FUEL CELL SYSTEM

Organization Name

HONDA MOTOR CO., LTD.

Inventor(s)

Kazunori Fukuma of WAKO-SHI (JP)

FUEL CELL SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 18388320 titled 'FUEL CELL SYSTEM

Simplified Explanation

The patent application describes a fuel cell system that includes a gas circulation path to return discharged gas back to the fuel cell, a volume adjuster to control the gas volume, a voltage sensor to detect fuel cell voltage, a volume control unit to adjust gas volume, and an estimation unit to estimate impurity levels in the gas based on voltage changes.

• Gas circulation path returns discharged gas back to the fuel cell
• Volume adjuster can increase or decrease gas volume in the circulation path
• Voltage sensor detects fuel cell voltage
• Volume control unit adjusts gas volume
• Estimation unit estimates impurity levels in the gas based on voltage changes

Potential Applications

The technology could be used in various fuel cell systems to monitor and control impurity levels in the gas, ensuring optimal performance and efficiency.

Problems Solved

This innovation helps in maintaining the purity of the gas within the fuel cell system, which is crucial for its proper functioning and longevity.

Benefits

- Improved fuel cell performance - Enhanced efficiency - Prolonged lifespan of the fuel cell system

Potential Commercial Applications

"Optimizing Gas Purity in Fuel Cell Systems for Enhanced Performance"

Possible Prior Art

There may be prior art related to monitoring and controlling impurity levels in gas within fuel cell systems, but specific examples are not provided in this context.

What are the potential environmental impacts of this technology?

The potential environmental impacts of this technology could include reducing emissions and improving overall energy efficiency, contributing to a cleaner and more sustainable energy landscape.

How does this technology compare to existing solutions on the market?

This technology offers a more precise and efficient way to monitor and control impurity levels in fuel cell systems, potentially outperforming existing solutions in terms of accuracy and effectiveness.

Original Abstract Submitted

A fuel cell system includes a gas circulation path configured to return a gas that is discharged from a fuel cell back to the fuel cell, a volume adjuster configured to increase or decrease a volume of the gas in the gas circulation path, a voltage sensor configured to detect a voltage of the fuel cell, a volume control unit configured to control the volume adjuster to increase the volume of the gas, and an estimation unit configured to estimate an impurity amount or an impurity concentration of the gas from a voltage change of the fuel cell due to an increase in the volume of the gas.