Claims
- 1. A portable liquid collection electrostatic precipitator comprising:
an air intake system, said system comprising an air passage having an inlet end and an outlet end and an air pump, said pump operative to draw air from said inlet end through said air passage and out through said outlet end, thereby creating an air stream through said air passage; an ionization section located in said air intake system near said inlet end, said ionization section capable of ionizing analytes in said air stream; a collection electrode situated in said air intake system between said ionization section and said outlet end of said air intake system whereby said collection electrode is exposed to said air stream, said collection electrode comprising a vertical tubular electrode; a reservoir containing a liquid, said reservoir hydraulically connected to said collection electrode; a liquid pump for pumping said liquid from said reservoir to the interior of said collection electrode such that said liquid flows over the exterior of said collection electrode and is returned to said reservoir; a portable power source, said power source operatively connected to said ionization section and said collection electrode to create an electrostatic field capable of ionizing analytes in said air; whereby ionizable analytes in said air are electrostatically precipitated on said collection electrode and collected in said liquid.
- 2. The precipitator according to claim 1, wherein said air pump is capable of pumping air through said air intake system at a rate of about 300 liters/minute.
- 3. The precipitator according to claim 1, wherein said liquid comprises a nutrient mixture.
- 4. The precipitator according to claim 1, wherein said liquid comprises at least one indicator for at least one ionizable analyte of said air.
- 5. The precipitator according to claim 1, wherein said portable power source is capable of creating an electrostatic charge on said ionization wire of about 8,000 to 9,000 volts.
- 6. The precipitator according to claim 1, wherein said liquid comprises at least one surfactant.
- 7. The precipitator according to claim 1, further comprising:
a transceiver operatively connected to said power source whereby said precipitator can be remotely controlled.
- 8. The precipitator according to claim 7, further comprising:
an analyzer hydraulically connected to said reservoir whereby liquid in said reservoir is directed to said analyzer such that said analytes collected in said liquid can be analyzed, said analyzer also operatively connected to said transceiver such that data from said analyzer can be transmitted to a remote location.
- 9. A method for collecting and concentrating analytes from air, the method comprising:
providing a liquid collection electrostatic precipitator, said precipitator comprising:
an air intake system, said system comprising an air passage having an inlet end and an outlet end and an air pump, said pump operative to draw air from said inlet end through said air passage and out through said outlet end, thereby creating an air stream through said air passage; an ionization section located in said air intake system near said inlet end, said ionization section capable of ionizing analytes in said air stream; a collection electrode situated in said air intake system between said ionization section and said outlet end of said air intake system whereby said collection electrode is exposed to said air stream, said collection electrode comprising a vertical tubular electrode; a reservoir containing a liquid, said reservoir hydraulically connected to said collection electrode; a liquid pump for pumping said liquid from said reservoir to the interior of said collection electrode such that said liquid flows over the exterior of said collection electrode and is returned to said reservoir; a portable power source, said power source operatively connected to said ionization section and said collection electrode to create an electrostatic field capable of ionizing analytes in said air; whereby ionizable analytes in said air are electrostatically precipitated on said collection electrode and collected in said liquid; locating said precipitator at or near a selected location at which air is to be analyzed; and operating said precipitator for a selected period of time to collect analytes from said air by electrostatic precipitation of said analytes on said collection electrode and said liquid is recirculated between said reservoir and said collection electrode during said selected period of time; whereby analytes in said air are collected and concentrated in said liquid.
- 10. The method according to claim 9, wherein:
said precipitator further comprises a transceiver operatively connected to said power source, said transceiver capable of communicating with a remote location whereby an operator at said remote location can operate said electrostatic precipitator.
- 11. The method according to claim 10, wherein said precipitator further comprises an analyzer operatively connected to said reservoir, said analyzer capable of detecting at least one analyte collected and concentrated in said liquid; and
wherein said transceiver is operatively connected to said analyzer whereby data from said analyzer can be transmitted to an operator at said remote location.
STATEMENT OF GOVERNMENT RIGHTS
[0001] The United States Government has rights in this invention pursuant to Contract No. DE-AC09-96SR18500 between the U.S. Department of Energy and Westinghouse Savannah River Company.