Devices and methods for automated liquid handling and reagent processing to provide labelling and detection of bacteria and viruses are provided. Labelling reactions are performed rapidly and with essentially no generation of hazardous waste or use of consumables. Highly sensitive detection is performed by measuring fluorescence on a rotating sample plate.

Methods and devices for continuous flow monitoring of a liquid sample for presence of an airborne microbial pathogen are provided. The liquid sample can be derived from environmental air. The methods and devices provide for continuous labeling of a targeted pathogen in the liquid sample with a fluorescent probe. A customized fluorescence detector is provided that can detect labeled pathogens during continuous flow.

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.

In an example, a thermal extraction apparatus includes: a housing having a gas inlet and a gas outlet to receive a gas flow through the housing from the gas inlet to the gas outlet, and a side opening to receive a sample collector, having a sample collector adsorbent containing a vapor sample, into a sample collector location; a pump to generate the gas flow; a heater to heat the sample collector adsorbent of the sample collector to a temperature sufficient to release the vapor sample; a thermal desorption (TD) tube connected with the gas outlet of the housing to receive the gas flow downstream of the sample collector and collect the vapor sample released from the sample collector adsorbent of the sample collector; and a cooling member in heat exchange with the TD tube to cool the TD tube.

A testing system is provided that includes a plurality of valves and a plurality of pumps. At least one of the pumps is coupled to at least one of the valves. A plurality of sensor arrays are coupled to at least one of the pumps or at least one of the valves for detecting at least one element. Each of the sensor arrays includes at least one serial connected sensor or parallel connected sensor.

In an example, a thermal extraction apparatus includes: a housing having a gas inlet and a gas outlet to receive a gas flow through the housing from the gas inlet to the gas outlet, and a side opening to receive a sample collector, having a sample collector adsorbent containing a vapor sample, into a sample collector location; a pump to generate the gas flow; a heater to heat the sample collector adsorbent of the sample collector to a temperature sufficient to release the vapor sample; a thermal desorption (TD) tube connected with the gas outlet of the housing to receive the gas flow downstream of the sample collector and collect the vapor sample released from the sample collector adsorbent of the sample collector; and a cooling member in heat exchange with the TD tube to cool the TD tube.

In an example, a thermal extraction apparatus includes: a housing having a gas inlet and a gas outlet to receive a gas flow through the housing from the gas inlet to the gas outlet, and a side opening to receive a sample collector, having a sample collector adsorbent containing a vapor sample, into a sample collector location; a pump to generate the gas flow; a heater to heat the sample collector adsorbent of the sample collector to a temperature sufficient to release the vapor sample; a thermal desorption (TD) tube connected with the gas outlet of the housing to receive the gas flow downstream of the sample collector and collect the vapor sample released from the sample collector adsorbent of the sample collector; and a cooling member in heat exchange with the TD tube to cool the TD tube.

Air quality measurement system, method and apparatus are described. The air quality measurement system is also referred to as air constituent measurement system. Various air-quality parameters such as, for example, particulate matter, SO2, NO2, CO, O3, H2S, CO2, HCL, NH3, CH4, VOC etc. can be measured.

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 droplet generator includes a chamber including an enclosed space filled with gas having vapor, a tube extending through the chamber, a gas flow channel inside the tube, and a heater in the chamber. The tube includes a sidewall having an outer surface exposed to the enclosed space of the chamber, and an inner surface. The tube contains liquid. The heater is operable to change a phase of the liquid contained in the tube to vapor such that the vapor is provided into the enclosed space. A pressure in the enclosed space is higher than a pressure in the gas flow channel such that the vapor in the enclosed space flows to the gas flow channel by passing through the tube.