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Navigating government regulations with confidence
Facing the challenge of meeting changing United States’ Environmental Protection Agencies (EPA) regulations for ethylene oxide emissions monitoring can be daunting. However, with the right tools and support, it can become manageable. State-of-the-art solutions can detect the toxic ethylene oxide gas with precision, aiding in compliance navigation, ensuring smooth operations, and protecting workers in their breathing zone.
Meet the challenge with MAX-IR
Ethylene oxide (EtO) is used in applications such as medical equipment sterilization and chemical manufacturing. As a known carcinogen and air pollutant, it is critical to monitor to address both emissions and workplace air monitoring. The Thermo Scientific MAX-iAQ is an essential tool for the task of ethylene oxide monitoring, enabling personal exposure measurements to ensure keep exposure within acceptable limits.
The Thermo Scientific MAX-iAQ Ambient Air Monitoring System and EMS-10 Continuous Emissions Monitoring System (CEMS) systems are ideal solutions for monitoring low-level EtO emissions in real time. They provide immediate detection of leaks and exceed US EPA standards with an LOD of 1 parts-per-billion (ppb) with less than 15 seconds responsivities. These robust and reliable systems require minimal downtime and low maintenance, ensuring your operations continue without interruption. Our comprehensive support includes technical expertise for installation, field service, and applications support.
Learning about the specific challenges of monitoring EtO trace gases, which present difficulties due to low concentration and high reactivity, is crucial. Trust in a solution that safeguards indoor air quality and protects workers from potential exposure to this hazardous gas. With the right system, managing and reducing these risks becomes achievable, ensuring a safe and compliant workplace.
- Achieve fast, sensitive analysis for immediate detection of leaks
- Exceed US EPA standards with an LOD of 1 parts-per-billion (ppb) with less than 15 seconds responsivities
- Depend on robust and reliable operation with minimal downtime and low maintenance
- Enjoy peace-of-mind with technical expertise including installation, field service, and applications support
Learn how the MAX-iR FTIR gas analyzers, using optically-enhanced FTIR (OE-FTIR) technology, overcome the specific challenges of monitoring EtO trace gases which presents difficulties due to low concentration and high reactivity.
Products
MAX-iAQ continuous ambient air monitoring system
The MAX-iAQ is a fully automated, 20-channel ambient air monitoring system for addressing newly proposed regulations for worker safety. The system is capable of detecting ethylene oxide with a detection limit of 1 ppb and total cycle time of 10 minutes.
EMS-10 continuous emissions monitoring system (CEMS)
The EMS-10 is a fully automated, four-channel stack emissions monitoring system that complies with newly proposed updates to the ethylene oxide NESHAP. The system is capable of detecting ethylene oxide with a detection limit of 1 ppb.
Featured resources
Ethylene oxide continuous emissions monitoring by OE-FTIR
The Advantages of monitoring ethylene oxide with OE-FTIR
Industrial gas analysis with a disruptive new technology
Webinar: Ethylene oxide emissions monitoring using FTIR gas analyzers
Gain insight into the challenges in ethylene oxide monitoring and new, ultra-sensitive FTIR gas analysis technology for real-time analysis down to low ppb.
There are many unique challenges associated with EO monitoring such as sensitivity, speed of analysis, and reliability. In addition, QA/QC is needed to ensure that analytical results are dependable. In this webinar, many EtO monitoring challenges are discussed along with how they can be overcome using ultra-sensitive FTIR-based continuous emissions monitoring (CEM) systems.
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