ELECTROCHEMICAL CELL EXHAUST MANAGEMENT SYSTEM

Organization Name

Robert Bosch GmbH

Inventor(s)

Mordechai Kornbluth of Brighton MA (US)

Daniil Kitchaev of Brookline MA (US)

Tilman Miehle of Waiblingen (DE)

Andrea Di Benedetto of Löchgau (DE)

Thorsten Stahl of Waiblingen (DE)

Charles Tuffile of Swansea MA (US)

Christoph Osemann of Karlsruhe (DE)

ELECTROCHEMICAL CELL EXHAUST MANAGEMENT SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 18060343 titled 'ELECTROCHEMICAL CELL EXHAUST MANAGEMENT SYSTEM

Simplified Explanation

The high temperature electrochemical cell described in the patent application includes a solid electrolyte separating a cathode and an anode, with a thermal management system that can reduce the temperature of the exhaust gas stream to promote condensation of Cr-containing gas into solid, liquid, or aqueous CrO and HCrO.

• Solid electrolyte separating cathode and anode
• Thermal management system to reduce exhaust gas stream temperature
• Operating temperature of about 600-1000°C

Potential Applications

The technology described in this patent application could be applied in high temperature electrochemical cells for various industrial processes, such as metal production, chemical synthesis, and energy generation.

Problems Solved

This technology addresses the challenge of managing high temperature exhaust gas streams in electrochemical cells, specifically promoting the condensation of Cr-containing gas into solid, liquid, or aqueous forms.

Benefits

- Improved efficiency of high temperature electrochemical cells - Enhanced control over exhaust gas stream temperature - Potential for increased production of Cr-containing compounds

Potential Commercial Applications

"Optimizing Exhaust Gas Stream Temperature in High Temperature Electrochemical Cells for Enhanced Cr-Containing Compound Production"

Possible Prior Art

There may be prior art related to thermal management systems in high temperature electrochemical cells, but specific examples of technology targeting the condensation of Cr-containing gas into solid, liquid, or aqueous forms may be limited.

Unanswered Questions

How does the thermal management system specifically reduce the temperature of the exhaust gas stream?

The patent application mentions activating at least one component to achieve this, but the exact mechanism is not detailed.

What are the specific industrial processes that could benefit from this technology?

While the potential applications are mentioned broadly, a more detailed exploration of specific industries and processes would provide a clearer understanding of the market potential for this innovation.

Original Abstract Submitted

A high temperature electrochemical cell includes a solid electrolyte separating a cathode and an anode, an anode flow field adjacent the anode, a cathode flow field, having an exhaust gas stream pathway, downstream from the cathode, and a thermal management system including a controller programmed to, in response to the exhaust gas stream temperature input, activate at least one component, configured to reduce temperature of the exhaust gas stream to a temperature within a threshold range corresponding to a temperature range promoting condensation of Cr-containing gas into solid, liquid, or aqueous CrOand HCrO, the high temperature electrochemical cell having an operating temperature of about 600-1000° C.