Efficiency Comparison and Optimal Voyage Strategy of CPP Combination and Fixed Modes Based on Ship Operational Data

This study examines the efficiency trade-offs of Controllable Pitch Propeller(CPP) systems by comparing Combination and Fixed operation modes using real ship operational data. The analysis focuses on mechanical efficiency(ηmech), propulsive efficiency expressed through the normalized Relative Propulsive Efficiency Index(RPEInorm), and fuel consumption. Combination mode consistently maintained higher ηmech across all load conditions, with pronounced advantages at low load and low speed(< 50% load, < 12 knots), where both propulsive efficiency and fuel economy improved. In contrast, Fixed mode outperformed Combination mode at high load and high speed, exceeding approximately 50% load and 12 knots, as propeller performance approached its optimal operating point despite some sacrifice in engine efficiency. To integrate these effects, a proxy overall efficiency index (ηoverall,proxy = ηmech × RPEInorm) was introduced, revealing a crossover point at 0.525 load where the efficiency dominance shifted between modes. These findings demonstrate that neither mode is universally superior, but rather their advantages depend on operating conditions. The results provide practical insights for adaptive operational strategies, enabling real-time switching between modes to optimize fuel consumption and overall propulsion performance while supporting compliance with environmental regulations.