Patents Assigned to MesoSystems Technology, Inc.
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Publication number: 20120122074Abstract: A multi-tier approach for use in a mailroom for detecting bio-threats conveyed by mail. In a first tier procedure, mail entering the mailroom is continuously automatically screened at a mail screening station to detect a potential bio-threat contamination. If a potential bio-threat is detected, an alarm signal is generated, a sample of the potential bio-threat is collected, and a second tier procedure is initiated. The second tier procedure uses a manual test, such as a nucleic acid amplification and detection assay to detect any of a plurality of different specific bio-threats in the sample. If a specific bio-threat is found, appropriate steps are taken to limit spread of the bio-threat and exposure of personnel. A third tier procedure uses a manual assay to check for a specific toxin in background samples collected over a predefined time interval at each mail screening station and in the air handling system for the mailroom.Type: ApplicationFiled: November 9, 2006Publication date: May 17, 2012Applicant: MesoSystems Technology, Inc.Inventor: Charles J. Call
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Publication number: 20110314937Abstract: A detector for optically detecting biological aerosols in a sample volume using non-imaging optical components (NIOCs) includes a light source configured to stimulate bio-fluorescence of tryptophan or nicotinamide adenine dinucleotide. In at least one embodiment, a sample volume and each non-imaging optical component are defined by surface features in each of a first monolithic structure and a second monolithic structure, when the first monolithic structure and the second monolithic structure are disposed in a facing relationship. In at least one embodiment, each NIOC comprises a compound parabolic collector. To facilitate volume production, the monolithic structures can be molded. Preferably, the sample is a volume of a gaseous fluid, such as air.Type: ApplicationFiled: February 9, 2009Publication date: December 29, 2011Applicant: MesoSystems Technology, Inc.Inventors: Robert Johnson, Richard DeFreez
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Publication number: 20100255560Abstract: Method and apparatus for acquiring a sample of viable biological particles from ambient air, and maintaining the collected viable biological particles at temperature and humidity conditions selected to maintain the viability of the collected viable biological particles. In at least one embodiment, spent collection surfaces are stored in a magazine, and the temperature and humidity conditions in the magazine are controlled. In at least one embodiment, viable biological particles are extracted from ambient air using a particle collector contained in a housing, and the temperature and humidity conditions in the housing are controlled. In at least one embodiment, the temperature and humidity of ambient air entering a particle collector are manipulated to levels selected to maintain the viability of collected particles.Type: ApplicationFiled: April 2, 2010Publication date: October 7, 2010Applicant: MesoSystems Technology, Inc.Inventors: Charles Call, Trever E.W. Skilnick, Steven T. Strohl
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Publication number: 20100242632Abstract: Particles are removed from a fluid stream, such as air, and are deposited on one or more collection surfaces. A pre-filter can be employed to reject oversized particles and contaminants, such as rain and insects. A concentrator is employed to increase a concentration of particles larger than a pre-defined particle size in at least a portion of the fluid, producing a concentrated volume of fluid. The concentrator and pre-filter can, for example, be virtual impactors. The concentrated volume of fluid/air is directed to the collection surface(s), where particles in the concentrated volume of air are deposited. In at least one embodiment, the collection surface is a bed of beads, reducing loss of particles that might occur due to particles bouncing from a single collection surface. A sampling component removes a portion of the deposited particles to generate a sample, which is analyzed by an analytical component.Type: ApplicationFiled: July 18, 2006Publication date: September 30, 2010Applicant: MesoSystems Technology, Inc.Inventor: Charles J. Call
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Patent number: 7799567Abstract: Particles are removed from a fluid stream, such as air, and are deposited on one or more collection surfaces. A pre-filter can be employed to reject oversized particles and contaminants, such as rain and insects. A concentrator is employed to increase a concentration of particles larger than a pre-defined particle size in at least a portion of the fluid, producing a concentrated volume of fluid. The concentrator and pre-filter can, for example, be virtual impactors. The concentrated volume of fluid/air is directed to the collection surface(s), where particles in the concentrated volume of air are deposited. In at least one embodiment, the collection surface is a bed of beads, reducing loss of particles that might occur due to particles bouncing from a single collection surface. A sampling component removes a portion of the deposited particles to generate a sample, which is analyzed by an analytical component.Type: GrantFiled: July 18, 2006Date of Patent: September 21, 2010Assignee: MesoSystems Technology, Inc.Inventor: Charles J. Call
