy loads without compromising its performance.
To further enhance its reliability, the KTA38-C1400 is equipped with a comprehensive cooling system that effectively manages engine temperatures, preventing overheating during extended periods of operation.
This cooling system is designed to function efficiently even in high-temperature environments, ensuring the engine's longevity and consistent performance.
Maintenance and serviceability are also prioritized in the KTA38-C1400's design. Easy access to essential components and service points simplifies routine maintenance tasks, reducing downtime and operational costs. Cummins' global service network ensures that spare parts and expert assistance are readily available, maximizing the engine's uptime and minimizing potential disruptions.
Moreover, the engine's electronic control system enhances its overall performance and efficiency. This system enables precise control over various parameters, optimizing fuel injection timing, air-fuel mixture, and other critical factors to achieve optimal power output while minimizing fuel consumption and emissions.
At its core, the KTA38-C1400 is equipped with a 12-cylinder configuration, offering a displacement of approximately 38 liters.
This substantial displacement allows the engine to generate a remarkable power output of around 1400 horsepower (1044 kW) at a specified RPM, making it suitable for a wide range of industrial applications that require high horsepower and torque.
One of the key features of the KTA38-C1400 is its advanced combustion technology, which is designed to optimize fuel efficiency while minimizing emissions. This technology not only contributes to reduced fuel consumption but also helps the engine comply with stringent emissions regulations, making it environmentally friendly.
The engine incorporates a range of durability-enhancing features, including a heavy-duty block and cylinder head construction, robust materials, and precision engineering. These factors contribute to the engine's reliability, ensuring it can withstand challenging operating conditions, prolonged usage, and heavy loads without compromising its performance.
To further enhance its reliability, the KTA38-C1400 is equipped with a comprehensive cooling system that effectively manages engine temperatures, preventing overheating during extended periods of operation.
This cooling system is designed to function efficiently even in high-temperature environments, ensuring the engine's longevity and consistent performance.
Maintenance and serviceability are also prioritized in the KTA38-C1400's design. Easy access to essential components and service points simplifies routine maintenance tasks, reducing downtime and operational costs. Cummins' global service network ensures that spare parts and expert assistance are readily available, maximizing the engine's uptime and minimizing potential disruptions.
Moreover, the engine's electronic control system enhances its overall performance and efficiency. This system enables precise control over various parameters, optimizing fuel injection timing, air-fuel mixture, and other critical factors to achieve optimal power output while minimizing fuel consumption and emissions.