FUEL CELL STACK

Organization Name

toyota jidosha kabushiki kaisha

Inventor(s)

Chihiro Omori of Susono-shi (JP)

Hideaki Tanaka of Fuji-shi (JP)

FUEL CELL STACK - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240194924 titled 'FUEL CELL STACK

• • Simplified Explanation:**

The patent application describes a fuel cell stack design that includes a fastening member with a sensor to monitor the condition of the single cells in the stack.

• • Key Features and Innovation:**
• Fuel cell stack design with a fastening member and sensor for monitoring cell conditions.
• Fastening member is rod-shaped and arranged along the stacking direction of single cells.
• Sensor attached to the fastening member to monitor the state of the cells.

• • Potential Applications:**

This technology could be used in various fuel cell applications, including automotive, stationary power generation, and portable electronics.

• • Problems Solved:**

This design provides a high degree of freedom in fuel cell stack design and allows for real-time monitoring of cell conditions, potentially improving overall performance and reliability.

• • Benefits:**
• Enhanced design flexibility in fuel cell stack configurations.
• Real-time monitoring of cell conditions for improved performance and reliability.
• Potential for increased efficiency and longevity of fuel cell systems.

• • Commercial Applications:**

Potential commercial applications include fuel cell vehicles, backup power systems, and portable electronic devices. This technology could benefit industries looking to improve fuel cell performance and reliability.

• • Prior Art:**

Readers can explore prior patents related to fuel cell stack designs, fastening mechanisms, and sensor integration to gain a deeper understanding of the technological landscape.

• • Frequently Updated Research:**

Stay informed about the latest advancements in fuel cell technology, sensor integration, and design optimization to further enhance the performance of fuel cell stacks.

• • Questions about Fuel Cell Stack Design:**

1. How does the integration of a sensor into the fastening member improve the monitoring of single cell conditions? 2. What are the potential challenges in implementing this fuel cell stack design in different applications?

Original Abstract Submitted

to provide a fuel cell stack having a high degree of freedom in design. a fuel cell stack, wherein the fuel cell stack is a stack of a plurality of single cells; wherein the fuel cell stack comprises a fastening member and a predetermined sensor; wherein the fastening member is rod-shaped; wherein the fastening member is arranged along a stacking direction of the single cells; wherein the predetermined sensor is attached to the fastening member; and wherein the predetermined sensor is configured to monitor a condition of the single cells in a state of being attached to the fastening member.