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Patent number: 7799290Abstract: A non-thermal plasma or corona discharge is generated at multiple points and distributed to decontaminate surfaces and objects contaminated with chemical or biological agents. The corona discharge can be generated using very short high voltage pulses. The pulsed corona discharge can be directed at a contaminated surface through the unbraided strands at an end of a dielectric covered conductor. Another pulsed discharge embodiment incorporates a primary coil surrounding a chamber having a void filled with a plurality of secondary coils. A silent corona discharge can be generated using a variety of different configurations of a dielectric coated electrode and a bare electrode. The silent discharge is produced at all intersections between the dielectric covered electrode and the bare electrode. In one embodiment the apparatus comprises a blanket-like structure that is useful for decontaminating surfaces or decontaminating a fluid passing between spaced-apart bare electrodes.Type: GrantFiled: January 23, 2006Date of Patent: September 21, 2010Assignee: MesoSystems Technology, Inc.Inventors: Donald J. Hammerstrom, Joseph G. Birmingham, James S. Millar
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Publication number: 20100225918Abstract: A diesel particulate matter (DPM) monitor that can be worn, attached to a particular location or piece of equipment, and collects real-time data about DPM levels. In an exemplary embodiment, ambient air is drawn by a flow-controlled diaphragm pump through a particle size selector which only passes submicron particles. These particles are collected on an optically transparent filter. A laser illuminates the filter and the transmittance of the laser beam is measured in real-time by a photo detector. As DPM accumulates on the filter, the laser transmittance decreases. The instrument is calibrated to convert this decrease in transmittance to a real-time concentration of elemental carbon in the air.Type: ApplicationFiled: March 9, 2010Publication date: September 9, 2010Applicant: MesoSystems Technology, Inc.Inventors: Geoffrey Aiken, Trever Edward William Skilnick
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Patent number: 7759123Abstract: A method and apparatus for removing concentrated spots of collected particulates from an impact collection surface, and transferring those particulates into a container suitable for preparing a liquid sample. A jet of fluid can be utilized to remove and transfer the particulates. If a liquid jet is employed, care is taken to minimize the quantity of liquid to avoid unnecessarily diluting the sample. A mechanical scraper can alternatively be employed to remove and transfer the particulates into the container. The scraper can be rinsed with liquid or vibrated to remove the particulates. Alternatively, the portion of the surface containing a specific spot of particulates can be removed and placed into a container.Type: GrantFiled: March 21, 2006Date of Patent: July 20, 2010Assignee: MesoSystems Technology, Inc.Inventors: Charles J. Call, Patrick T. Call, Vanessa M. Kenning, Eric Hanczyc, Andrew Kamholz
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Patent number: 7601206Abstract: Potable water is produced by extraction of water vapor from air. Water absorbed inside a desiccant bed is forced into vapor phase by using input heat energy, for example, waste heat from the exhaust of an internal combustion engine. Pre-heating a portion of the desiccant material prior to desorption enhances efficiency. Energy for the pre-heating may be obtained by recovering heat from the desiccant material prior to adsorption.Type: GrantFiled: August 22, 2006Date of Patent: October 13, 2009Assignee: MesoSystems Technology, Inc.Inventors: Charles J. Call, Robert C. Beckius, Ezra L. Merrill, Seung-Ho Hong, Mike Powell
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Patent number: 7591980Abstract: Airborne particles are impacted on a collection surface, analyzed, and then the collection surface is regenerated. Thus, the same collection surface can be used in numerous cycles. The analysis can be focused on one or more properties of interest, such as the concentration of airborne biologicals. Sensors based on regenerative collection surfaces may be incorporated in many networks for applications such as building automation.Type: GrantFiled: March 1, 2004Date of Patent: September 22, 2009Assignee: MesoSystems Technology, Inc.Inventors: Charles John Call, Ezra Merrill, Robert Beckius
