The present technology relates to systems and methods for reducing leaks in a system for coking coal. For example, some embodiments provide systems and method for treating a cracked or leaking surface in a system for coking coal. In particular, the present technology includes systems having one or more substances configured to reduce an airflow through one or more cracks by creating an at least partially impermeable patch. The present technology further includes methods for treating surfaces having one or more cracks to reduce an airflow through the one or more cracks.

The present invention is directed to a microcapillary holder (1) for holding a microcapillary (5) during positive control physical container closure integrity (pCCI) testing of a packaging (10). The microcapillary holder (1) comprises a body (2) with an elongated portion (2a) having a longitudinal axis (X). The body (2) has a lateral circumference, a duct (3) and a pass-through channel (4). The duct (3) of the body (2) extends along the longitudinal axis (X) through the elongated portion (2a). The duct (3) of the body (2) is dimensioned to receive the microcapillary (5). The pass-through channel (4) of the body (2) extends between the lateral circumference and the duct (3). The present invention is further directed to a respective pCCI testing system (30) and to a process of positive control of a pCCI of a packaging (10).

A method for recognizing the presence of leakages from sealed containers includes defining a detection zone in which a sealed container will be placed, putting the detection zone in communication with at least one gas sensor through at least one duct, introducing a flushing gas into the detection zone through the duct, placing a container in the detection zone; and sucking a gas flow from the detection zone through the duct and transferring it to a first sensor. The gas flow that reaches the first sensor is either transferred to a second sensor or to the first sensor for a second time. The signals generated by the two sensors, or the two signals generated by the same sensor, are processed for determining the presence of a gas leakage in the container.

A method for sensing a leak in a unit under test includes scanning a SKU on a unit under test, sending the SKU information to a compute, connecting the unit under test to a testing apparatus, removing gas from an interior volume of the unit under test, monitoring the vacuum pressure within the interior volume of the unit under test until the vacuum pressure reaches a test pressure, initiating delivery of helium to the exterior of the unit under test through a helium gun by pulling a trigger on the helium gun to dispense helium therefrom, positioning the helium supply gun so that helium is released over a weld of the unit under test, detecting the movement speed of the helium supply gun during the dispensing of helium therefrom, and displaying the helium content internal to the unit under test on a graphical user interface.

Test leak device including a gas-filled container and a capillary extending through a container wall. The gas including at least 10% of atmospheric air.

A static expansion method is performed by expanding a volume of a testing gas from V.sub.0 to V.sub.0+V.sub.1 between a second chamber of the volume V.sub.1 which is connected to an upstream side of a measurement chamber and a first chamber of the volume V.sub.0 which is connected to an upstream side of the second chamber, wherein the first camber is in communication with the second chamber via a first valve, wherein the second chamber is in communication with the measurement chamber via each of a second valve and an orifice or porous plug, respectively. When the first valve is opened and the second valve is closed, the testing gas flows from the first chamber via the second chamber into the measurement chamber only through the orifice or porous plug.

An apparatus and method for detecting certain materials on a surface using the fluorescence principle. The invention is suitable for materials that emit fluorescence when excited by high energy (short wavelength) visible light or ultraviolet light. The apparatus irradiates a surface to be monitored with excitation light. The light that returns from the surface is analyzed. Fluorescence in the returned light signals the presence of the material to be detected. The invention uses light-emitting diodes, lasers, or other light sources to generate the excitation light, light-sensing integrated circuits or imaging sensors for measuring the fluorescence signals from materials on the monitored surface, light sensors for evaluating the excitation light, and operates with on and off cycles of the excitation light to obtain the signal.

This application provides a method for box leak detection and a leak detection system, and relates to the field of leak detection technologies. The method for box leak detection may include: filling a box under test with a tracer gas, where the box under test has a plurality of positions under test; and measuring a leak rate at each position under test. Leak detection may be performed on each position under test of the box under test. In this way, not only a specific leak position can be determined, so that leak-proof treatment may be subsequently performed on the leak position in a targeted manner, but also the leak rate at each position under test can be measured, providing a basis for a level of to-be-taken leak-proof measures and whether to take leak-proof measures, thereby improving accuracy of box leak detection.

A method for determining correct performance of a sampling pipe in an aspirated particle and/or gas sampling system. The method includes causing a change in airflow n a sampling pipe of the aspirated particle and/or gas sampling system that induces a change in at least one airflow property within the sampling pipe, and detecting an effect of the change in said airflow property. Also disclosed is a method for determining correct performance of an aspirated particle gas sampling system. The method includes determining correct performance of a sampling pipe in the aspirated particle and/or gas sampling and determining correct performance of a detector in the aspirated particle and/or gas sampling system, wherein a test fluid is introduced to the aspirated particle and/or gas sampling system at or near the detector.

In a leak detection device (10) comprising a gas detector and a guided sniffer probe (12) connected to the gas detector in a gas-conducting manner, it is provided that the sniffer probe (12) is provided with a receiver (18) configured to receive first data provided on a test specimen (28) or transmitted by a test specimen (28) with first information on properties of the test specimen (28) which are relevant for leak detection with the gas detector.