The present invention provides a method for removing an organic solvent from starch hemostatic microspheres, comprising the following steps: 1. taking to-be-dried starch hemostatic microspheres and laying them flatly on drying trays with attention to laying them as uniformly and thinly as possible; 2. taking an adsorbent and subpackaging it into dialyzing paper bags for sealing; and 3. placing the trays and the dialyzing paper bags completed in the previous two steps on separators of a low-temperature vacuum oven in layers, setting the oven temperature at 0-20° C., then vacuumizing and keeping pressure for 15-48 hours. The method provided by the present invention can reduce organic solvent residue in the starch hemostatic microspheres to less than 0.05%, which meets the requirements of relevant standards for medical devices, thereby improving safety of products.

The present disclosure provides for a portable drying mechanism. The mechanism may comprise a grip, shaft, neck, drying panels, and a tip. The shaft may comprise a button to modify the configuration of the portable drying mechanism. The button may release interchangeable components of the portable drying mechanism. The button may allow the shaft to extend. The button may activate an electrical or manual drying response such as, but not limited to, a water vacuum or rotating drying material. The shaft may comprise a hollow cavity for material retention. The shaft may comprise a telescoping aspect that allows for extension and retraction. The neck may comprise a flexible portion to dry containers with complex shapes. The tip may comprise a sensor to verify dryness within a container. The drying panels may comprise a predetermined shape and material that allow the drying panels to dry containers and hard-to-reach areas.

A method of sequestering carbon captured from the atmosphere by plants (biomass) waste material includes segregating incoming waste material that includes biomass into high-moisture incoming waste material and low-moisture incoming waste material. The low-moisture incoming waste material is that which has a moisture content less than or equal to the moisture content threshold, for example, paper, cardboard, and sawdust. The low-moisture incoming waste material is stored in a dry containment area, thereby emissions of carbon dioxide or methane from the low-moisture incoming waste material is reduced as moisture is required by such material to decompose.

A method of sequestering carbon captured from the atmosphere by plants (biomass) waste material includes segregating incoming waste material that includes biomass into high-moisture incoming waste material and low-moisture incoming waste material. The low-moisture incoming waste material is that which has a moisture content less than or equal to the moisture content threshold, for example, paper, cardboard, and sawdust. The low-moisture incoming waste material is stored in a dry containment area, thereby emissions of carbon dioxide or methane from the low-moisture incoming waste material is reduced as moisture is required by such material to decompose.

A drying apparatus can include, in some aspects, an ultrasonic transducer and an infrared heater positioned proximate to the ultrasonic transducer and configured to emit infrared light. The drying apparatus can include a plurality of ultrasonic transducers. The drying apparatus can include a delivery enclosure defining a bottom wall, the bottom wall defining a plurality of air outlets; the ultrasonic transducer mounted to the delivery enclosure; and the drying apparatus can include an air mover mounted to the delivery enclosure.

A drying apparatus can include, in some aspects, an ultrasonic transducer and an infrared heater positioned proximate to the ultrasonic transducer and configured to emit infrared light. The drying apparatus can include a plurality of ultrasonic transducers. The drying apparatus can include a delivery enclosure defining a bottom wall, the bottom wall defining a plurality of air outlets; the ultrasonic transducer mounted to the delivery enclosure; and the drying apparatus can include an air mover mounted to the delivery enclosure.

A drying apparatus is disclosed. The drying apparatus comprises: a drum; a compressor for compressing a refrigerant; a first temperature sensor provided at an air discharge port of the drum; a second temperature sensor provided at a refrigerant discharge port of the compressor; and a processor which, when a drying cycle for an object to be dried begins, compares a first temperature sensed by the first temperature sensor with a predetermined threshold temperature so as to obtain an operation frequency of the compressor, and when a second temperature sensed by the second temperature sensor reaches a predetermined first target temperature, adjusts the operation frequency of the compressor on the basis of a third temperature calculated on the basis of the first temperature and the second temperature.

A method of drying sticks, a related apparatus, resultant product and its uses where the method involves presenting a plurality of sticks in parallel as a single layer, pressing each stick with a bank of pressing members on and/or into at least one face of the sticks, each with plurality of protuberances, thereby to constrain the sticks against crook, and drying the sticks when so constrained. Preferably each bank of pressing members is an underside of a frame or lattice of a stack of such frames or lattices able to receive such a single layer of sticks between adjacent overlying/underlying frames or lattices, the protuberances preferably being only downwardly directed.

A method of drying sticks, a related apparatus, resultant product and its uses where the method involves presenting a plurality of sticks in parallel as a single layer, pressing each stick with a bank of pressing members on and/or into at least one face of the sticks, each with plurality of protuberances, thereby to constrain the sticks against crook, and drying the sticks when so constrained. Preferably each bank of pressing members is an underside of a frame or lattice of a stack of such frames or lattices able to receive such a single layer of sticks between adjacent overlying/underlying frames or lattices, the protuberances preferably being only downwardly directed.

A laundry treating apparatus is disclosed. The laundry treating apparatus includes a cabinet configured to define a receiving space for receiving laundry, the cabinet having an open surface, a door hingedly provided at the cabinet for opening and closing the open surface of the cabinet, a laundry support unit provided in the receiving space for supporting laundry, and a machinery compartment provided in the cabinet for defining a space that is separate from the receiving space, the machinery compartment being provided therein with an air supply unit for dehumidifying or heating air in the receiving space and supplying the dehumidified or heated air into the receiving space. The air supply unit dehumidifies air in a room that communicates with the receiving space in the state in which the door is open.