The present disclosure provides a smart clothes drying device and a smart clothes drying method. The smart clothes drying device includes a light intensity sensor, an integrated controller, an umbrella and at least one clothes hanger. The light intensity sensor is to sense light intensity and output a light intensity signal. The integrated controller is to receive the light intensity signal and control opening or closing of the umbrella according to a comparison result of comparing the light intensity signal with a closing light intensity threshold or an opening light intensity threshold in such a manner that the integrated controller controls opening the umbrella when the light intensity signal is greater than the opening light intensity threshold, and the integrated controller controls closing the umbrella when the light intensity signal is less than the closing light intensity threshold.

The invention relates to a freeze drying installation (8), including a device (9) for moving containers (10) such as vials or the like along a surface supporting the containers to load and/or unload the containers into a freeze dryer processing chamber (200), wherein the device comprises two articulated arms, wherein each articulated arm comprises a first rigid upper arm and a first rigid lower arm connected to each other by a first rotary joint, wherein the ends of the two articulated arms are connected to a rigid transfer bar by articulated joints, which are spaced apart from each other when seen along an extension axis of the transfer bar, and wherein the two articulated arms are driven by at least one driving unit in a synchronised manner such that the transfer bar is movable along a loading and/or unloading axis to load or unload containers into or from the freeze dryer processing chamber.

A lyophilizer includes a shelf and a container, at least one of the shelf and the container including a material having an emissivity greater than or equal to about 0.6 to less than or equal to about 1.0. A shelf plate includes a plate body and a material layer disposed on or defining one or more surfaces of the plate body, the material layer having an emissivity greater than or equal to about 0.6 to less than or equal to about 1.0.

A workpiece carrier includes a base frame, a fixture base, a plurality of locators, and a drive source. The fixture base is secured to the base frame. Each of the plurality of locators is secured at a first end to the fixture base and at a second end to a workpiece. The drive source is in communication with the fixture base for rotationally driving the fixture base with respect to the base frame.

A device for drying hair extensions includes an elongated main body having a hinged door and an interior space. A blower unit having a fan and a heat element are positioned along the top end of the main body and function to deposit forced air into the interior space. A hanger unit is positioned within the interior space and aligns hair extensions beneath the forced air to dry the same.

A continuous process for converting waste plastic into recycle for polypropylene polymerization is provided. The process integrates refinery operations to provide an effective and efficient recycle process. The process comprises selecting waste plastics containing polyethylene and polypropylene and then passing the waste plastics through a pyrolysis reactor to thermally crack at least a portion of the polyolefin waste and produce a pyrolyzed effluent. The pyrolyzed effluent is separated into offgas, a naphtha/diesel fraction, a heavy fraction, and char. The naphtha/diesel fraction is passed to a refinery FCC unit, from which is recovered a liquid petroleum gas C.sub.3 olefin/paraffin mixture. The C.sub.3 paraffins and C.sub.3 olefins are separated into different fractions with a propane/propylene splitter. The C.sub.3 olefin fraction is passed to a propylene polymerization reactor. The C.sub.3 paraffin fraction is optionally passed to a dehydrogenation unit to produce additional propylene and then the resulting C.sub.3 olefin is passed to a propylene polymerization reactor. The heavy fraction of pyrolyzed oil is passed to an isomerization dewaxing unit to produce a lubricating base oil.

A cover plate for use in lyophilization processes is provided. The cover plate includes a base portion and a plurality of protuberances which project from the base portion. The protuberances are adapted to fit in one or more delivery containers, such as syringe barrels. The cover plate permits the escape of vapor from the one or more delivery containers during a lyophilization process. In addition, the cover plate prevents the escape of lyophilizate from the one or more delivery containers during a lyophilization process. Vent features provided to provide enhanced and preferred venting operations during lyophilization processes.

A device for drying work pieces, in particular vehicle wheels, having a dryer housing which borders a dryer chamber and has at least one access to the dryer chamber. Work piece carriers loaded with work pieces can be conveyed through the dryer chamber by a conveyance system. There is a transfer device which transfers work pieces to be dried to a work piece carrier located in the dryer chamber, and removes dried work pieces by a work piece carrier located in the dryer chamber. The work piece carriers can be conveyed in circulation through the dryer chamber without leaving same. A method for drying work pieces, wherein the work piece carriers are correspondingly conveyed through the dryer chamber without leaving same, wherein work pieces to be dried are transferred to a work piece carrier located in the dryer chamber and dried work pieces are removed by a work piece carrier located in the dryer chamber.

A system (2) for extruding and drying an extruded honeycomb body (14) which has channels (18) that extend in a longitudinal direction (L) and which channels (18) are each bounded by first channel walls (20a) that extend in a first direction (A) which is transverse relative to the longitudinal direction (L), and by second channel walls (20b) that extend in a second direction (B) in which is also transverse relative to the longitudinal direction (L) comprises: (i) an extruder (16) having an extrusion head (17) for producing the honeycomb body (14) by extrusion; (ii) a microwave oven (4) comprising an arrangement of a plurality of microwave radiators (6), each microwave radiator being for irradiating the honeycomb body with a directional microwave beam in an irradiation direction (S); and (iii) a feed unit (12) adjoining the extruder (16) for transferring the honeycomb body from the extruder (16) into the microwave oven (4), wherein either: (a) the extrusion head (17) of the extruder is oriented in such a way that during operation of the system the orientation position of the extruded honeycomb body (14) resulting from the extrusion when transferred into the microwave oven (4) is such that the irradiation direction (S) of each microwave radiator (6) is oriented at a predefined irradiation angle (a) which is not zero relative to each of the two transverse directions (A, B) of the first and second channel walls (20a, 20b); GBor (b) the system (2) is designed to sense the orientation of the first and/or second channel walls (20a, 20b) of the honeycomb body produced by the extruder and to move the honeycomb body and/or a microwave radiator (6) into a set point orientation such that the irradiation direction (S) of each microwave radiator (6) is oriented at a predefined irradiation angle (a) which is not zero relative to each of the two transverse directions (A, B) of the first and second channel walls (20a, 20b).

The invention relates to a drying device for drying container units, in particular cans, exhibiting solvent, comprising a drying chamber with an inlet side and an outlet side, in which a process fluid is able to be applied to the container units, a conveying unit which is arranged and configured to move the container units through the drying chamber from the inlet side to the outlet side, a fluid-flow device which is arranged and configured to provide the process fluid and to apply a fluid flow of the process fluid to the container units within the drying chamber, and a control device which is designed to control the fluid-flow device on the basis of a determined solvent input.