The boeing company (20240295032). Hydrogen Generator simplified abstract
Contents
Hydrogen Generator
Organization Name
Inventor(s)
Judd S. Carper of Arlington VA (US)
Hydrogen Generator - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240295032 titled 'Hydrogen Generator
The abstract describes a hydrogen generator that includes a base with a cathode and anode made of semiconductor, glass, or ceramic materials. The generator facilitates the generation of hydrogen and oxygen in the presence of an electrolytic solution containing water. The base, cathode, and anode define a cavity, and a lid with similar materials forms outlets for the hydrogen and oxygen to exit.
- The hydrogen generator includes a base with a cathode and anode made of semiconductor, glass, or ceramic materials.
- The generator facilitates the generation of hydrogen and oxygen in the presence of an electrolytic solution containing water.
- The base, cathode, and anode define a cavity where hydrogen and oxygen are generated.
- A lid with similar materials forms outlets for the hydrogen and oxygen to exit the cavity.
Potential Applications: - Renewable energy production - Fuel cell technology - Environmental sustainability initiatives
Problems Solved: - Efficient hydrogen and oxygen generation - Utilization of semiconductor, glass, or ceramic materials for improved performance
Benefits: - Clean energy production - Reduced environmental impact - Enhanced efficiency in hydrogen generation
Commercial Applications: Title: "Innovative Hydrogen Generator for Sustainable Energy Solutions" This technology can be applied in industries such as: - Energy production - Transportation - Manufacturing
Prior Art: Researchers can explore prior patents related to hydrogen generators, semiconductor materials, and electrolytic solutions to understand the existing technology landscape.
Frequently Updated Research: Stay updated on advancements in semiconductor materials, electrolysis processes, and hydrogen fuel cell technology for potential improvements in the hydrogen generator design.
Questions about Hydrogen Generator: 1. How does the use of semiconductor, glass, or ceramic materials impact the efficiency of hydrogen generation? 2. What are the potential environmental benefits of using this hydrogen generator technology?
Original Abstract Submitted
a hydrogen generator includes a base including a first material that includes a semiconductor, glass, or ceramic, a cathode extending from the base, where the cathode includes the first material and is configured to facilitate generation of hydrogen in the presence of an electrolytic solution that includes water, an anode extending from the base, where the anode includes the first material and is configured to facilitate generation of oxygen in the presence of the electrolytic solution, where the base, the cathode, and the anode define a cavity, and a lid including a second material that includes a semiconductor, glass, or ceramic, the lid forming a first outlet between the cathode and the lid and a second outlet between the anode and the lid, where the hydrogen is configured to exit the cavity via the first outlet and the oxygen is configured to exit the cavity via the second outlet.