Ammonia Gas Detection: Core Technologies and Standards
The AEA recently published, Ammonia Gas Detection: Core Technologies and Standards, outlining today’s detection technologies and practices, standards and regulations to consider as part of a comprehensive safety system.
Executive Summary
Ammonia gas detection processes and technologies are critical components of broader
safety programs for entities engaged in the production, storage, distribution, and end
use of ammonia, due to the molecule’s inherent risks.
With ammonia’s longstanding, widespread, and routine us
This publication identifies the current gas detection methodologies and technologies, relevant standards and regulations, and key considerations for deploying ammonia gas detection.
Key Takeaways
What types of detection technologies exist today?
• A wide range of technologies is currently commercially available to meet different detection requirements and settings.
What detection standards exist today? What other key, relevant,
regulations, rules and guidance are available?
• For the testing and performance of the detectors themselves, there are three
standards widely used.
• There is also a series of relevant regulatory documents available, particularly focused on the safe storage, handling, and transport of ammonia. In these documents, examples of detection threshold limits are provided for ammonia in various settings.
What considerations are needed to set up an effective detection system?
• Ammonia gas detection is a key component of a broad, comprehensive safety system, but it must be done in conjunction with appropriate design and management processes that consider the following four critical questions, as well as proper implementation:
– Where and how will ammonia be used or stored?
– Where is detection needed, and for what purpose?
– At what level must ammonia be detected?
– What happens next after the threshold alarms go off?
Download the document, Ammonia Gas Detection: Core Technologies and Standards.