HYPERLOOP ENVIRONMENTAL CONTROL SYSTEM

Organization Name

Hamilton Sundstrand Corporation

Inventor(s)

Richard Rusich of Ellington CT (US)

Louis J. Bruno of Ellington CT (US)

HYPERLOOP ENVIRONMENTAL CONTROL SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 18181009 titled 'HYPERLOOP ENVIRONMENTAL CONTROL SYSTEM

Simplified Explanation: The patent application describes an environmental control system for conditioning a vehicle cabin in an enclosed air-evacuated environment using a thermodynamic device and recirculation heat exchanger.

• The system has a compressor, turbine, and mixing point to regulate the flow of two different mediums into the cabin.
• A conduit bypasses the thermodynamic device to control the temperature and pressure of the second medium.
• A recirculation heat exchanger helps maintain the desired cabin conditions by exchanging heat between the thermodynamic device and the conduit.

Key Features and Innovation:

• Utilizes a thermodynamic device with a compressor and turbine for efficient conditioning of the vehicle cabin.
• Incorporates a recirculation heat exchanger to optimize heat exchange and maintain desired cabin conditions.
• Allows for the regulation of two different mediums to achieve the desired environmental control within the cabin.

Potential Applications: The technology can be applied in various vehicles, such as spacecraft, submarines, or specialized vehicles operating in extreme environments.

Problems Solved:

• Efficiently controls the environmental conditions within a vehicle cabin in an enclosed air-evacuated environment.
• Provides a reliable system for conditioning the cabin using a thermodynamic device and recirculation heat exchanger.

Benefits:

• Ensures optimal comfort and safety for occupants in extreme environments.
• Enhances energy efficiency and performance of the vehicle's environmental control system.

Commercial Applications: Potential commercial applications include aerospace, defense, and specialized vehicle industries where precise environmental control is crucial for operations.

Prior Art: Readers can explore prior patents related to thermodynamic devices, recirculation heat exchangers, and environmental control systems in vehicles to understand the existing technology landscape.

Frequently Updated Research: Stay updated on advancements in thermodynamic devices, heat exchangers, and environmental control systems for vehicles to leverage the latest innovations in the field.

Questions about Environmental Control Systems in Vehicles: 1. How does the thermodynamic device in this system contribute to efficient environmental control in vehicle cabins? 2. What are the potential challenges in implementing this technology in different types of vehicles?

Original Abstract Submitted

An environmental control system for conditioning a cabin of a vehicle positioned in an enclosed air-evacuated environment includes a first inlet for receiving a flow of a first medium, a second inlet for receiving a flow of a second medium, and a thermodynamic device fluidly coupled to both the first inlet and the second inlet. The thermodynamic device includes a compressor and at least one turbine operably coupled by a shaft. At least one conduit is fluidly coupled to the second inlet and bypasses the thermodynamic device. A mixing point is fluidly coupled to an outlet of the at least one turbine to the at least one conduit. A recirculation heat exchanger is fluidly coupled to an outlet of the thermodynamic device and to the at least one conduit at a location upstream from the mixing point.