Method of and apparatus for the continuous emissions monitoring of toxic airborne metals
First Claim
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1. A portable continuous emissions monitor for analyzing an air sample from an incinerator by an ICP-AES apparatus, comprising:
- (a) a sampling interface device having;
(i) a first elongated conduit having an inlet end and an outlet end, first solenoid valve being disposed at the inlet end and second solenoid valve being disposed at the outlet end, a sample loop being disposed between the first solenoid valve and the second solenoid valve;
(ii) a second elongated conduit having a first end and a second end, the first end being connected to the first elongated conduit between the inlet end and the sample loop to form a junction, and the second end being connected to the first elongated conduit between the outlet end and the sample loop to form a junction, third solenoid valve being disposed between the first end and the second end;
(b) means for transporting said air sample to said sampling interface device at the inlet end of the first elongated conduit;
(c) an ICP-AES apparatus coupled to said sampling interface device at the outlet end of the first elongated conduit;
(d) means for propelling said air sample from said incinerator through said sampling interface device connected at the first solenoid valve and the second solenoid valve; and
(e) an analyzer coupled to the ICP-AES apparatus, the analyzer being operable to quantify metal concentration of the air sample based on an emissions signal from the ICP-AES apparatus.
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Abstract
A portable apparatus for continuous real-time measurement of airborne met, comprising an isokinetic sampler, a sample line, a sampling interface device, a pump, and an inductively coupled plasma atomic emission spectrometry (ICP-AES). A method for measurement of airborne metals by use of such an apparatus is also described, in which the sampling interface device accommodates the high, continuous sample collection flow-rates necessary for isokinetic sampling while at the same time permits sample air to be introduced into the plasma at preferred moderate flow-rates. A method for field standardization of the ICP-AES is also described whereby a relationship between aqueous solutions of metals and their aerosol counterparts is established, thus later allowing the field use of the aqueous metal solutions to simulate a particular range of airborne metal concentrations.
18 Citations
10 Claims
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1. A portable continuous emissions monitor for analyzing an air sample from an incinerator by an ICP-AES apparatus, comprising:
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(a) a sampling interface device having; (i) a first elongated conduit having an inlet end and an outlet end, first solenoid valve being disposed at the inlet end and second solenoid valve being disposed at the outlet end, a sample loop being disposed between the first solenoid valve and the second solenoid valve; (ii) a second elongated conduit having a first end and a second end, the first end being connected to the first elongated conduit between the inlet end and the sample loop to form a junction, and the second end being connected to the first elongated conduit between the outlet end and the sample loop to form a junction, third solenoid valve being disposed between the first end and the second end; (b) means for transporting said air sample to said sampling interface device at the inlet end of the first elongated conduit; (c) an ICP-AES apparatus coupled to said sampling interface device at the outlet end of the first elongated conduit; (d) means for propelling said air sample from said incinerator through said sampling interface device connected at the first solenoid valve and the second solenoid valve; and (e) an analyzer coupled to the ICP-AES apparatus, the analyzer being operable to quantify metal concentration of the air sample based on an emissions signal from the ICP-AES apparatus. - View Dependent Claims (2)
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3. A method for feeding an air sample for analysis by an ICP-AES apparatus, comprising the step of:
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(a) collecting an air sample from an incinerator to a sampling interface device; (b) propelling the air sample continuously by a pump to the sampling interface device and to a plasma torch of an ICP-AES apparatus, the sampling interface device having a first solenoid valve to direct the air sample to a second solenoid valve to direct the air sample to exhaust, a sample loop being disposed between the first solenoid valve and the second solenoid valve; (c) directing a low flow-rate clean air sample by a third solenoid valve into the ICP-AES apparatus to generate an emission signal; (d) simultaneously switching said first, second, and third solenoid valves, so that said first solenoid valve directs said air sample to said pump and said third solenoid valve directs said low flow-rate clean air sample into said sample loop, so that the air sample residing in said sample loop is forced through said second solenoid valve into said ICP-AES apparatus for a measurement of atomic emission, whereby the transporting of said air sample is introduced into said ICP-AES apparatus at a low flow-rate; and (e) obtaining a net emission signal by subtracting the low flow-rate clean air sample measurement from the air sample measurement. - View Dependent Claims (4, 5, 6, 7, 8, 9, 10)
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Specification
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Current AssigneeThe United States of America As Represented By The Secretary of Agriculture
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Original Assigneethe united states of america as represented by the secretary of the navy
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InventorsGreen, Robert B., Seltzer, Michael D.
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Primary Examiner(s)EVANS, FANNIE L
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Application NumberUS08/540,602Time in Patent Office476 DaysField of Search356/36, 356/316, 356/243US Class Current356/316CPC Class CodesG01N 1/2202 involving separation of sam...G01N 1/2247 Sampling from a flowing str...G01N 2001/2223 aerosol sampling devicesG01N 2001/225 isokinetic, same flow rate ...G01N 21/73 using plasma burners or tor...
