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Homepage>BS Standards>75 PETROLEUM AND RELATED TECHNOLOGIES>75.080 Petroleum products in general>BS EN ISO 23581:2024 Petroleum products and related product. Determination of kinematic viscosity. Method by Stabinger type viscometer
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immediate downloadReleased: 2024-05-23
BS EN ISO 23581:2024 Petroleum products and related product. Determination of kinematic viscosity. Method by Stabinger type viscometer

BS EN ISO 23581:2024

Petroleum products and related product. Determination of kinematic viscosity. Method by Stabinger type viscometer

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Standard number:BS EN ISO 23581:2024
Pages:26
Released:2024-05-23
ISBN:978 0 539 21468 0
Status:Standard
BS EN ISO 23581:2024 - Petroleum Products and Related Products

BS EN ISO 23581:2024 - Petroleum Products and Related Products: Determination of Kinematic Viscosity by Stabinger Type Viscometer

Standard Number: BS EN ISO 23581:2024

Pages: 26

Released: 2024-05-23

ISBN: 978 0 539 21468 0

Status: Standard

Overview

Introducing the BS EN ISO 23581:2024, the definitive standard for the determination of kinematic viscosity in petroleum products and related substances using the Stabinger type viscometer. This comprehensive document, spanning 26 pages, is an essential resource for professionals in the petroleum industry, ensuring precise and reliable viscosity measurements.

Why Choose BS EN ISO 23581:2024?

The BS EN ISO 23581:2024 standard is meticulously crafted to provide a robust methodology for determining the kinematic viscosity of petroleum products. Here are some compelling reasons to incorporate this standard into your operations:

  • Accuracy and Precision: The Stabinger type viscometer is renowned for its high accuracy and precision, ensuring that your viscosity measurements are reliable and consistent.
  • Comprehensive Guidelines: This standard offers detailed instructions and guidelines, making it easier for professionals to implement and adhere to best practices in viscosity determination.
  • Industry Compliance: Adhering to this standard ensures that your operations are in line with international best practices, enhancing your credibility and compliance with industry regulations.
  • Enhanced Quality Control: By following the methodologies outlined in this standard, you can significantly improve the quality control processes within your organization, leading to better product performance and customer satisfaction.

Key Features

The BS EN ISO 23581:2024 standard is packed with features designed to facilitate the accurate determination of kinematic viscosity:

  • Detailed Methodology: Step-by-step procedures for using the Stabinger type viscometer, ensuring that even those new to the equipment can achieve accurate results.
  • Comprehensive Coverage: Covers a wide range of petroleum products and related substances, making it a versatile resource for various applications.
  • Illustrative Diagrams: Includes diagrams and illustrations to aid in the understanding and implementation of the procedures.
  • Quality Assurance: Provides guidelines for quality assurance and control, helping you maintain high standards in your viscosity measurements.

Who Should Use This Standard?

The BS EN ISO 23581:2024 standard is an invaluable resource for a wide range of professionals in the petroleum industry, including:

  • Laboratory Technicians: Ensures that laboratory personnel have the necessary guidelines to perform accurate viscosity measurements.
  • Quality Control Managers: Helps in establishing and maintaining rigorous quality control processes.
  • Research and Development Teams: Provides a reliable methodology for viscosity determination, aiding in the development of new products and formulations.
  • Compliance Officers: Ensures that your organization adheres to international standards and best practices.

Benefits of Using the Stabinger Type Viscometer

The Stabinger type viscometer, as outlined in the BS EN ISO 23581:2024 standard, offers numerous benefits:

  • High Precision: Delivers highly precise viscosity measurements, crucial for quality control and product development.
  • Efficiency: The viscometer is designed for efficient operation, reducing the time required for viscosity determination.
  • Versatility: Suitable for a wide range of petroleum products and related substances, making it a versatile tool in any laboratory.
  • Ease of Use: User-friendly design and comprehensive guidelines make it accessible to both experienced professionals and newcomers.

Conclusion

Incorporating the BS EN ISO 23581:2024 standard into your operations is a strategic move that can significantly enhance the accuracy and reliability of your viscosity measurements. Whether you are a laboratory technician, quality control manager, or part of a research and development team, this standard provides the comprehensive guidelines and methodologies you need to achieve excellence in your work.

Don't miss out on the opportunity to elevate your operations with the BS EN ISO 23581:2024 standard. Ensure your petroleum products and related substances meet the highest standards of quality and performance by adopting this essential resource today.

DESCRIPTION

BS EN ISO 23581:2024


This standard BS EN ISO 23581:2024 Petroleum products and related product. Determination of kinematic viscosity. Method by Stabinger type viscometer is classified in these ICS categories:
  • 75.080 Petroleum products in general
This document specifies a procedure for the determination of kinematic viscosity, ?, by calculation from dynamic viscosity, ?, and density, ?, of both transparent and opaque liquid petroleum products and crude oils using the Stabinger type viscometer. The result obtained using the procedure described in this document depends on the rheological behaviour of the sample. This document is predominantly applicable to liquids whose shear stress and shear rate are proportional (Newtonian flow behaviour). If the viscosity changes significantly with the shear rate, comparison with other measuring methods is not possible except at similar shear rates. The precision has been determined only for the materials, density ranges and temperatures described in Clause 13. The test method can be applied to a wider range of viscosity, density, temperature and materials. It is possible that the precision and bias are applicable for materials which are not listed in Clause 13.