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Patent number: 7578973Abstract: Airborne particles are impacted on a collection surface, analyzed, and then the collection surface is regenerated. Thus, the same collection surface can be used in numerous cycles. The analysis can be focused on one or more properties of interest, such as the concentration of airborne biologicals. Sensors based on regenerative collection surfaces may be incorporated in many networks for applications such as building automation.Type: GrantFiled: March 1, 2004Date of Patent: August 25, 2009Assignee: MesoSystems Technology, Inc.Inventors: Charles John Call, Ezra Merrill, Robert Beckius
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Publication number: 20080105618Abstract: A portable water filter including a plurality of different filter medias. One embodiment includes two filter exhibiting a synergistic effect on filtration. Another embodiment provides higher than normal pH water to simply removal; of dissolved metals. Still another embodiments meets specified performance parameters. The filters are usable in hand held water purifiers, gravity feed filtration systems, and personal hydration systems. The water filter is lightweight to facilitate being carried in the field by a person for extended periods.Type: ApplicationFiled: October 29, 2007Publication date: May 8, 2008Applicant: MesoSystems Technology, Inc.Inventors: Robert Beckius, Tim Oriard, Paul Smith
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Patent number: 7265669Abstract: Airborne particles are impacted on a collection surface, analyzed, and then the collection surface is regenerated. Thus, the same collection surface can be used in numerous cycles. The analysis can be focused on one or more properties of interest, such as the concentration of airborne biologicals. Sensors based on regenerative collection surfaces may be incorporated in many networks for applications such as building automation.Type: GrantFiled: March 1, 2004Date of Patent: September 4, 2007Assignee: MesoSystems Technology, Inc.Inventors: Charles John Call, Robert Beckius, Ezra Merrill
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Publication number: 20070048186Abstract: A method and apparatus for removing concentrated spots of collected particulates from an impact collection surface, and transferring those particulates into a container suitable for preparing a liquid sample. A jet of fluid can be utilized to remove and transfer the particulates. If a liquid jet is employed, care is taken to minimize the quantity of liquid to avoid unnecessarily diluting the sample. A mechanical scraper can alternatively be employed to remove and transfer the particulates into the container. The scraper can be rinsed with liquid or vibrated to remove the particulates. Alternatively, the portion of the surface containing a specific spot of particulates can be removed and placed into a container.Type: ApplicationFiled: March 21, 2006Publication date: March 1, 2007Applicant: MesoSystems Technology, Inc.Inventors: Charles Call, Patrick Call, Vanessa Kenning, Eric Hanczyc, Andrew Kamholz
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Publication number: 20060257280Abstract: A non-thermal plasma or corona discharge is generated at multiple points and distributed to decontaminate surfaces and objects contaminated with chemical or biological agents. The corona discharge can be generated using very short high voltage pulses. The pulsed corona discharge can be directed at a contaminated surface through the unbraided strands at an end of a dielectric covered conductor. Another pulsed discharge embodiment incorporates a primary coil surrounding a chamber having a void filled with a plurality of secondary coils. A silent corona discharge can be generated using a variety of different configurations of a dielectric coated electrode and a bare electrode. The silent discharge is produced at all intersections between the dielectric covered electrode and the bare electrode. In one embodiment the apparatus comprises a blanket-like structure that is useful for decontaminating surfaces or decontaminating a fluid passing between spaced-apart bare electrodes.Type: ApplicationFiled: January 23, 2006Publication date: November 16, 2006Applicant: MesoSystems Technology, Inc.Inventors: Donald Hammerstrom, Joseph Birmingham, James Millar
