Tag: Indoor
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GO AQS and VERT Association Announce Strategic Partnership to Tackle Ultrafine Particle Pollution
GO AQS is excited to announce a formal partnership with the VERT Association, a premier international organization dedicated to the promotion of Best Available Technology (BAT) for emission control and the elimination of ultrafine particle emissions from all sources. This partnership unites two organizations committed to scientific excellence and public health. While VERT has spent…
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GO AQS and Clean Indoor Air Toronto Join Forces to Advocate for Healthier Indoor Environments
GO AQS is proud to announce a new collaboration with Clean Indoor Air Toronto (CIATO), a leading advocacy group dedicated to improving air quality standards across Ontario. This partnership marks a significant step forward in the shared mission to ensure that the air we breathe indoors is as safe and clean as possible. As a…
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GO IAQS Breakpoints – 2nd Session
This session served as a crucial follow-up to our initial discussion on environmental pollutants, as we previously ran out of time to cover all the necessary ground. In today’s meeting, we delved into the specifics of index breakpoints for ozone, nitrogen dioxide, and radon. Ozone (O3) Proposed GO IAQS Index: The proposed index tiers for ozone are 0 to 50…
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GO IAQS Breakpoints – 1st Session
During the 1st GO IAQS Index Breakpoints meeting, discussions focused on proposed breakpoints for various pollutants based on survey results, comparisons with existing standards, and feedback from attendees. The meeting aimed to cover results, compare them with existing breakpoints, and gather comments on specific pollutants, with a focus on PM2.5, Carbon Dioxide (CO2), Carbon Monoxide…
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Survey Results: GO IAQS Index Breakpoints
The results presented below are based on a questionnaire distributed to participants from the GO AQS members list. The survey, conducted using Google Forms, was open from May 15th to June 15th, 2025. PM2.5 The GO IAQS Index Breakpoints Survey, with a total of 40 participants, indicated strong support for the proposed PM2.5 breakpoints, with…
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