Transcript
1st Detect Proprietary www.1stdetect.com
Preshious Rearden, Ph.D.
Senior Applications Chemist
prearden@1stdetect.com GCC - October 20, 2015
1st Detect Proprietary www.1stdetect.com
Air Toxic Monitoring
US EPA Requires Oil Refineries To Monitor Benzene Levels
Other Hazardous Air Pollutants (HAP) include 1,3-butadiene, toluene, ethylbenzene,
and xylenes
Method 325 established by the EPA for fenceline monitoring of benzene at petroleum
refineries
• Method sets standards for sampler placement, sample collection, preparation, and
analysis
• Recommends a passive sampling approach
‒ 12 to 24 passive samplers placed at 15 to 30 degree intervals along the perimeter
of each refinery
‒ Sampling cycle: 14 days
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Passive Sampling - Limitations and Challenges
Passive Sampling
Samples analyzed off-line
Inability to identify emission source
Miniature Mass Spectrometer As An Alternative
Approach To Passive Sampling
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iONTRAC
Why iONTRAC?
Program and monitor gas streams in real-time
Data from unused channels stored for future analysis
No carrier gases required
Operator controlled or autonomous unattended operation
Continuous monitoring
Out-of-spec product alarms
Cost Effective
Miniature ion trap mass spectrometer
Mass Range: 35 – 500 amu
Dynamic Range: 2 orders of magnitude
Gases Monitored: User programmable (up to 8 ions)
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GOAL
To Demonstrate the Feasibility of the iONTRAC to Monitor HAPs
Monitor benzene and ethylbenzene excursions
Evaluate the iONTRAC’s performance under ambient conditions
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Ambient Monitoring Technical Approach
iONTRAC equipped with a preconcentrator utilizing a Carbopack X sorbent
• Sampling Time: 70 s
• Desorption Time: 60 s
Instrument was placed in parking lot at 1st Detect’s facility in Webster TX
System challenged with benzene and ethylbenzene at varying distances
Mixtures of benzene and ethylbenzene analyzed
Meteorological data recorded with each simulated emission
Sampling Mode: Continuous
Sample period: 5 days
• Hold Time: 200 s
• Desorption Temp: 300C
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Experimental Set-up
iONTRAC
Weather Station
180 ft
Excursion
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Baseline Recovery
Benzene
Ethylbenzene
Removed Sample 180 ft Excursion
m/z = 78
m/z = 91 m/z = 106
In
te
nsity (a
.u
.)
In
te
nsity (a
.u
.)
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Reproducibility
Added Benzene Benzene In
te
nsity (a
.u
.)
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Meteorological Effects
Wind Speed and Direction
3 m
ph
WN
W
3 m
ph
N
3 m
ph
S
3 m
ph
EN
E
3 m
ph
E
iONTRAC
Sample
Benzene Toward iONTRAC
Away from iONTRAC
In
te
nsity (a
.u
.)
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VOC Detection
Benzene and Ethylbenzene
Benzene (m/z = 78)
Ethylbezene (m/z = 91)
Ethylbezene (m/z= 106)
100 ft
Inte
nsit
y (
a.u
.)
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Detection Levels
Benzene
Benzene and Ethylbenzene Detected at 200 ft
20 ft
Intensity as a Function of Distance
In
te
nsity (a
.u
.)
A
vg. Inte
nsity (a.u.)
In
te
nsity (a
.u
.) 200 ft
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Summary
iONTRAC offers continuous real-time monitoring of VOCs in
ambient air with:
• Rapid clear down rates (< 2 min)
• Stable and rapid response time
• Detection VOCs levels to a least 200 ft
• Simultaneous monitoring of multiple VOCs
• Faster detection times than passive sampling (<5 min)
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Future Directions
Optimize sampling and detection time
Test additional compounds
Increase the number of sampling ports on the iONTRAC
Test units on-site at petroleum refineries
Where Do We Go From Here?
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Acknowledgements
Corey Stedwell, Ph.D.
Daniel DeBord, Ph.D.
Madonna Mamerow, Ph.D.
Parminder Kaur, Ph.D.
James Wylde, Ph.D.
David Rafferty
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Thank You!
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Questions?