HEAT EXCHANGER INCLUDING FURCATING UNIT CELLS

Organization Name

General Electric Company

Inventor(s)

William Dwight Gerstler of Niskayuna NY (US)

Daniel Jason Erno of Clifton Park NY (US)

Michael Thomas Kenworthy of Beavercreek OH (US)

Jeffrey Douglas Rambo of Mason OH (US)

Nicolas Kristopher Sabo of West Chester OH (US)

HEAT EXCHANGER INCLUDING FURCATING UNIT CELLS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18545391 titled 'HEAT EXCHANGER INCLUDING FURCATING UNIT CELLS

Simplified Explanation

The patent application describes a heat exchanger with furcating unit cells that are elongated along an axis and include annular ring openings, undulating annular rings, and angled openings for fluid flow.

• Furcating unit cells are coupled with each other in the heat exchanger design.
• Each unit cell has annular ring openings on opposite ends along the axis.
• Undulating annular rings are defined between the annular ring openings and are axially separated from each other.
• Angled openings are present above and below each undulating annular ring.
• The annular ring openings and angled openings serve as inlets and outlets for fluid flow within the unit cell.

Potential Applications

The heat exchanger design could be used in various industrial processes where efficient heat transfer is required, such as in HVAC systems, power plants, and chemical processing.

Problems Solved

This technology addresses the need for improved heat transfer efficiency and uniformity within heat exchangers, which can lead to energy savings and better performance in various applications.

Benefits

The furcating unit cell design allows for enhanced heat transfer due to the unique flow patterns created by the annular ring openings, undulating annular rings, and angled openings. This can result in increased efficiency and cost savings in heating and cooling systems.

Potential Commercial Applications

• "Innovative Heat Exchanger Design for Improved Efficiency and Performance"

Possible Prior Art

One possible prior art could be traditional heat exchanger designs that do not incorporate the specific features of furcating unit cells with annular ring openings, undulating annular rings, and angled openings for fluid flow.

Unanswered Questions

How does this heat exchanger design compare to traditional heat exchangers in terms of efficiency and performance?

The article does not provide a direct comparison between this heat exchanger design and traditional heat exchangers in terms of efficiency and performance.

What are the potential challenges or limitations of implementing this furcating unit cell design in practical applications?

The article does not address any potential challenges or limitations that may arise when implementing this furcating unit cell design in practical applications.

Original Abstract Submitted

A heat exchanger is provided that can include furcating unit cells coupled with each other. Each of the unit cells can be elongated along an axis and include a sidewall that defines annular ring openings on opposite ends of the unit cell along the axis. The sidewall also can define undulating annular rings between the annular ring openings and axially separated from each other along the axis. The sidewall can further define angled openings into the unit cell both above and below each of the undulating annular rings. At least a first opening of the annular ring openings and the angled openings can be configured to be an inlet to receive a first fluid into the unit cell and at least a second opening of the annular ring openings and the angled openings configured to be an outlet through which the first fluid exits the unit cell.