DEHYDROGENATION REACTION APPARATUS AND CONTROL METHOD THEREOF

Organization Name

HYUNDAI MOTOR COMPANY

Inventor(s)

Yongwoo Kim of Gunpo-si (KR)

Jihui Seo of Ulsan (KR)

Jaeyong Lee of Seongnam-si (KR)

Pyung Soon Kim of Suwon-si (KR)

Jin Woo Choung of Suwon-si (KR)

Minkyu Kim of Seoul (KR)

Jaewon Kirk of Seoul (KR)

Suk Woo Nam of Seoul (KR)

Hyangsoo Jeong of Seoul (KR)

Yongmin Kim of Seoul (KR)

DEHYDROGENATION REACTION APPARATUS AND CONTROL METHOD THEREOF - A simplified explanation of the abstract

This abstract first appeared for US patent application 17874631 titled 'DEHYDROGENATION REACTION APPARATUS AND CONTROL METHOD THEREOF

Simplified Explanation

The abstract describes a dehydrogenation reaction apparatus that includes a dehydrogenation reactor and a buffer tank. The dehydrogenation reactor has a reaction vessel that stores a chemical hydride and is divided into multiple reaction chambers by partition walls. The buffer tank temporarily stores the hydrogen generated in the reactor and supplies it to a fuel cell.

• The dehydrogenation reaction apparatus consists of a dehydrogenation reactor and a buffer tank.
• The dehydrogenation reactor has a reaction vessel that stores a chemical hydride.
• The reaction vessel is divided into multiple reaction chambers by partition walls.
• The buffer tank is used to temporarily store the hydrogen generated in the reactor.
• The stored hydrogen is then supplied to a fuel cell.

Potential Applications

• This dehydrogenation reaction apparatus can be used in various industries that require hydrogen as a fuel source, such as transportation, power generation, and chemical manufacturing.
• It can be utilized in fuel cell vehicles to provide a continuous supply of hydrogen for the fuel cell.
• The apparatus can also be used in stationary fuel cell systems for backup power generation or as a primary power source.

Problems Solved

• The dehydrogenation reaction apparatus solves the problem of efficiently storing and supplying hydrogen for fuel cell applications.
• It provides a safe and reliable method for generating and storing hydrogen from a chemical hydride.
• The partition walls in the reaction vessel allow for separate reaction chambers, enabling better control and optimization of the dehydrogenation process.

Benefits

• The apparatus allows for the efficient storage and supply of hydrogen, ensuring a continuous and reliable fuel source for fuel cell applications.
• It provides a safe and controlled method for generating and storing hydrogen, minimizing the risk of accidents or leaks.
• The partitioned reaction chambers enable better control and optimization of the dehydrogenation process, improving overall efficiency and performance.

Original Abstract Submitted

A dehydrogenation reaction apparatus is disclosed. An embodiment of the present disclosure provides a dehydrogenation reaction apparatus, including: a dehydrogenation reactor that includes a reaction vessel configured to store a chemical hydride, and at least one partition wall partitioning an inner space of the reaction vessel into a plurality of reaction chambers; and a buffer tank configured to temporarily store hydrogen generated in the dehydrogenation reactor and then supply the hydrogen to the fuel cell.