Implementation of Distributed Power and Friction Control to Minimize the Stress State and Maximize Velocity in Canadian Pacific's Heavy Haul/Heavy Grade Train Operations

摘要

Canadian Pacific (CP) has taken a systems approach to minimizing the stress state and maximizing velocity in high tonnage, heavy haul western Canada mainline operations. Recognizing the interaction between wheel / rail contact mechanics, train handling and track geometry, CP has tested and implemented a number of advanced technologies that leverage current knowledge, systems, products and equipment in each of these areas. This includes implementation of distributed locomotive power configurations based on sophisticated track/ train interaction modeling, as well as state of the art top of rail (TOR) and gauge face friction control. Together these technologies have resulted in reductions in damaging lateral forces, rail wear and fastening system fatigue, as well as increases in velocity and network capacity. This paper presents the theory, implementation and verification of distributed power, fine tuning curve superelevation and friction control technologies in the British Columbia Interior (BCI) service area.