An air sampler that receives an air source through a manifold. The manifold has a restrictor and a vent that opens above a specified pressure. The remaining portion of the air source enters the inlet assembly where it passes through a filter with a removable element then through a one way valve and into an impermeable bag. Excess air in the bag escapes out an outlet one way valve capturing a sample inside the bag. An ambient air sample may delivered via a hand squeeze bulb and a biological sample may be contained inside the bag.

A method for active or passive sampling of particles and gas phase organic and non-organic components in a fluid flow (4) is disclosed, wherein said method comprises the step in which a sampling device comprising a first denuder device (1), a filter device (3), and a second denuder device (2), arranged in axial direction in a series in said order, is provided at a measurement spot, wherein the first denuder device (1) and the second denuder device (2) each is hollow and contains surfaces provided with a hydrophobic and/or a hydrophilic sorbent, or said second denuder device (2) contains a packing of hydrophobic and/or hydrophilic sorbent particles, as well as a sampling device used in said method.

An air sampler that receives an air source through a manifold. The manifold has a restrictor and a vent that opens above a specified pressure. The remaining portion of the air source enters the inlet assembly where it passes through a filter with a removable element then through a one way valve and into an impermeable bag. Excess air in the bag escapes out an outlet one way valve capturing a sample inside the bag. An ambient air sample may delivered via a hand squeeze bulb and a biological sample may be contained inside the bag.

A method includes receiving, from an imaging device associated with a robotic apparatus, an image signal including an object of interest represented in the image signal; receiving, by the robotic apparatus from an external agent, a task indication related to the object of interest, the task indication representative of a task to be performed by the robotic apparatus with respect to the object of interest; and responsive to receipt of the task indication: detecting salient features of the object of interest within the image; storing, by the robotic apparatus, a task context, the task context comprising data pertaining to the salient features and data pertaining to the task indication; and commencing, by the robotic apparatus, the task with respect to the object of interest.

A filter device for filtering nano particles conveyed in a fluid in order to determine an exposure of the filter device to nano particles includes a support element having a top surface, a bottom surface, a lateral surface, and at least one fluid duct having a fluid inlet and a fluid outlet. The top surface and the bottom surface extend substantially parallel to each other. The filter device further includes at least one filter element with a collection surface on which the nano particles are to be deposited. The at least one filter element is arranged in the at least one fluid duct for collecting the nano particles conveyed in the fluid. The collection surface of the at least one filter element is oriented parallel to at least one of the top surface and the bottom surface.

The present disclosure relates to the technical field of safety detection, and in particular to a sample collecting and introducing device and a detection system. The sample collecting and introducing device provided by the present disclosure includes a sampling device for collecting a sample, and a semipermeable membrane device for extracting the sample collected by the sampling device and conveying the extracted sample to detection equipment, wherein the sampling device is provided with an air guide cavity, the air guide cavity is configured to guide airflow carrying the sample to flow to the semipermeable membrane device, the semipermeable membrane device is provided with a semipermeable membrane which is arranged outside the sampling device. In the present disclosure, the size of the semipermeable membrane is no longer limited by the sampling device, and therefore the difficulty of increasing the area of the semipermeable membrane is reduced.

A method of monitoring a semiconductor fabrication facility and a semiconductor fabrication facility are provided. The method includes collecting an ambient air in a clean room through a plurality of gas lines with their gas inlets arranged at a plurality of sampling positions in the clean room. The method also includes measuring a parameter of the ambient air by a plurality of metrology devices which are connected to the gas lines. At least two of the sampling positions are measured simultaneously. The method further includes issuing a warning when the parameter detected by the metrology devices is outside a range of acceptable values.

The sensor includes: a collection part 30L, 30M, 30S in which a plurality of filter members for collecting particulate matter in exhaust gas are arranged in descending order of porosity from an exhaust upstream side to an exhaust downstream side of the exhaust gas; a pair of electrodes 32, 33 which is arranged to each of the plurality of filter members 30L, 30M, 30S and facing each other with the plurality of filter members interposed therebetween; and estimation means 42 to 44 for estimating a particulate matter amount collected on each of the plurality of filter members having different porosities based on a capacitance change amount between the pair of electrodes 32, 33.

An improved device for collecting particulate matter suspended in the ambient air is disclosed comprising a container extending between an open first end and a closed second end defining a container interior. A container output communicates with a container interior located proximate the closed second end of the container. A filter cassette comprising a collection filter is permanently affixed to a filter holder. A retainer having a retainer input retains the filter cassette between the retainer input and the container output. An output connector connects the container output to a low pressure source for drawing ambient air into the retainer input for enabling the collection filter to collect particulate matter suspended in the ambient air entering the retainer input. Preferably, the filter holder and the filter are disposable.

The present disclosure relates to the technical field of safety detection, and in particular to a sample collecting and introducing device and a detection system. The sample collecting and introducing device provided by the present disclosure includes a sampling device for collecting a sample, and a semipermeable membrane device for extracting the sample collected by the sampling device and conveying the extracted sample to detection equipment, wherein the sampling device is provided with an air guide cavity, the air guide cavity is configured to guide airflow carrying the sample to flow to the semipermeable membrane device, the semipermeable membrane device is provided with a semipermeable membrane which is arranged outside the sampling device. In the present disclosure, the size of the semipermeable membrane is no longer limited by the sampling device, and therefore the difficulty of increasing the area of the semipermeable membrane is reduced.