The Dd15 Oil Coolant Module, developed by Hengst Filtration for the Detroit DD15 Gen 5 engine, offers significant improvements in filtration and fuel efficiency. This innovative module integrates several key functions, including oil filtration, oil-water-heat management, a water pump, and an oil pressure regulating valve, all within a compact and lightweight design.
A key feature of the DD15 oil coolant module is its optimized stack filter. This advanced filter utilizes a partially synthetic medium and incorporates special intermediate plates within the filter insert. These plates shorten the pleats, enhancing stability and ensuring consistent oil flow even in extreme cold temperatures. This design significantly improves differential pressure (Delta P) performance by 30%, allowing the filter bypass valve to open later and maximizing filtration efficiency. The result is cleaner oil, extended service intervals, and ultimately, reduced maintenance costs.
Hengst’s smart interface integration minimizes the number of components in the DD15 oil coolant module, resulting in a 10% weight reduction compared to its predecessor. This lighter design contributes to improved fuel economy. Moreover, the topology-optimized design enhances the module’s robustness against pressure and pulsation, ensuring reliable performance in demanding operating conditions. Even the oil thermostat is integrated directly into the housing, further streamlining the design.
The enhanced filtration capabilities of the DD15 oil coolant module also contribute to fuel savings. By maintaining cleaner oil for longer periods, the engine operates more efficiently, reducing fuel consumption. This combination of improved filtration and reduced weight makes the DD15 oil coolant module a valuable asset for Detroit DD15 Gen 5 engine owners. The module provides a solution that not only enhances performance and longevity but also contributes to lower operating costs. This advanced technology ensures optimal engine performance and reliability, even under the most challenging conditions.
