A hybrid cooler/dryer that conditions a sample gas includes a heat exchanger, a condensate-removal device, and a membrane dryer. In some embodiments, the hybrid cooler/dryer also includes passive cooling, as embodied by an air amplifier and heat sink, or a length of tubing that exposes the sample gas to ambient temperature. The hybrid cooler/dryer requires no electrical power.

Disclosed is a method for detecting and monitoring the presence, development and propagation of at least one infectious agent such as a bacterium or a virus, which is remarkable in that it includes the following steps: Subdivide the considered geographic area into area cells; Determine and identify in each area cell the points of presence, passing through or frequentation by human and/or animal beings likely to be infected by the infectious agent or by human and/or animal beings likely to be hosts to the infectious agent; and Install at each identified point in each area cell an autonomous device for detection of the infectious agent present in the environment surrounding the device by analysis and identification. Also disclosed is a device for executing the process.

A sampling device comprising a filter to remove particulates greater than about 10 microns, a dryer active to remove water vapor present in the air sample, a chemical scrubber active to remove contaminants from the air sample, a cold trap to capture analytes which is configurable to be put into fluid communication with a spectroscopic analyzer. A method of obtaining and analyzing a sample utilizing the device is also disclosed.

A non-water-cooled high temperature aerosol quantitative dilution sampling probe includes a dilution gas tube, a gas mixing tube, a sampling nozzle and a three-way shunt tube, in which the dilution gas tube is used for introducing a dilution gas, and forms, together with a gas mixing tube coaxially fitted therein, an annular passage for transporting the dilution gas; and the sampling nozzle is composed of an injection hole, an outer nozzle and an inner nozzle, and an annular gas flow gap formed between the inner nozzle and the gas mixing tube accelerates the flow of the dilution gas, and forms a negative pressure around the inner nozzle, thereby achieving the purpose of sucking the sample gas by the outer nozzle and mixing it with the dilution gas.

A combustion analyzer system includes an analyzer unit, a primary analysis probe and one or more remote probes. The analyzer unit includes a condensation removal unit and two or more electrochemical sensors to detect at least oxygen and carbon monoxide. The analyzer unit also includes a means for sealing or isolating the electrochemical sensor inputs to prevent oxidation of the reactive elements when the unit is not in use.

A sampling arrangement includes a sample concentration element configured to trap at least one analyte of interest by freezing; and a sample release arrangement configured to provide a flow of gas, at room temperature on or around the sample concentration element in order to change the temperature thereof; wherein the sample release arrangement further includes a release gas preprocessing element; and a pump element configured to provide the gas flow on or around the sample concentration element.

This invention relates generally to characterizing bioaerosols and, more particularly, to a system for recovering, quantifying, identifying, and assessing the metabolic activities of bioaerosols based on their major biopolymer profiles (lipids, carbohydrate and protein) and more specific their genetic materials (DNA/RNA), such as airborne viruses, bacteria, fungi and pollens.

Embodiments relate to systems and methods for dissipating heat within a gas detector. A gas detector may comprise an airflow generator configured to generate a sample gas flow through the gas detector; a sample gas flow line configured to direct the sample gas flow within a housing of the gas detector from an inlet of the gas detector toward an outlet of the gas detector; a sensor, in fluid communication with the airflow generator via the sample gas flow line, configured to detect one or more potentially hazardous gases within the sample gas flow; and a heat sink, in fluid communication with the airflow generator and positioned after the sensor along the sample gas flow line, configured to transfer heat from an interior of the housing to the sample gas flow, wherein the sample gas flow is directed out of the housing via the outlet of the gas detector.

A combustion analyzer system includes an analyzer unit, a primary analysis probe and one or more remote probes. The analyzer unit includes a condensation removal unit and two or more electrochemical sensors to detect at least oxygen and carbon monoxide. The analyzer unit or the primary analysis probe include a means for condensing and eliminating liquid in the combustion gas to be analyzed.

A thermal desorption tube collection system uses a thermoelectric cooler to collect and concentrate gas samples. In some modes, the operation of the cooler is reversed to flow the concentrated sample directly into a separator such as a gas chromatography system. Components resolved in time by a thermal desorption separator accumulate in a sample cell and are analyzed by electromagnetic radiation-based spectroscopic techniques. Also presented are methods for analyzing biogas samples.