EXHAUST GAS PURIFYING CATALYST

Organization Name

TOYOTA JIDOSHA KABUSHIKI KAISHA

Inventor(s)

Hiroki Shirakawa of Seto-shi (JP)

Takahiro Nishio of Nagoya-shi (JP)

Shogo Shirakawa of Toyota-shi (JP)

EXHAUST GAS PURIFYING CATALYST - A simplified explanation of the abstract

This abstract first appeared for US patent application 18413452 titled 'EXHAUST GAS PURIFYING CATALYST

The present disclosure introduces an exhaust gas purifying catalyst with enhanced durability of rhodium, consisting of a carrier and rhodium (Rh), where the carrier is made of aluminum oxide (AlO) and 15% to 60% of the rhodium is dissolved in the carrier.

• The catalyst includes a carrier made of aluminum oxide (AlO) and rhodium (Rh) with improved durability.
• 15% to 60% of the rhodium is dissolved in the carrier, enhancing its effectiveness.
• The use of aluminum oxide (AlO) in the carrier contributes to the catalyst's stability and longevity.
• The catalyst is designed to purify exhaust gases efficiently by utilizing the properties of rhodium.

Potential Applications: - Automotive industry for emission control in vehicles - Industrial applications for reducing harmful emissions - Environmental protection to improve air quality

Problems Solved: - Enhances the durability of rhodium in the catalyst - Improves the efficiency of exhaust gas purification - Addresses environmental concerns related to emissions

Benefits: - Increased durability and effectiveness of the catalyst - Reduced harmful emissions for a cleaner environment - Enhanced performance in exhaust gas purification systems

Commercial Applications: Title: "Advanced Exhaust Gas Purifying Catalyst for Enhanced Emission Control" This technology can be used in automotive exhaust systems, industrial emissions control, and environmental protection initiatives. It has the potential to improve air quality and meet regulatory standards for emissions.

Questions about the technology: 1. How does the use of aluminum oxide in the carrier contribute to the catalyst's durability and efficiency? - The aluminum oxide in the carrier enhances the stability and longevity of the catalyst, ensuring better performance in exhaust gas purification. 2. What percentage of rhodium is typically dissolved in the carrier to achieve optimal results? - The catalyst contains 15% to 60% of rhodium dissolved in the carrier for improved effectiveness in purifying exhaust gases.

Original Abstract Submitted

The present disclosure provides an exhaust gas purifying catalyst having improved durability of rhodium, which comprises a carrier and rhodium (Rh), wherein the carrier comprises aluminum oxide (AlO), and 15% to 60% of the rhodium is dissolved in the carrier.