A groundbreaking hybrid engine prototype, developed by Horse Powertrain, is set to redefine automotive efficiency with claims of achieving an exceptional 71 miles per gallon combined fuel economy. This innovative H12 Concept engine integrates several advanced technologies, signaling a significant leap forward in sustainable vehicle propulsion and the continued evolution of internal combustion engines.
The H12 Concept engine, an evolution derived from Horse's HR12 model, exhibits a peak brake thermal efficiency exceeding 44 percent. A key aspect of its design is a high compression ratio of 17:1, allowing it to perform optimally with 100 percent renewable fuels. The company's projections of 71 MPG are benchmarked against typical passenger vehicles in Europe and are based on the globally recognized WLTP testing standards.
Beyond its fuel type and compression, the engine incorporates a state-of-the-art exhaust gas recirculation (EGR) system, an enhanced turbocharger, and a high-energy ignition system. These components work in synergy with an improved hybrid gearbox, which contributes to superior energy management and reduced internal friction, further boosting overall efficiency.
Horse Powertrain, in collaboration with Repsol, has successfully developed and validated two prototypes of this engine. The company is now preparing for the mass production phase, with the first vehicles incorporating this advanced hybrid powertrain anticipated to be available early this year.
Patrice Haettel, the Chief Operating Officer of Horse Powertrain and CEO of Horse Technology, emphasized the immediate impact of this innovation. He stated that the H12 Concept demonstrates how highly efficient engines, when paired with renewable fuels, can significantly reduce emissions right now, without needing to wait for future, more distant solutions.
This development by Horse Powertrain underscores a broader industry trend where the internal combustion engine is undergoing a significant revitalization. Companies are actively exploring new avenues to enhance their efficiency and environmental performance. This commitment to refining traditional engine technology, even amidst the rise of electric vehicles, suggests a diverse future for automotive propulsion, where various sustainable solutions coexist and contribute to a greener transportation landscape.