ELECTROCHEMICAL MODULE

Organization Name

Honda Motor Co., Ltd.

Inventor(s)

Toru Honda of WAKO-SHI (JP)

Osamu Yoda of HAGAGUN (JP)

ELECTROCHEMICAL MODULE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18582049 titled 'ELECTROCHEMICAL MODULE

The electrochemical module described in the patent application consists of multiple membrane electrode assemblies containing electrolyte membranes, anodes, and cathodes. These assemblies are stacked in such a way that regions with anodes facing each other and regions with cathodes facing each other alternate in the stacking direction. Additionally, at least one of these regions includes a common flow path shared by two adjacent membrane electrode assemblies.

• The patent innovation involves the unique stacking arrangement of membrane electrode assemblies in an electrochemical module.
• The alternating regions of anodes and cathodes optimize the flow of electrolytes and enhance overall efficiency.
• The shared flow path in certain regions streamlines the movement of ions between adjacent assemblies.
• This design potentially improves the performance and longevity of the electrochemical module.
• The innovation may have applications in various fields such as energy storage, fuel cells, and water treatment.

Potential Applications: - Energy storage systems - Fuel cell technology - Water electrolysis for hydrogen production - Environmental remediation processes

Problems Solved: - Enhanced efficiency in electrochemical reactions - Improved ion transport within the module - Increased durability and reliability of the system

Benefits: - Higher performance levels - Greater operational efficiency - Extended lifespan of the electrochemical module - Potential cost savings in long-term operation

Commercial Applications: Title: Innovative Electrochemical Module Design for Enhanced Performance This technology could be utilized in the development of more efficient energy storage solutions, advanced fuel cell systems, and sustainable water treatment processes. The market implications include improved product competitiveness, increased energy efficiency, and potential cost savings for industries relying on electrochemical technologies.

Questions about Electrochemical Module Design: 1. How does the unique stacking arrangement of membrane electrode assemblies contribute to the efficiency of the electrochemical module? 2. What are the potential long-term benefits of implementing this innovative design in energy storage systems and fuel cells?

Frequently Updated Research: Stay updated on the latest advancements in electrochemical module design, efficiency optimization, and applications in various industries to ensure you are leveraging the most current technology for your projects.

Original Abstract Submitted

The electrochemical module is formed by stacking a plurality of membrane electrode assemblies having electrolyte membranes, anodes and cathodes. The plurality of membrane electrode assemblies are stacked so that a first region where the anodes face each other and a second region where the cathodes face each other appear alternately in the stacking direction. Further, at least one of the first region and the second region includes a common flow path shared by two adjacent membrane electrode assemblies.