Hyundai motor company (20240344215). POROUS BASE LAYER AND METHOD AND APPARATUS FOR MANUFACTURING THE SAME simplified abstract
Contents
POROUS BASE LAYER AND METHOD AND APPARATUS FOR MANUFACTURING THE SAME
Organization Name
Inventor(s)
Young June Park of Yangpyeong-gun (KR)
Pil Young Lee of Yongin-si (KR)
POROUS BASE LAYER AND METHOD AND APPARATUS FOR MANUFACTURING THE SAME - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240344215 titled 'POROUS BASE LAYER AND METHOD AND APPARATUS FOR MANUFACTURING THE SAME
The patent application describes a porous base layer with a protrusion pattern that guides the flow of a target fluid between the membrane electrode assembly and the base layer body, improving performance and operational efficiency.
- The base layer includes a base layer body stacked on a membrane electrode assembly.
- A protrusion pattern on the base layer body guides the movement of a target fluid.
- The protrusion pattern defines a flow path for the fluid between the membrane electrode assembly and the base layer body.
- This design enhances performance and operational efficiency of the system.
- The technology aims to optimize the interaction between the target fluid and the membrane electrode assembly.
Potential Applications: - Fuel cells - Electrochemical sensors - Water purification systems
Problems Solved: - Improved fluid flow management - Enhanced performance of the system - Increased operational efficiency
Benefits: - Better overall system performance - Enhanced fluid flow control - Improved energy efficiency
Commercial Applications: Title: Enhanced Fluid Flow Management Technology for Fuel Cells This technology can be utilized in fuel cell systems for various applications, such as automotive, aerospace, and stationary power generation. It can improve the efficiency and performance of fuel cells, making them more reliable and cost-effective for commercial use.
Prior Art: Prior research in the field of fuel cell technology and fluid flow management systems can provide insights into similar designs and approaches to optimizing fluid flow in such systems.
Frequently Updated Research: Researchers are constantly exploring new materials and designs to enhance the performance of fuel cells and other electrochemical systems. Stay updated on the latest advancements in fluid flow management technologies for fuel cells to leverage the most recent innovations in the field.
Questions about Enhanced Fluid Flow Management Technology for Fuel Cells:
1. How does the protrusion pattern on the base layer body improve fluid flow in the system? The protrusion pattern guides the movement of the target fluid, optimizing its interaction with the membrane electrode assembly and enhancing overall system performance.
2. What are the potential commercial applications of this technology? This technology can be applied in fuel cell systems for automotive, aerospace, and stationary power generation, improving efficiency and reliability in these industries.
Original Abstract Submitted
a porous base layer includes a base layer body stacked on a membrane electrode assembly (mea), and a protrusion pattern provided on one surface of the base layer body that faces the membrane electrode assembly, the protrusion pattern being configured to define a guide flow path for guiding a movement of a target fluid between the membrane electrode assembly and the base layer body, obtaining advantageous effect of improving performance and operational efficiency.
