Patents by Inventor Eric Desrochers
Eric Desrochers has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 12135318Abstract: A multi-point air sampling system that can use a field reference subsystem to process sensor feedback to efficiently and reliably monitor and improve air quality within a space. The field reference subsystem can interface with multiple types of multi-point air sampling systems to ensure that sensors are operational and producing accurate measurements. Included within the field reference subsystem can be one or more permeation sources for generating test gases used to evaluate the integrity of the sensors, a processor for receiving the results of the test-gas evaluations to recurrently verify the operation level of each sensor, and a reporting system for carrying out actions in response to the recurrent verification of the sensors.Type: GrantFiled: April 14, 2020Date of Patent: November 5, 2024Assignee: Measured Air Performance, LLCInventor: Eric Desrochers
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Patent number: 11933508Abstract: Methods and apparatus for an exhaust demand control system for measuring one or more contaminants at one or more exhaust locations within one or a plurality of exhaust ducts or plenums served by an exhaust fan system. Example systems and methods can include sensing the one or more contaminants within the one or more exhaust duct locations using a multipoint air sampling system having one or more sensors and flow control elements, comparing contaminant concentration measurements from the one or more of said exhaust duct or plenum locations against an action level to create a fan setback signal, and ensuring sensor accuracy and reliability by implementing a sensor protective mode when the contaminant concentration measurements from the one or more exhaust locations exceeds an action level.Type: GrantFiled: May 24, 2023Date of Patent: March 19, 2024Assignee: Measured Air Performance, LLCInventor: Eric Desrochers
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Publication number: 20240009715Abstract: Methods, systems, and apparatus are described which can safely reduce a laboratory fume hood's minimum airflow and energy consumption when it is determined that the fume hood is not in active use, based on a condition monitoring approach. The condition monitoring approach may incorporate a combination of setback criteria to reliably determine if the fume hood is or is not in use. When a determination has been made that a fume hood is not in use, energy reduction is achieved via automatic methods of hood minimum airflow setback. Fume hood minimum flow reductions are automatically disabled when it is determined that the hood is in active use.Type: ApplicationFiled: September 22, 2023Publication date: January 11, 2024Applicant: Measured Air Performance, LLCInventor: Eric Desrochers
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Publication number: 20230349575Abstract: Methods and apparatus for an exhaust demand control system for measuring one or more contaminants at one or more exhaust locations within one or a plurality of exhaust ducts or plenums served by an exhaust fan system. Example systems and methods can include sensing the one or more contaminants within the one or more exhaust duct locations using a multipoint air sampling system having one or more sensors and comparing contaminant concentration measurements from the one or more of said exhaust duct or plenum locations against an action level to create a fan setback signal.Type: ApplicationFiled: May 24, 2023Publication date: November 2, 2023Applicant: Measured Air Performance, LLCInventor: Eric Desrochers
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Patent number: 11801538Abstract: Methods, systems, and apparatus are described which can safely reduce a laboratory fume hood's minimum airflow and energy consumption when it is determined that the fume hood is not in active use, based on a condition monitoring approach. The condition monitoring approach may incorporate a combination of setback criteria to reliably determine if the fume hood is or is not in use. When a determination has been made that a fume hood is not in use, energy reduction is achieved via automatic methods of hood minimum airflow setback. Fume hood minimum flow reductions are automatically disabled when it is determined that the hood is in active use.Type: GrantFiled: March 4, 2021Date of Patent: October 31, 2023Assignee: Measured Air Performance, LLCInventor: Eric Desrochers
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Patent number: 11698202Abstract: Methods and apparatus for an exhaust demand control system for measuring one or more contaminants at one or more exhaust locations within one or a plurality of exhaust ducts or plenums served by an exhaust fan system. Example systems and methods can include sensing the one or more contaminants within the one or more exhaust duct locations using a multipoint air sampling system having one or more sensors and comparing contaminant concentration measurements from the one or more of said exhaust duct or plenum locations against an action level to create a fan setback signal.Type: GrantFiled: August 26, 2022Date of Patent: July 11, 2023Assignee: Measured Air Performance, LLCInventor: Eric Desrochers
