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Homepage>BS Standards>07 MATHEMATICS. NATURAL SCIENCES>07.120 Nanotechnologies>PD ISO/TS 23362:2021 Nanotechnologies. Nanostructured porous alumina as catalyst support for vehicle exhaust emission control. Specification of characteristics and measurement methods
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PD ISO/TS 23362:2021 Nanotechnologies. Nanostructured porous alumina as catalyst support for vehicle exhaust emission control. Specification of characteristics and measurement methods

PD ISO/TS 23362:2021

Nanotechnologies. Nanostructured porous alumina as catalyst support for vehicle exhaust emission control. Specification of characteristics and measurement methods

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Standard number:PD ISO/TS 23362:2021
Pages:20
Released:2021-01-12
ISBN:978 0 539 12525 2
Status:Standard
PD ISO/TS 23362:2021 - Nanostructured Porous Alumina for Emission Control

PD ISO/TS 23362:2021 - Nanostructured Porous Alumina for Emission Control

Welcome to the future of vehicle exhaust emission control with the cutting-edge standard, PD ISO/TS 23362:2021. This comprehensive document is a must-have for professionals in the field of nanotechnologies, offering a detailed specification of characteristics and measurement methods for nanostructured porous alumina used as a catalyst support.

Overview

Released on January 12, 2021, this standard is a pivotal resource for those involved in the development and application of nanotechnologies aimed at reducing vehicle emissions. With a total of 20 pages, it provides an in-depth exploration of the properties and testing methods essential for ensuring the effectiveness and reliability of nanostructured porous alumina in emission control systems.

Key Features

  • Standard Number: PD ISO/TS 23362:2021
  • ISBN: 978 0 539 12525 2
  • Status: Standard
  • Pages: 20
  • Release Date: January 12, 2021

Why Choose Nanostructured Porous Alumina?

Nanostructured porous alumina is at the forefront of emission control technology due to its unique properties. Its high surface area and porosity make it an ideal catalyst support, enhancing the efficiency of catalytic converters in vehicles. This standard provides the necessary guidelines to harness these properties effectively, ensuring optimal performance in reducing harmful emissions.

Benefits of Using Nanostructured Porous Alumina

By implementing the specifications outlined in this standard, manufacturers and researchers can achieve:

  • Enhanced Catalytic Efficiency: The high surface area of nanostructured porous alumina allows for more active sites, improving the conversion of pollutants into less harmful substances.
  • Durability and Stability: The robust structure of alumina ensures long-term stability and resistance to thermal degradation, crucial for the demanding conditions of vehicle exhaust systems.
  • Cost-Effectiveness: By optimizing the use of materials and improving catalytic performance, this standard helps reduce overall costs in emission control systems.

Comprehensive Measurement Methods

The PD ISO/TS 23362:2021 standard not only specifies the characteristics of nanostructured porous alumina but also provides detailed measurement methods. These methods are essential for verifying the material's properties and ensuring compliance with emission control requirements. The standard covers a range of tests, including:

  • Surface Area Analysis: Techniques to measure the surface area, crucial for determining the material's catalytic potential.
  • Porosity Assessment: Methods to evaluate the porosity, which affects the material's ability to support catalytic reactions.
  • Thermal Stability Testing: Procedures to assess the material's resistance to high temperatures, ensuring durability in exhaust systems.

Applications in the Automotive Industry

The automotive industry is under increasing pressure to reduce emissions and meet stringent environmental regulations. The PD ISO/TS 23362:2021 standard provides the framework for developing advanced emission control systems using nanostructured porous alumina. By adhering to this standard, manufacturers can produce vehicles that are not only compliant with regulations but also more environmentally friendly.

Impact on Emission Reduction

Implementing the guidelines of this standard can lead to significant reductions in vehicle emissions, contributing to cleaner air and a healthier environment. The use of nanostructured porous alumina as a catalyst support enhances the efficiency of catalytic converters, reducing the output of harmful gases such as carbon monoxide, hydrocarbons, and nitrogen oxides.

Conclusion

The PD ISO/TS 23362:2021 standard is an essential resource for anyone involved in the development and application of nanotechnologies for emission control. Its comprehensive guidelines and measurement methods ensure that nanostructured porous alumina can be effectively utilized to enhance the performance of catalytic converters, leading to cleaner and more efficient vehicles.

Embrace the future of emission control with this state-of-the-art standard and contribute to a more sustainable automotive industry.

DESCRIPTION

PD ISO/TS 23362:2021


This standard PD ISO/TS 23362:2021 Nanotechnologies. Nanostructured porous alumina as catalyst support for vehicle exhaust emission control. Specification of characteristics and measurement methods is classified in these ICS categories:
  • 07.120 Nanotechnologies
  • 43.060.20 Pressure charging and air/exhaust gas ducting systems

This document specifies characteristics to be measured of nanostructured porous alumina in powder form as catalyst support for vehicle exhaust emission control and their relevant measurement methods. It includes critical characteristics that are required to be measured and additional characteristics that are recommended to be measured, based upon agreement between the interested parties. Measurement methods for each characteristic are recommended.

This document is applicable to nanostructured porous alumina for gasoline-powered cars. It does not apply to characteristics specific for health, the environment and safety issues.