A passive liquid collecting device has a reservoir with an outlet and one or more rigid structures within the reservoir. The rigid structures are configured to collect a liquid and direct the liquid to the outlet. Porous capillary media are supported by the rigid structures. A thermal control loop is also disclosed.

A thermochemical treatment installation includes a reaction chamber, at least one gas inlet, and a gas preheater chamber situated between the gas inlet and the reaction chamber. The preheater chamber has a plurality of perforated distribution trays held spaced apart one above another. The preheater chamber also includes, between at least the facing distribution trays, a plurality of walls defining flow paths for a gas stream between said trays.

To cool a digestion vessel (2) of a calorimeter (3) by means of a liquid coolant, a recess (4) over which the digestion vessel (2) is invented during the cooling possess and which has one or more ports (10) for a cooling liquid by means of which the inside of the digestion vessel (2) is wetted in such a way that the coolant runs down over part or the entireties of this inside of the digestion vessel (2) so as to remove the heat thereof is provided.

To cool a digestion vessel (2) of a calorimeter (3) by means of a liquid coolant, a recess (4) over which the digestion vessel (2) is invented during the cooling possess and which has one or more ports (10) for a cooling liquid by means of which the inside of the digestion vessel (2) is wetted in such a way that the coolant runs down over part or the entireties of this inside of the digestion vessel (2) so as to remove the heat thereof is provided.

Systems, methods, and computer-implemented embodiments consistent with the inventions herein are directed to storing and/or transferring heat. In one exemplary implementation, there is provided a system for transferring/storing heat comprised of a heat exchange/storage apparatus including a chamber, and a heat input device adapted to heat/provide a vapor into the chamber. Other exemplary implementations may include one or more features consistent with a heat output device through which a working medium/fluid passes, a thermal storage medium located within the chamber, and/or a heat exchange system that delivers a heat exchange medium/fluid to the thermal storage medium.

Examples disclosed herein relate to methods and apparatus for controlling the temperature of large scale structures during manufacturing operations. A structure or surface when measured by Computer Aided Measuring Systems (CAMS) preferably remains a predetermined constant temperature with minimum variance. The manufacturing system includes a first temperature sensor, a second temperature sensor, a plurality of temperature regulation devices, and a processor, all in wireless communication. During performance of a CAMS process on a large scale structure or surface, a recorded temperature value of the structure or surface is communicated. A determination is made based on the recorded temperature value to operate the plurality of temperature regulation devices to control the temperature of targeted areas of the structure or surface. The temperature regulation devices are monitored and controlled such that the structure or surface is stabilized and distortion is prevented during the CAMS process.

A quenching process for quenching a flowing first fluid with a flowing second fluid may involve a first hollow pipe for containing the flowing first fluid and a second hollow pipe for containing the flowing second fluid; dividing the flowing second fluid into a first baffle flow along a first side of a longitudinal baffle and a second baffle flow along a second side of the longitudinal baffle within the second hollow pipe; providing a transverse baffle protruding from the longitudinal baffle for directing the first baffle flow from a first baffle flow outlet and the second baffle flow from a second baffle flow outlet in the second hollow pipe and into the flowing first fluid in the first hollow pipe; and configuring an area of the first baffle flow outlet area to be greater than or equal to an area of the second baffle flow outlet area.

A quenching process for quenching a flowing first fluid with a flowing second fluid may involve a first hollow pipe for containing the flowing first fluid and a second hollow pipe for containing the flowing second fluid; dividing the flowing second fluid into a first baffle flow along a first side of a longitudinal baffle and a second baffle flow along a second side of the longitudinal baffle within the second hollow pipe; providing a transverse baffle protruding from the longitudinal baffle for directing the first baffle flow from a first baffle flow outlet and the second baffle flow from a second baffle flow outlet in the second hollow pipe and into the flowing first fluid in the first hollow pipe; and configuring an area of the first baffle flow outlet area to be greater than or equal to an area of the second baffle flow outlet area.

This invention relates to azeotrope-like compositions, methods and systems having utility in numerous applications, and in particular, uses for azeotrope-like compositions comprising effective amounts of the compound cis-1,1,1,4,4,4-hexafluoro-2-butene (Z-HFO-1336mzzm), which has the following structure: ##STR00001##
and another material selected from the group consisting of water, fluoroketones, alcohols, hydrochlorofluoroolefins, and combinations of two or more thereof. These compositions may be used in a wide variety of applications such as, blowing agents, refrigerants, heating agents, power cycle agents, cleaning agents, aerosol propellants, sterilization agents, lubricants, flavor and fragrance extractants, flammability reducing agents, and flame suppression agents.

A flexible thermoelectric device includes a plurality of modules wherein each module includes a thermoelectric component disposed between a thermally conductive plate and a heat sink. Each thermally conductive plate is in contact with at least one spacer, which is disposed on the same side of the plate as the thermoelectric component and heat sink, such that the spacers together form a clearance between external bodies and the heat sinks. An elastic material is coupled to the plurality of modules, the plurality of spacers, or a combination thereof. The device can conform to and cool a large surface area of a user's body, while reducing strain on fragile components.