Advanced GC-FID Systems for Accurate Air Quality Monitoring

Quantify VOCs and methane with precision—ideal for composting, manure management, and greenhouse gas monitoring operations.

Gas Chromatographs with Flame Ionization Detectors

At AgroEnviroTest, our Gas Chromatographs with Flame Ionization Detectors (GC-FID) offer high-precision detection and quantification of volatile organic compounds (VOCs) and methane (CH₄) in ambient air. These systems are designed to support critical applications in manure management, composting, and air quality compliance by delivering reliable, field-validated measurements with laboratory-level accuracy. Leveraging the flame ionization method, GC-FID technology provides unmatched sensitivity, making it ideal for detecting trace gases that contribute to greenhouse emissions and odor nuisances. Our customers across North America trust us to integrate GC-FID technology into their workflows for real-time insights and regulatory readiness.

Hardware

GC-FID analyzer units with rugged enclosures are supported by Device Edgeto securely process air quality data at financial and insurance-critical sites.

Sample inlet systems for air/gas samples leverage Chemical and Gas Sensorsto detect pollutants affecting insured commercial properties.

Internal flame ionization detectors with auto ignition integrate with NB-IoT End Devicesfor remote monitoring in insured industrial environments.

Onboard calibration systems utilize BLE Gateways, Beacons & Accessoriesfor wireless calibration logging in compliance-heavy financial sectors.

Weatherproof field-deployable housings pair with LoRaWAN Gatewaysto ensure reliable data transmission from remote insured sites.

Software

Intuitive user interface for instrument control and diagnostics
Real-time chromatogram visualization and peak integration
Data logging with customizable triggers
Report generation in compliance-ready formats

Cloud Service

Remote access to system data via secure cloud dashboard
Automated data uploads and analytics
Custom alert settings for threshold exceedances
Multi-site management tools for enterprise users

Key Features and Functionalities

High sensitivity and specificity for hydrocarbons and methane

Fast response time with minimal maintenance requirements

Auto-calibration and drift correction for long-term reliability

Compact and portable options for remote locations

Seamless integration with air sampling stations and mobile labs

Exportable data formats (CSV, XML, JSON) for environmental reporting

Integrations & Compatibility

Fully compatible with AgroEnviroTest’s environmental data platforms
Connects to ambient air samplers, meteorological sensors, and GIS mapping systems
Interfaces with regulatory reporting platforms via API or manual upload
Supports integration with GAO Tek environmental sensing tools

Relevant U.S. & Canadian Standards

U.S. EPA Method 18
U.S. EPA Method TO-14A
U.S. Clean Air Act (CAA) Title V
California Air Resources Board (CARB) VOC standards
Canadian Environmental Protection Act (CEPA)
CCME Air Quality Guidelines

Benefits

– Comply with federal and provincial greenhouse gas and VOC regulations

– Improve air quality control in manure and compost management operations

– Generate defensible data for environmental impact assessments

– Reduce labor through automated sampling and remote access

– Enhance sustainability metrics for ESG reporting

Applications

Agricultural operations monitoring VOCs from compost and manure

Waste management sites for landfill gas and methane tracking

Research and academia for emissions modeling

Environmental consulting firms for air quality impact studies

Policy compliance in emissions-limited regions

Industries Served

Agriculture (dairy, poultry, hog)
Waste management and composting
Environmental monitoring agencies
Universities and research institutions
Climate policy and sustainability sectors

Case Study

California Dairy Farm Emissions Compliance (USA)

A large dairy operation in Central Valley adopted AgroEnviroTest’s GC-FID systems to monitor methane levels from lagoons and barn exhaust. This enabled them to meet state-mandated GHG reporting requirements and avoid regulatory penalties.

Composting Facility in Ohio (USA)

An industrial composting operation in Ohio implemented GC-FID technology to monitor VOCs released during decomposition. Results supported odor mitigation strategies and community engagement through transparent data sharing.

Municipal Research in Alberta (Canada)

A Canadian municipal agency in Alberta used our GC-FID systems for a greenhouse gas research initiative, tracking methane release from a biosolids treatment site. Data contributed to modeling municipal emissions for climate planning.

Interested in transforming your soil management practices?

Reach out to AgroEnviroTest to learn how our Soil Nutrient Analyzers can support your agricultural goals. Whether you’re exploring nutrient diagnostics for the first time or upgrading from legacy systems, our experts are ready to help. Contact Us Today to book a demo, request a quote, or get personalized guidance from our team.