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Publication number: 20220412587Abstract: Methods and apparatus for an exhaust demand control system for measuring one or more contaminants at one or more exhaust locations within one or a plurality of exhaust ducts or plenums served by an exhaust fan system. Example systems and methods can include sensing the one or more contaminants within the one or more exhaust duct locations using a multipoint air sampling system having one or more sensors and comparing contaminant concentration measurements from the one or more of said exhaust duct or plenum locations against an action level to create a fan setback signal.Type: ApplicationFiled: August 26, 2022Publication date: December 29, 2022Applicant: Measured Air Performance, LLCInventor: Eric Desrochers
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Patent number: 11460203Abstract: Methods and apparatus for an exhaust demand control system for measuring one or more contaminants at one or more exhaust locations within one or a plurality of exhaust ducts or plenums served by an exhaust fan system. Example systems and methods can include sensing the one or more contaminants within the one or more exhaust duct locations using a multipoint air sampling system having one or more sensors and comparing contaminant concentration measurements from the one or more of said exhaust duct or plenum locations against an action level to create a fan setback signal.Type: GrantFiled: September 25, 2018Date of Patent: October 4, 2022Assignee: Measured Air Performance, LLCInventor: Eric Desrochers
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Publication number: 20220099641Abstract: A multi-point air sampling system that can use a field reference subsystem to process sensor feedback to efficiently and reliably monitor and improve air quality within a space. The field reference subsystem can interface with multiple types of multi-point air sampling systems to ensure that sensors are operational and producing accurate measurements. Included within the field reference subsystem can be one or more permeation sources for generating test gases used to evaluate the integrity of the sensors, a processor for receiving the results of the test-gas evaluations to recurrently verify the operation level of each sensor, and a reporting system for carrying out actions in response to the recurrent verification of the sensors.Type: ApplicationFiled: April 14, 2020Publication date: March 31, 2022Applicant: Measured Air Performance, LLCInventor: Eric Desrochers
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Publication number: 20210291242Abstract: Methods, systems, and apparatus are described which can safely reduce a laboratory fume hood's minimum airflow and energy consumption when it is determined that the fume hood is not in active use, based on a condition monitoring approach. The condition monitoring approach may incorporate a combination of setback criteria to reliably determine if the fume hood is or is not in use. When a determination has been made that a fume hood is not in use, energy reduction is achieved via automatic methods of hood minimum airflow setback. Fume hood minimum flow reductions are automatically disabled when it is determined that the hood is in active use.Type: ApplicationFiled: March 4, 2021Publication date: September 23, 2021Applicant: Measured Air Performance, LLCInventor: Eric Desrochers
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Publication number: 20190137126Abstract: Methods and apparatus for an exhaust demand control system for measuring one or more contaminants at one or more exhaust locations within one or a plurality of exhaust ducts or plenums served by an exhaust fan system. Example systems and methods can include sensing the one or more contaminants within the one or more exhaust duct locations using a multipoint air sampling system having one or more sensors and comparing contaminant concentration measurements from the one or more of said exhaust duct or plenum locations against an action level to create a fan setback signal.Type: ApplicationFiled: September 25, 2018Publication date: May 9, 2019Applicant: Measured Air Performance, LLCInventor: Eric Desrochers
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Publication number: 20070240490Abstract: This invention details apparatus and methods for a unique integrated duct probe assembly system that enables multipoint sampling systems to cost effectively measure air parameters in partially confined locations such as ductwork, plenums, and air handlers with both remote and local sensors with a minimum of duct penetrations.Type: ApplicationFiled: May 30, 2007Publication date: October 18, 2007Inventors: Eric Desrochers, Gordon Sharp
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Publication number: 20070137318Abstract: This invention details apparatus and methods for a unique integrated duct probe assembly system that enables multipoint sampling systems to cost effectively measure air parameters in partially confined locations such as ductwork, plenums, and air handlers with both remote and local sensors with a minimum of duct penetrations.Type: ApplicationFiled: December 20, 2005Publication date: June 21, 2007Inventors: Eric Desrochers, Gordon Sharp
