The invention relates to an evaporation dryer (1) for drying particles, havinga process chamber (10) with at least one product inlet (11) for supplying the particles to be dried into the process chamber (10) and a product outlet (12) for discharging dried particles from the process chamber (10), a heat exchanger (20) arranged within the process chamber (10), having at least one inlet (21, 211) into the heat exchanger (20) for pressurized steam as process steam and at least one condensate outlet (22, 222) from the heat exchanger (20), whereinthe at least one condensate outlet (22, 222) is connected to an expansion tank (30), wherein at least one pump (40) is connected to the expansion tank (30), and the expanding steam is pumped out of the expansion tank (30) and supplied to the process steam.

A dish dryer/warmer which is powered by steam that is exhausted from a steam kettle. A hollow inserts fits into a spout on the kettle and a hose connects the spout to the dish dryer. The steam is then funneled into the dish dryer. A set of holders inside the dish dryer are mechanically activated based on what, so that if a dish is placed into a holder then steam will be discharged directly into that holder, thereby warming the respective dish. A plurality of such holders can be present inside the dish dryer and each one is selectively activated to discharge steam when an object is placed inside a respective holder. All of the holders in the dish dryer share the same steam source (the kettle or other source).

An apparatus for drying bulk particulate material, and having an inlet chamber for receiving a moist bulk particulate material and an outlet chamber for ejecting a dry bulk particulate material. The inlet chamber comprises a steam permeable bottom being divided into a number of subsections including a first subsection and a second subsection. Each subsection defines a first and a second radial centreline. The first subsection and the second subsection each having at least one louvered plate section comprising a plurality of louvers arranged in a first and a second specific direction, respectively, for directing superheated steam in a first and second blowing direction, towards said lower cylindrical inner wall. The specific direction of the louvers of the first subsection defines a first angle in relation to the first radial centre-line, and specific direction of said louvers of said second subsection defines a second angle in relation to said second radial centreline, and said first angle and/or said second angle, being different from 0 degrees.

Disclosed is a slurry drying plant (1) comprising a slurry inlet (2) for feeding slurry to the slurry drying plant (1) and two or more meshing screw conveyors (3, 4) arranged to at least partly divide the slurry while conveying the slurry in a transport direction from the slurry inlet (2) to a slurry outlet (5). The slurry drying plant (1) further includes slurry heating means (6) comprising means for passing superheated steam substantially at atmospheric pressure past the slurry and the two or more meshing screw conveyors (3, 4), while they are conveying the slurry. Furthermore, a method for drying slurry and use of a slurry drying plant (1) is disclosed.

A shoe care apparatus includes: a chamber configured to accommodate a shoe; a fan configured to supply air to the chamber; a heat pump device comprising a condenser configured to heat the air and a compressor configured to discharge a refrigerant to the condenser; at least one holder in the chamber and comprising a nozzle configured to spray the air; at least one damper on a side of the chamber, the at least one damper corresponding to the at least one holder so as to adjust supply of the sprayed air; at least one detection sensor in the chamber, the at least one detection sensor being configured to detect the shoe accommodated in the chamber; and a controller configured to control the at least one damper based on a detection signal received from the at least one detection sensor.

A method for drying high moisture, low calorific value lignite for a generating set and recovering water contained therein and an apparatus thereof mainly consist of a rotary steam tube dryer, a washing cooling tower, a coal mill, a first bag filter, a condenser, a weighing surge bunker, a water ring vacuum pump and so on. A drying system is integrated with a milling system, every dryer and the corresponding coal mill are disposed and are directly connected via a surge bunker, thereby not only saving the heat lost during the transportation of pulverized coal, but also omitting a long-distance transportation from a conventional drying system to a conventional milling system, effectively avoiding such phenomena as dust pollution, waste and spontaneous combustion during transportation and transshipment, simplifying the coal preparation system employed in the front-end process of drying.

The invention discloses method and system of drying renewable sources of energy and raw material. The drying process is carried out under partial vacuum conditions and at lower temperatures than conventional dryers. The temperature to dry the material and the rate of water removal are controlled by regulating the degree of vacuum and the intensity of heat input. A method for drying material to moisture content below 10% by weight, comprises introducing into an ejector a stream with a pressure above ambient pressure, creating partial vacuum in a drying chamber through the secondary nozzle of the ejector when the stream enters the ejector and provides the motive pressure to the primary nozzle of the ejector, said drying chamber having an inlet into which a wet material is introduced and an outlet for taking out the dried material after the drying treatment, drying the wet material using low temperature waste heat.

A dish dryer/warmer which is powered by steam that is exhausted from a steam kettle. A hollow inserts fits into a spout on the kettle and a hose connects the spout to the dish dryer. The steam is then funneled into the dish dryer. A set of holders inside the dish dryer are mechanically activated based on what, so that if a dish is placed into a holder then steam will be discharged directly into that holder, thereby warming the respective dish. A plurality of such holders can be present inside the dish dryer and each one is selectively activated to discharge steam when an object is placed inside a respective holder. All of the holders in the dish dryer share the same steam source (the kettle or other source).

A washing machine with a dryer is disclosed. The washing machine includes a cabinet wherein a laundry inlet is provided on a front surface thereof, a tub arranged inside the cabinet, and including a front opening and a rear opening connected with the laundry inlet, a drum configured to rotate inside the tub, a heat pump including an evaporator, a compressor, a condenser, and an expansion valve so as to heat air provided to an inside of the drum, a steam generator configured to spray water to the condenser and generate steam by heat generated from the condenser, and a blast fan arranged on a steam supply flow channel continued from the condenser to the drum, and configured to transfer the steam generated at the steam generator to the inside of the drum.

A drying apparatus of porous material includes a reduced-pressure fermentation dryer configured to: store porous material containing water in an airtight container; heat and stir the porous material under reduced pressure so that a temperature of the porous material is within a predetermined temperature range; feed microorganisms into the airtight container so that the microorganisms enter pores of the porous material; and evaporate the water contained in the porous material by fermentation heat by the microorganisms so as to dry the porous material.