An apparatus for drying materials is disclosed. The apparatus has a chamber which is heated to a temperature sufficient to vaporize the water in the material into steam. The dryer is configured to utilize the steam produced from the material to condition the material. The dryer has two exhaust stacks positioned at opposing ends of the dryer. The removal of exhaust steam at the two opposing ends of the dryer facilitates the migration of moisture within the chamber along a length of the dryer between the two ends. The exhaust stacks can be controlled and adjusted based on feedback from a plurality of pressure differential transmitters installed within the chamber. Methods for drying materials are also disclosed.

An apparatus and method for lyophilization, the apparatus includes a block made from a conductive material. The block has multiple wells dimensioned to receive containers wherein the depth of the wells is proportional to the length of the containers. A silicone pad covers the well and can secure the containers in the well. A metal plate can secure the silicone pad by fastening it to the block. The silicone plate and the metal plate can have vents to allow vapors from the containers to escape. The apparatus can be turned up to 90 degrees resulting in the turning of the containers from an upright position to a horizontal position. The container can be a syringe.

Disclosed is a continuous centrifugal dewatering device including an external case having an internal space, a feed supply pipe to which a slurry as a mixture of a solid and a liquid is supplied, a basket provided inside the external case, a plurality of holes formed in the basket, a pusher plate provided inside the basket and configured to discharge a slurry cake attached to an inner circumferential surface of the basket to the outside of the external case, a non-contact seal configured to prevent the first gas from flowing into a space between the external case and the basket, and a gas inlet to which a second gas, which flows in a reverse direction with respect to a flow direction of the first gas flowing to the space between the external case and the basket, is supplied.

A through-air apparatus for drying or bonding paper, tissue, or nonwoven webs is provided. The apparatus includes a web-carrying structure configured to move and a first component having at least one sealing element adjacent the web-carrying structure, where the sealing element is configured to reduce the infiltration of ambient air into the through-air apparatus. The apparatus also includes at least one channel configured to direct air to the sealing element to reduce the infiltration of ambient air into the through-air apparatus. A method of operating a through-air apparatus for drying or bonding paper, tissue, or nonwoven webs is also provided. The method includes directing air to a sealing element to reduce the infiltration of ambient air into the through-air apparatus.

A method for drying materials is disclosed. The method comprises introducing a material into a dryer chamber, creating steam from vaporizing moisture in the material by maintaining the chamber at a temperature, conditioning the material using the steam created from vaporing moisture in the material by conveying the material along a length of the chamber from an inlet end to an outlet end, exhausting steam near the inlet end of the chamber, exhausting steam near a dry-end exit end of the chamber, controlling a migration of moisture between the inlet and outlet ends by adjusting an exhaust flow rate near the inlet end of the chamber and/or an exhaust flow rate near the dry-end exit end of the chamber, and withdrawing the material from the chamber.

In order to provide a separating device for separating two spatial regions, which has a simple structure and provides for efficient fluid separation, it is proposed that the separating device comprises a supply device for supplying a separating fluid to be introduced between the two spatial regions, the supply device preferably comprising at least two guide elements for guiding the separating fluid, which guide elements are designed in particular as guide plates

A method for manufacturing a fabric with an intelligently-designed digitally-printed pattern with energy saving effect is disclosed. The method includes S1 knitting: combining cotton yarn, bamboo fiber yarn, and mulberry silk yarn to form a double strand yarn, and knitting the double strand yarn into a silk-cotton plain knitted single-sided fabric; S2 singeing: subjecting the fabric obtained in step S1 to a double-sided singeing; S3 mercerizing: mercerizing the fabric obtained in step S2 by utilizing a knitting mercerizing machine; S4 boiling: subjecting the mercerized fabric obtained in step S3 to a neutralizing processing, a bleaching processing, a deoxidating processing, and a whitening processing in sequence; S5 setting a base color: setting the base color of the fabric obtained in step S4; S6 printing: subjecting the fabric obtained in step S5 to a sizing and setting treatment, a pattern design treatment, a digital printing, a steaming treatment, and a water washing treatment; S7 soft setting: subjecting the fabric obtained in step S6 to a soft setting by utilizing a setting machine; S8 decating treatment: subjecting the fabric obtained in step S7 to a decating treatment; and S9 pre-shrinking treatment: pre-shrinking the fabric obtained in S8 by utilizing a pre-shrinking machine.

An air curtain generating device includes: a plurality of pairs of an air jet unit and an air suction unit placed opposite each other on both sides in a lateral direction of an inlet/outlet of a drying chamber, the plurality of the pairs being aligned up and down, the air suction units sucking air ejected from the air jet units to generate an air curtain; a first air guide provided to the air jet units in an upper part of the inlet/outlet to guide air ejected from the air jet units in a direction inclined inward of the drying chamber relative to the lateral direction of the inlet/outlet; and a second air guide provided to the air jet units in a lower part of the inlet/outlet to guide air ejected from the air jet units in a direction inclined outward of the drying chamber relative to the lateral direction.

In order to provide a treatment installation for treating workpieces that is of simple construction and enables optimised workpiece treatment, it is proposed that the treatment installation should include a treatment chamber and a conveying device, by means of which the workpieces are suppliable to the treatment chamber, are removable from the treatment chamber, and/or are conveyable through the treatment chamber in a conveying direction.

An energy-saving portable dryer for digestive endoscope is disclosed, including a box and a top cover. The box is a hollow shell structure, and the top cover covers the upper port of the box to form a sealed environment. The upper end of the top cover is provided with a controller to control the operation of the device. The box is internally provided with heating tubes. The box is provided with a water inlet and drainage mechanism. The bottom end of the box is provided with a liquid heater to heat the disinfection solution in the box to generate hot vapor. The top cover and the box are installed and disassembled through a fixed mechanism. The energy-saving portable dryer for digestive endoscope has the characteristics of energy saving and high efficiency. And its effect of disinfection and sterilization is better, which increases the practicability.