Quantum Lockingn for Hyperloop Transport at 750-1200 miles per hour.
Hyperloop Pod Cooling System Using Liquid Nitrogen and Quantum Locking Abstract This white paper explores the application of quantum locking for a hyperloop pod to achieve higher travel speeds. It provides a detailed analysis of the cooling requirements for superconductors using liquid nitrogen, the necessary amount of liquid nitrogen for a 3000-mile journey, and the design of a cooling system to maintain low temperatures. The paper proposes a hybrid cryocooler-based cooling system to ensure efficient and reliable cooling throughout the journey. Introduction Hyperloop technology promises high-speed transportation with minimal friction by operating in a low-pressure tube. One of the critical challenges is maintaining the superconductors at low temperatures to enable quantum locking, which allows the pod to levitate and travel at high speeds with reduced energy consumption. This paper discusses the coo...