18581927. HEAT EXCHANGER simplified abstract (LG Electronics Inc.)
Contents
HEAT EXCHANGER
Organization Name
Inventor(s)
HEAT EXCHANGER - A simplified explanation of the abstract
This abstract first appeared for US patent application 18581927 titled 'HEAT EXCHANGER
The patent application describes a heat exchanger with fins that have openings for refrigerant flow, arranged at intervals in one direction, and headers at the upper and lower portions of the fins to communicate with the flow path. At least one fin is configured to have a closed opening in either the upper or lower portion.
- Fins with openings for refrigerant flow
- Headers at upper and lower portions of fins
- Configuration of at least one fin with a closed opening
Potential Applications: - Air conditioning systems - Refrigeration units - Heat pump systems
Problems Solved: - Efficient heat transfer - Improved refrigerant flow control
Benefits: - Enhanced heat exchange efficiency - Optimal refrigerant flow management
Commercial Applications: Title: Advanced Heat Exchanger Technology for HVAC Systems This technology can be used in various commercial HVAC systems to improve energy efficiency and overall performance. It can be applied in industrial refrigeration units, air conditioning systems for large buildings, and heat pump systems for residential and commercial use.
Prior Art: Readers can explore prior patents related to heat exchangers, refrigerant flow control, and heat transfer technologies to understand the evolution of this innovation.
Frequently Updated Research: Researchers are constantly studying ways to enhance heat exchanger efficiency, improve refrigerant flow dynamics, and optimize heat transfer processes in various applications. Stay updated on the latest advancements in heat exchanger technology to leverage cutting-edge solutions for your projects.
Questions about Heat Exchanger Technology: 1. How does the configuration of fins with closed openings impact heat transfer efficiency? - The closed openings in the fins help control the flow of refrigerant, leading to improved heat exchange efficiency. 2. What are the key factors to consider when designing a heat exchanger for optimal performance? - Factors such as fin spacing, refrigerant flow rate, and material selection play a crucial role in the design of a high-performance heat exchanger.
Original Abstract Submitted
A heat exchanger includes a plurality of fins each having an opening formed in an upper portion thereof and an opening formed in a lower portion thereof to allow a refrigerant to flow and being provided therein with a flow path through which the refrigerant flows, the plurality of fins being arranged at intervals in one direction; and a header formed at each of the upper portions and lower portions of the plurality of fins, the header being in communication with the flow path. At least one fin, among the plurality of fins, is configured such that at least one of the opening in the upper portion and the opening in the lower portion is closed.
