Closed-loop sensor tester for simulating open-area releases
First Claim
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1. An apparatus comprising:
- a source of a simulant, wherein said simulant is at least one of;
(a) a simulant of a chemical agent, and(b) a simulant of a biological agent,wherein said source is selectively fluidically coupled to an intake port of a sensor capable of detecting at least one of either said chemical agent or said biological agent;
an environmental intake port, wherein said environmental intake port receives gases from an ambient environment, and further wherein said environmental intake port is fluidically coupled to said intake port;
an exhaust system, wherein said exhaust system includes a collection device that is selectively fluidically coupled to an exhaust port of the sensor; and
a controller, wherein said controller controls;
(a) a flow of said simulant from said source to said intake port of said sensor; and
(b) a flow of said simulant and said gases to said collection device from said exhaust port of said sensor, wherein the collection device receives the simulant and gases and prevents release thereof to both the ambient environment and the sensor.
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Abstract
A system and method for closed-loop testing of a biological or chemical sensor is disclosed. The tester is fluidically coupled to the input port and exhaust port of a sensor. A mixture of a chemical or biological simulant and air is generated by the tester and is delivered to the sensor. The mixture of simulant and air exiting the sensor is delivered to a collection device.
9 Citations
18 Claims
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1. An apparatus comprising:
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a source of a simulant, wherein said simulant is at least one of; (a) a simulant of a chemical agent, and (b) a simulant of a biological agent, wherein said source is selectively fluidically coupled to an intake port of a sensor capable of detecting at least one of either said chemical agent or said biological agent; an environmental intake port, wherein said environmental intake port receives gases from an ambient environment, and further wherein said environmental intake port is fluidically coupled to said intake port; an exhaust system, wherein said exhaust system includes a collection device that is selectively fluidically coupled to an exhaust port of the sensor; and a controller, wherein said controller controls; (a) a flow of said simulant from said source to said intake port of said sensor; and (b) a flow of said simulant and said gases to said collection device from said exhaust port of said sensor, wherein the collection device receives the simulant and gases and prevents release thereof to both the ambient environment and the sensor. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A method comprising:
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providing a flow of gases from an ambient environment to a sensor; adding a controlled amount of a simulant to said flow of gases thereby forming a mixture, wherein said simulant is selected from the group consisting of a simulant of a chemical agent and a simulant of a biological agent, and wherein addition of said controlled amount of simulant provides a target concentration of said simulant in said mixture; sensing said simulant in said sensor; collecting said mixture in a collection device after the mixture has been interrogated by the sensor; stopping addition of said simulant to said flow of gases; preventing said collection device from receiving said mixture or said gases; and exhausting said flow of gases to said ambient environment. - View Dependent Claims (13, 14, 15, 16)
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17. A method comprising:
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providing a flow of gases from an ambient environment to a sensor; adding a controlled amount of a simulant to said flow of gases thereby forming a mixture, wherein said simulant is selected from the group consisting of a simulant of a chemical agent and a simulant of a biological agent, and wherein addition of said controlled amount of simulant provides a target concentration of said simulant in said mixture; sensing said simulant in said sensor; collecting said mixture in a collection device while preventing the release of any of said mixture to the ambient environment; stopping addition of said simulant to said flow of gases while continuing; (a) the flow of gases from the ambient environment; (b) collecting the flow of gases, and any residual amount of simulant contained therein, in the collection device; and when a clear down period elapses, preventing said collection device from receiving any further of said flow of gases and said residual amount of simulant and exhausting the flow of gases and said residual amount of simulant to said ambient environment.
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18. A method comprising:
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adding a controlled amount of a simulant to a flow of gases from an ambient environment, thereby forming a first quantity of a mixture, wherein said simulant is selected from the group consisting of a simulant of a chemical agent and a simulant of a biological agent, and wherein addition of said controlled amount of simulant provides a target concentration of said simulant in said mixture; flowing the first quantity of the mixture through a sensor that is capable of sensing the simulant; collecting the first quantity of the mixture in a collection device; and analyzing an output from the sensor to verify operational readiness of the sensor.
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Specification