17872877. DEHYDROGENATION REACTION APPARATUS simplified abstract (HYUNDAI MOTOR COMPANY)

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DEHYDROGENATION REACTION APPARATUS

Organization Name

HYUNDAI MOTOR COMPANY

Inventor(s)

Yongwoo Kim of Gunpo-si (KR)

Jin Woo Choung of Suwon-si (KR)

Jihui Seo of Ulsan (KR)

Jaeyong Lee of Seongnam-si (KR)

Pyung Soon Kim of Suwon-si (KR)

Yoondo Kim of Seoul (KR)

Yu-Jin Lee of Seoul (KR)

Jaewon Kirk of Seoul (KR)

Suk Woo Nam of Seoul (KR)

Hyuntae Sohn of Seoul (KR)

Yongmin Kim of Seoul (KR)

Hyangsoo Jeong of Seoul (KR)

DEHYDROGENATION REACTION APPARATUS - A simplified explanation of the abstract

This abstract first appeared for US patent application 17872877 titled 'DEHYDROGENATION REACTION APPARATUS

Simplified Explanation

Abstract: A dehydrogenation reaction apparatus is described in this patent application. The apparatus consists of a dehydrogenation reactor with a reaction vessel that stores a chemical hydride. Additionally, there is a methane generator that converts carbon monoxide produced in the dehydrogenation reactor into methane.

  • The dehydrogenation reaction apparatus includes a dehydrogenation reactor and a methane generator.
  • The dehydrogenation reactor has a reaction vessel that stores a chemical hydride.
  • The methane generator converts carbon monoxide generated in the dehydrogenation reactor into methane.

Potential Applications:

  • This technology can be used in the production of methane from carbon monoxide, which can be utilized as a clean fuel source.
  • The dehydrogenation reaction apparatus can be employed in industrial processes that require methane as a feedstock or fuel.
  • It can be utilized in the development of renewable energy systems that utilize chemical hydrides as energy carriers.

Problems Solved:

  • The dehydrogenation reaction apparatus solves the problem of carbon monoxide waste generated during the dehydrogenation process by converting it into methane, a useful fuel.
  • It addresses the need for efficient and sustainable methods of producing methane, which is a valuable energy source.

Benefits:

  • The conversion of carbon monoxide into methane provides a more sustainable and environmentally friendly approach to waste management in the dehydrogenation process.
  • The production of methane as a clean fuel source reduces reliance on fossil fuels and contributes to a greener energy sector.
  • The use of chemical hydrides as energy carriers offers a potential solution for energy storage and transportation in renewable energy systems.


Original Abstract Submitted

A dehydrogenation reaction apparatus includes a dehydrogenation reactor having a reaction vessel that stores a chemical hydride; and a methane generator that converts carbon monoxide generated in the dehydrogenation reactor into methane.