Geely Automobile officially announced that it will officially release NordThor AI Hybrid 2.0 technology on June 13. This technology is based on the AI big model to achieve full-domain advancement. The full-scene measured fuel consumption per 100 kilometers is as low as 2.5L, and the comprehensive range exceeds 2100km. The first model to be equipped with it is Geely Galaxy A7.
AI big model empowerment: through real-time learning of road conditions and driving habits, dynamically optimize energy distribution strategy, and improve energy efficiency by 15% compared with traditional hybrid systems;
Ultra-low energy consumption performance: using 46.5% thermal efficiency engine (the highest in mass production in the world) and E-DHT 11-in-1 electric drive system, the power performance is still improved by 30% under the feeding state;
Silicon carbide continuously variable transformer module: ensure that the power output is not attenuated when the power is low, and achieve "consistent experience of full charge and feeding".
As the first model of NordThor AI Hybrid 2.0, Galaxy A7 is positioned as an intelligent hybrid sedan, and its technical parameters include:
Power combination: 1.5L naturally aspirated engine (82kW/136N·m) + front single motor (160kW/262N·m);
Endurance: The actual comprehensive endurance of full charge and full fuel is 2390.5km (fuel consumption 2.62L per 100km);
AI hybrid logic: Breaking the traditional SOC fixed threshold mode, automatically switching oil-electric strategy through AI prediction of road conditions.
Geely's technology upgrade this time directly targets the benchmark of the hybrid market. Its fuel consumption (2.5L) when depleted is better than BYD's fifth-generation DM technology (2.9L), and the pricing of Galaxy A7 may continue Geely's high cost-effective strategy.
Editor's comment: The launch of NordThor AI Hybrid 2.0 marks Geely's leap from "following" to "leading" in the field of hybrid technology. The deep involvement of AI in energy management may redefine the energy-saving ceiling of hybrid vehicles.
