18519310. REACTOR simplified abstract (Honda Motor Co., Ltd.)
Contents
REACTOR
Organization Name
Inventor(s)
Yoshikazu Yamada of Wako-shi (JP)
REACTOR - A simplified explanation of the abstract
This abstract first appeared for US patent application 18519310 titled 'REACTOR
The abstract describes a reactor with two flow passages: one for liquid and gas reaction and the other for a heat medium. Both passages are belt-shaped and helical or spiral around a vertical axis.
- Liquid and gas flow passages in belt shape
- Helical or spiral configuration around a vertical axis
- Separate passages for reacting liquid and gas, and heat medium
- Liquid flows in length direction, gas flows in width direction
Potential Applications: - Chemical reactions - Industrial processes - Energy production
Problems Solved: - Efficient heat transfer - Controlled reaction processes
Benefits: - Enhanced reaction efficiency - Improved heat transfer - Space-saving design
Commercial Applications: Title: Innovative Reactor Technology for Enhanced Chemical Processes Description: This technology can be used in chemical plants, refineries, and energy production facilities to optimize reaction processes and improve heat transfer efficiency.
Prior Art: Readers can explore prior patents related to reactor design, heat transfer, and chemical reaction processes to understand the evolution of this technology.
Frequently Updated Research: Stay updated on advancements in reactor design, heat transfer technologies, and chemical process optimization to enhance the efficiency of this innovative reactor system.
Questions about Reactor Technology: 1. How does the helical configuration improve heat transfer efficiency in the reactor? 2. What are the specific industrial applications where this reactor technology can be most beneficial?
Original Abstract Submitted
A reactor includes: a first flow passage through which liquid and gas that reacts with the liquid flow; and a second flow passage provided adjacent to the first flow passage and through which a heat medium flows. Each of the first flow passage and the second flow passage is formed in a belt shape so as to extend in a length direction and a width direction orthogonal to the length direction, and is formed in a helical shape or a spiral shape around a vertical axis parallel to the width direction. The liquid is supplied to the first flow passage so as to flow in the length direction. The gas is supplied to the first flow passage so as to flow in the width direction.
