DST ObservAir Руководство по эксплуатации - Страница 4

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The Mass Absorption Coefficient (MAC) is a calibration factor that relates

the time differential of ATN to BC concentrations in the flow. The MAC varies

depending on the air pollution source, PM composition and other factors.

By default, the ObservAir uses a MAC of 12.5 m

adjusted following cross-calibration with a reference instrument. For the

factors specific to the ObservAir, Equation (2) simplifies to:

) =

(

K = ObservAir constant = 339,292 µg · ccm · sec/m

Q(t

) = Flow rate at time t

(ccm)

Note: In Equation (3) above, the flow rate (Q) is input in units of cubic

centimeters per minute (ccm), as reported by the ObservAir.

1.1.2. Electrochemical cells (Gaseous pollutants)

The ObservAir can be optionally outfitted with electrochemical cells to

measure gaseous pollutants. Six electrochemical cells are available, to

monitor concentrations of carbon monoxide (CO), nitrogen dioxide (NO

ozone (O

), sulfur dioxide (SO

), hydrogen sulfide (H

ObservAir can be configured to measure up to two (2) of these six species.

Electrochemical cells contain a chemical reagent that creates a

small electrical current when exposed to the gaseous analyte of interest

(e.g., CO). This electrical current is amplified and converted to a voltage

signal (the 'gas voltage') for digital acquisition. Each electrochemical cell

also outputs a reference voltage to compensate for drift and environmental

sensitivity. Using these two voltage signals, the gas concentration is

calculated as follows:

() −

() =

&)$

∙ ∙ 10

&)$

(t) = Gas concentration at time 't' (ppm)

gas

(t) = Gas voltage at time 't' (V)

gas

(t) = Reference voltage at time 't' (V)

ref

= Offset voltage differential = V

zero

Code = Calibration code (nA/ppm). See Section 3.5.1.

Gain = Voltage gain (kV/nA). See Table 1.

An offset voltage differential (V

zero

during DST's zero-calibration procedure, but this value should also be

measured and logged prior to your monitoring application. Operate the

ObservAir Operating Manual

/g, but this value may be

∙

(3)

)

S), and ethanol. The

() −

(4)

!"#

*"!+

when C

= 0 ppm (V)

– V

gas

ref

gas

) value is determined for each ObservAir

ObservAir for 12 to 24 hours in an environment that is free of the analyte

gas(es) and average the voltage differential data collected over the entire

zero calibration period. Code is the factory calibration factor and is specific

to each individual cell. The code for each cell is automatically logged in the

SD card's Settings file, as outlined in Section 3.5.1.

Table 1. Gain settings for each type of electrochemical cell

1.2. Environmental compensation

All air quality instruments are susceptible to environmental fluctuations. For

example, the temperature sensitivity of the aerosol absorption photometer's

LEDs, photodiodes, and other electronic components results in erroneous

or inaccurate BC measurements during rapid environmental changes, such

as may be expected diurnally when the sensor is deployed outdoors. The

ObservAir incorporates proprietary hardware and software features to

minimize the sensor's environmental dependence.

Hardware compensation features include the aerosol absorption

photometer's active reference filter. Since the sampled air flow is actively

drawn through the reference filter, the transmitted light intensity is largely

dependent on the flow's temperature and humidity content. By passing the

same air through both filters and monitoring each intensity measurement

independently, the ObservAir corrects for the photometer's environmental

sensitivity and other measurement artifacts (e.g., water absorption in the

filter). Similarly, the electrochemical cells' reference voltage outputs are

logged independently and used to compensate gaseous concentration

measurements. The sensor is also outfitted with temperature control

hardware

and

measurement accuracy in harsh environments.

While hardware features contribute significantly to correcting the

ObservAir's environmental dependence, some sensitivity remains that must

be corrected by software. This software compensation centers on DST's

Gas

Gain (kV/nA)

Carbon Monoxide (CO)

100

Hydrogen Sulfide (H

49.9

Nitrogen Dioxide (NO

)

499

Sulfur Dioxide (SO

)

100

Ozone (O

)

299

Ethanol

249

other

proprietary

design

elements

ObservAir

that

preserve

Operating Manual