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Patent number: 7041260Abstract: A fluid treatment system incorporating an integrated heat exchanger and thermal treatment unit. A fan draws or pushes a contaminated fluid through the heat exchanger, which is preferably of the counter flow type. The integrated heat exchanger and thermal treatment unit is fabricated by stacking sheets of metal foil so that gaps are defined between adjacent sheets. These gaps define alternating untreated and treated fluid channels. The untreated fluid flows through the heat exchanger and into the thermal treatment unit, with is disposed within aligned orifices formed in the metal foil sheets. Heat transfer occurs between adjacent treated and untreated channels, which greatly improves the efficiency with which a temperature of the untreated fluid entering the heat exchanger is changed as a result of heat transfer with the treated fluid that is exiting the heat exchanger. A header system is in fluid communication with either all of the treated or all of the untreated fluid channels.Type: GrantFiled: October 9, 2000Date of Patent: May 9, 2006Assignee: MesoSystems Technology, Inc.Inventors: Seung-Ho Hong, Michael R. Powell, Charles J. Call
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Patent number: 7037468Abstract: Apparatus and method for using a non-thermal plasma or corona discharge generated at multiple points and distributed to decontaminate surfaces and objects contaminated with chemical or biological agents. The corona discharge can be generated using very short high voltage pulses. The pulsed corona discharge can be directed at a contaminated surface through the unbraided strands at an end of a dielectric covered conductor. Another pulsed discharge embodiment incorporates a primary coil surrounding a chamber having a void filled with a plurality of secondary coils. A silent corona discharge can be generated using a variety of different configurations of a dielectric coated electrode and a bare electrode. The silent discharge is produced at all intersections between the dielectric covered electrode and the bare electrode. In one embodiment the apparatus comprises a blanket-like structure that is useful for decontaminating surfaces or decontaminating a fluid passing between spaced-apart bare electrodes.Type: GrantFiled: July 9, 2002Date of Patent: May 2, 2006Assignee: MesoSystems Technology, Inc.Inventors: Donald J. Hammerstrom, Joseph G. Birmingham, James S. Millar
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Patent number: 6951147Abstract: The present invention relates to optimizing the configuration of rotary impact collectors and devices in which such rotary impact collectors are employed. Rotary impact collectors are formed out of base plate upon which a plurality of vanes are mounted. One aspect of the present invention is a combined impact collector and fan in which the ratio of vane height to impeller diameter is in the range of about 0.01 to about 0.2. Preferably, the vanes are evenly spaced around the impeller so as to present a balanced load to the motor. Other performance enhancing elements include the use of truncated vanes, configurations optimized for injection molding fabrication, controlling the orientation of the vanes to reduce the formation of vortex forces, and enhancements configured to increase the ability to collected particles rinsed off such impellers.Type: GrantFiled: June 20, 2003Date of Patent: October 4, 2005Assignee: Mesosystems Technology, Inc.Inventors: Patrick T. Call, Vanessa M. Kenning, Charles J. Call
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Patent number: 6938777Abstract: A method and apparatus for removing concentrated spots of collected particulates from an impact collection surface, and transferring those particulates into a container suitable for preparing a liquid sample. A jet of fluid can be utilized to remove and transfer the particulates. If a liquid jet is employed, care is taken to minimize the quantity of liquid to avoid unnecessarily diluting the sample. A mechanical scraper can alternatively be employed to remove and transfer the particulates into the container. The scraper can be rinsed with liquid or vibrated to remove the particulates. Alternatively, the portion of the surface containing a specific spot of particulates can be removed and placed into a container.Type: GrantFiled: February 11, 2003Date of Patent: September 6, 2005Assignee: MesoSystems Technology, Inc.Inventors: Charles J. Call, Patrick T. Call, Vanessa M. Kenning, Eric Hanczyc, Andrew Kamholz
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Patent number: 6887710Abstract: Items of mail are rapidly processed in a mail sampling system to determine if the mail is contaminated with a chemical or biological agent. The mail sampling system maintains a negative pressure in a containment chamber and includes a triggering sampler that makes a threshold determination regarding possible contamination, and a detecting sampler that obtains a sample for more detailed analysis in response to a signal from the triggering sampler. A sample of particulates collected from an item of mail is either removed for analysis or analyzed in the system to identify a contaminating agent. Optionally, the system includes an archiving sampler, which archives samples for subsequent processing and analysis, and a decontamination system, which is activated to decontaminate the mail if needed.Type: GrantFiled: February 1, 2002Date of Patent: May 3, 2005Assignee: MesoSystems Technology, Inc.Inventors: Charles J. Call, Eric Hanczyc, Andrew Kamholz