Honda motor co., ltd. (20240328716). HEAT EXCHANGER AND METHOD FOR MANUFACTURING THE SAME simplified abstract
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HEAT EXCHANGER AND METHOD FOR MANUFACTURING THE SAME
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HEAT EXCHANGER AND METHOD FOR MANUFACTURING THE SAME - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240328716 titled 'HEAT EXCHANGER AND METHOD FOR MANUFACTURING THE SAME
The abstract of the patent application describes a heat exchanger with a core portion, a first refrigerant flow path, and a second refrigerant flow path. The first refrigerant flow path consists of multiple first main flow paths, while the second refrigerant flow path consists of multiple second main flow paths arranged in different directions. The core portion is made up of several units, each with a closed region defined by partition walls in a cross-section view.
- The heat exchanger includes a core portion, first and second refrigerant flow paths, and multiple main flow paths in each direction.
- The second main flow paths are surrounded by partition walls from the first main flow path and arranged in rows in a specific direction.
- The core portion is formed by joining multiple units, each with a closed region defined by partition walls.
- The design allows for efficient heat transfer and optimal refrigerant flow within the heat exchanger.
- The unique configuration of the flow paths enhances the overall performance and effectiveness of the heat exchanger.
Potential Applications: - HVAC systems - Automotive cooling systems - Industrial heat exchange processes
Problems Solved: - Improved heat transfer efficiency - Enhanced refrigerant flow control - Compact design for space-saving applications
Benefits: - Increased energy efficiency - Reduced operating costs - Enhanced performance in various applications
Commercial Applications: Title: Advanced Heat Exchanger Technology for Improved Energy Efficiency This technology can be utilized in various industries such as HVAC, automotive, and industrial sectors to enhance heat transfer processes and improve overall system efficiency.
Questions about the technology: 1. How does the unique design of the heat exchanger improve heat transfer efficiency? - The design of the heat exchanger allows for optimized refrigerant flow paths, enhancing heat transfer efficiency. 2. What are the potential cost-saving benefits of using this advanced heat exchanger technology? - The technology can lead to reduced operating costs due to improved energy efficiency and performance.
Original Abstract Submitted
a heat exchanger includes: a core portion; a first refrigerant flow path; and a second refrigerant flow path as defined herein, the first refrigerant flow path includes a plurality of first main flow paths as defined herein, the second refrigerant flow path includes a plurality of second main flow paths extending in the first direction and arranged in the second direction, the plurality of second main flow paths arranged in the second direction are formed by being surrounded by the partition wall constituting the first main flow path, and are provided in each of a plurality of rows arranged in the third direction, the core portion is formed by joining a plurality of units, and the first main flow path of each of the plurality of units is a region closed by the partition wall in a cross section viewed from the first direction.
