Control of Hazardous Energy: Key Updates in the Revised ANSI Z244.1 Standard

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The unexpected release of hazardous energy (electrical, mechanical, hydraulic, pneumatic, etc.) and related machine start-ups are longstanding issues in many industries, often resulting in incidents. These occurrences can lead to severe injuries, fatalities, and significant financial losses, making it essential for organisations to implement effective safety protocols.

Therefore, the adoption of measures to mitigate risks is crucial. Depending on the hazards and risks identified, each machine, equipment or process needs to have specific procedures for the control of hazardous energy.

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Control of Hazardous Energy

Learn how to manage hazardous energy risks. This session covers control methods from BS 14100:2020 and ANSI/ASSP Z244.1:2024, offering insights to improve workplace safety and compliance.    

What is ANSI/ASSP Z244.1?

ANSI/ASSP Z244.1 establishes requirements for controlling hazardous energy through lockout, tagout, and alternative methods. The standard explains how to apply these different approaches to activities concerning machinery, equipment, and processes, such as installation, inspection, testing, troubleshooting, decommissioning, and others.

The standard aims to establish procedures that protect personnel who can be exposed to hazards as a result of the unexpected energization or start-up of machinery, helping prevent incidents from occurring.

mGard key used in lockout/tagout procedure for equipment isolation

Significant Changes in the 2024 Revision

ANSI/ASSP Z244.1 establishes requirements for controlling hazardous energy through lockout, tagout, and alternative methods. The standard explains how to apply these different approaches to activities concerning machinery, equipment, and processes, such as installation, inspection, testing, troubleshooting, decommissioning, and others.

The standard aims to establish procedures that protect personnel who can be exposed to hazards as a result of the unexpected energization or start-up of machinery, helping prevent incidents from occurring.

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mGard key used in lockout/tagout example to isolate equipment for maintenance

In addition, new content has been added, including:

• A new section on Hazardous Energy Control Methods
• Information on cybersecurity aspects
• Energy control for processes
• Content on mobile applications, feasible risk reduction, piping systems, fault annunciation, and zoned or partitioned machines or equipment

Along with the added content, updates were made to definitions, requirements for alternative methods, and appendices.

Key Sections of the “Control of Hazardous Energy” Safety Standard

ANSI/ASSP Z244.1 establishes requirements for controlling hazardous energy through lockout, tagout, and alternative methods. The standard explains how to apply these different approaches to activities concerning machinery, equipment, and processes, such as installation, inspection, testing, troubleshooting, decommissioning, and others.

The standard aims to establish procedures that protect personnel who can be exposed to hazards as a result of the unexpected energization or start-up of machinery, helping prevent incidents from occurring.

ANSI/ASSP Z244.1-2024 includes ten sections as well as several appendices (A through Q) which offer relevant examples to facilitate the use of the standard. The first four sections are about scope and purpose, references, definitions, and responsibilities, Section 5 is a new addition to the current revision and discusses Hazardous Energy Control Methods.

Section 6 is about the Hazardous Energy Control Program, including hazardous energy control procedures such as those used for energy isolation with lockout. It also discusses how to transfer hazardous energy control between shifts, regardless of the methods used, without compromising safety.

A crucial part of the standard is Section 9 – Alternative Methods of Hazardous Energy Control, which addresses alternative methods (e.g., engineering controls) for controlling hazardous energy when lockout cannot be applied. It may not always be possible to fully isolate a machine and perform certain tasks. Hence, this section provides a methodology to assess the tasks and risks associated with them so that alternative methods are equivalent to lockout in preventing machine start-up or the release of stored energy.

Support and Training From Fortress Safety

With the machinery safety landscape in constant evolution, staying up to date about standards is crucial. At Fortress Safety, we always stay informed with new developments and use our expertise to support customers navigating the complexity of safety standards. If you have questions or need any help, get in touch with our team.

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For those looking to expand their machinery safety knowledge, we discuss LOTO and alternative methods as per ANSI/ASSP Z244.1 in Module 5 of our B11 LMSS™ course. The B11 LMSS™ course is a five-module remote training certified by B11 Standards, Inc. that covers U.S. machinery safety standards and requirements.

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Stefano Tommasone, PhD

Stefano is an experienced writer and editor with a proven track record of creating authoritative, insightful content. As the Content Manager at Fortress Safety since April 2023, he produces high-quality articles, press releases, case studies, and more for both industry experts and wider audiences. With a PhD in Chemistry and a B11 Licensed Machinery Safety Specialist certification, Stefano’s background combines academic training with practical expertise. Known for his attention to detail and technical accuracy, he ensures complex concepts are communicated clearly. Stefano writes on a broad range of topics, consistently delivering content that is precise, accessible, and actionable, earning him a reputation as a trusted authority in his field.

Stefano Tommasone, PhD

Stefano is an experienced writer and editor with a proven track record of creating authoritative, insightful content. As the Content Manager at Fortress Safety since April 2023, he produces high-quality articles, press releases, case studies, and more for both industry experts and wider audiences. With a PhD in Chemistry and a B11 Licensed Machinery Safety Specialist certification, Stefano’s background combines academic training with practical expertise. Known for his attention to detail and technical accuracy, he ensures complex concepts are communicated clearly. Stefano writes on a broad range of topics, consistently delivering content that is precise, accessible, and actionable, earning him a reputation as a trusted authority in his field.

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