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Publication number: 20070113686Abstract: An air monitoring system includes a tubing having a metallic inner layer and an outer jacket to provide optimal transport of air samples.Type: ApplicationFiled: January 25, 2007Publication date: May 24, 2007Inventors: Eric Desrochers, Gordon Sharp, Michael Gardell, David Farrington, Richard Reiter
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Publication number: 20070082601Abstract: A dilution ventilation control system for use in a one-pass, critical environments comprising: one or more one-pass, critical environments comprising, a variable source of supply airflow volume, an exhaust for completely exhausting the airflow volume supply from the critical environment and from a building comprising the critical environment through one or more exhaust ducts; and at least one an airflow control device provided in one or more of the ducts to vary the exhaust airflow volume from the critical environment; a facility monitoring system comprising at least one air contaminant sensor for sensing at least one air contaminant of the critical environment; a signal processing controller that generates one or more airflow command signals based at least in part on at least one sensed air contaminant; and a critical environment airflow controller that uses the airflow command signal to at least partially control the critical environment's supply and exhaust airflow volumes.Type: ApplicationFiled: March 10, 2006Publication date: April 12, 2007Inventors: Eric Desrochers, Gordon Sharp
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Publication number: 20060234621Abstract: A system for monitoring air quality conditions, comprising, a multi-point air monitoring system comprising, a plurality of sensors for collecting air quality data from a plurality of at least partially enclosed areas; one or more data processing units for processing one or more air quality parameters based on the collected air quality data; and one or more communication devices for communicating the data from the sensor to the processing unit; and a signal processing controller that generates one or more blended air quality parameter signals via the multi-point air monitoring system based at least in part on one or more of the processed air quality parameters representative of data from a plurality of the sensors.Type: ApplicationFiled: March 10, 2006Publication date: October 19, 2006Inventors: Eric Desrochers, Gordon Sharp
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Publication number: 20060173580Abstract: An air monitoring system is disclosed having an air monitoring unit with at least one sensor for measuring data of an air quality parameter and a computer for storing the air quality parameter data received from the sensor. The air monitoring unit may use an installed or a portable system, or a combination of both, for measuring the air quality parameters of interest. A remote data center may be provided, and the data may be uploaded to the data center from the unit by a communications media such as the Internet. Information or instructions may also be downloaded from the data center to the unit via the communications media for controlling or modifying the function of the unit. An expert system may be provided with the air monitoring system for controlling the unit. The information or instructions downloaded to the unit may be generated by the expert system.Type: ApplicationFiled: March 28, 2006Publication date: August 3, 2006Inventors: Eric Desrochers, Gordon Sharp
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Publication number: 20060173579Abstract: An air monitoring system is disclosed having an air monitoring unit with at least one sensor for measuring data of an air quality parameter and a computer for storing the air quality parameter data received from the sensor. The air monitoring unit may use an installed or a portable system, or a combination of both, for measuring the air quality parameters of interest. A remote data center may be provided, and the data may be uploaded to the data center from the unit by a communications media such as the Internet. Information or instructions may also be downloaded from the data center to the unit via the communications media for controlling or modifying the function of the unit. An expert system may be provided with the air monitoring system for controlling the unit. The information or instructions downloaded to the unit may be generated by the expert system.Type: ApplicationFiled: March 28, 2006Publication date: August 3, 2006Inventors: Eric Desrochers, Gordon Sharp
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Publication number: 20060060005Abstract: An air monitoring system includes a tubing having a metallic inner layer and an outer jacket to provide optimal transport of air samples.Type: ApplicationFiled: September 23, 2004Publication date: March 23, 2006Inventors: Eric Desrochers, Gordon Sharp, Michael Gardell, David Farrington, Richard Reiter
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Publication number: 20060060004Abstract: An air monitoring system includes a tubing having an electrically conductive inner surface. In one embodiment, the liner includes carbon based materials, such as for example carbon nanotubes. In another embodiment, a conductive layer is adhered to a substrate.Type: ApplicationFiled: June 10, 2005Publication date: March 23, 2006Inventors: Eric Desrochers, Gordon Sharp, David Farrington, Martin Flansbury