Everett Lorne, Kram Mark
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Use of Continuous Monitoring in Detection and Prediction of Worst Case Risk Parametersdemonstrates how continuous monitoring significantly improves detection and prediction of ground gas regime.
Automated Continuous Monitoring and Observation of Dynamic Subsurface Vapor Contaminant Concentrationsdiscusses a network of real-time continuous soil vapor monitoring devices deployed to monitor for potential explosion hazards caused by vapor intrusion.
Proton Transfer Reaction Mass Spectrometry as a Real-Time Method for Continuous Organic Vapor Detection in Soil Gas and Ambient Airdescribes Proton Transfer Reaction Mass Spectrometry as a relatively new analytical technique ideally suited for real-time measurements of VOCs.
Vapor Intrusion Risk Assessment with an Innovative Mobile GC-Systemfocuses on a mobile soil gas testing system that does not require any enrichment of samples and delivers the results rapidly.
Measurements of Natural Gas Emission Rates from Below Pipelinesdiscusses the procedure and field measurements of methane emissions from underground pipeline leaks.
Measuring Compound Concentrations Using Time-Integrated Passive Soil Gas Samplersdiscusses the GORE® Module, a highly versatile, sorbent-based soil gas sampler.
Importance of Soil Moisture for In Situ Gas Surveying and Plume Assessmentdescribes how to establish responsible values for finding subsurface ground water contamination or other volatile contaminant plumes.
Soil Gas Sampling with Direct Push and Hand Sampling Equipmentoutlines crucial steps to develop and conduct a successful soil gas sampling plan and vapor intrusion monitoring procedure.
Vapor Migration Assessment for a Chlorinated Contaminated Site via Induced Flux Measurementproposes three modifications to the standard soil atmosphere sampling procedure.
Continuous Monitoring of Soil Gas by PID/FID Analyzersdiscusses cleanup of gasoline from groundwater and soil and the leaking of VOC’s into basements of buildings.
The Utility of Continuous Monitoring in Detection and Prediction of “Worst Case” Ground-Gas Concentrations CL:AIRE, 2011, Research Bulletin 13—The Utility of Continuous Monitoring in Detection and Prediction of “Worst-Case” Ground-Gas Concentration.
Boult S., Morris P., Talbot S.
CL:AIRE, 2011, Research Bulletin 13—The Utility of Continuous Monitoring in Detection and Prediction of “Worst-Case” Ground-Gas Concentration.
Proton Transfer Reaction Mass Spectrometry as a Real-Time Method for Continuous Soil Organic Vapor Detection
Conca J., Lockrem L., McCoskey J., Pingel L., Rogers T., Sears J., Watts H.
Vapor Intrusion Risk Assessment With an Innovative Mobile GC System
Bittens M., Meye R., Mondin M., Seelhorst B.
Measurement of Natural Gas Emission Rates from Belowground Pipelines
Farrag K., Wiley K.
Measuring Compound Concentrations Using the AGI Universal Sampler, a Time-Integrated, Passive Gas and Liquid Sampler
Anderson H., Hodny J., Whetzel J.
Importance of Soil Moisture for In Situ Gas Surveying and Plume Assessment
Farsad A., Skaling W.
Paper ID: STP1570-EB