A system to control the conditions of an aging room, also known as a conditioned space, for products in which independent feedback loops control the dry bulb temperature and the dew point while controlling the difference between the vapor pressure in the room and the vapor pressure of the products being dried, thereby controlling the amount of and rate of water or water vapor loss of the products and, therefore controlling its quality, the system also including target controls, a thermoelectric cooler and lighting controls.

A system to control the conditions of an aging room, also known as a conditioned space, for products in which independent feedback loops control the dry bulb temperature and the dew point while controlling the difference between the vapor pressure in the room and the vapor pressure of the products being dried, thereby controlling the amount of and rate of water or water vapor loss of the products and, therefore controlling its quality, the system also including target controls, a thermoelectric cooler and lighting controls.

Drying device for drying hygroscopic material, for example wood, has a drying chamber for accommodating material to be dried, and air conditioning for setting a drying climate in drying chamber during drying process. Air conditioning sets drying climate, at least in part, as a function of moisture of material to be dried. There are bar-like support devices for storing material to be dried in drying chamber during drying process. At least one bar-like support device has scale for measuring weight of material to be dried that is stored on support device. Scale is in signal transmission connection with a control apparatus designed and programmed so that moisture of material to be dried is determined from weight measured by scale. Control apparatus is designed and programmed for controlling air conditioning so drying climate is set as a function of moisture of material to be dried, and determined in each case.

Disclosed are a transformer system and a control method of an air-drying device thereof. The air-drying device has a desiccant material stored therein and is connected to a transformer for removing water from an airflow entering the transformer. The control method includes the following steps. The first step is detecting a weight of the desiccant material. The next step is determining whether the weight of the desiccant material reaches a first predetermined weight. The next step is determining whether the transformer is in an air inflow state or an air outflow state, and is conducted when the weight of the desiccant material reaches a first predetermined weight. The last step is heating the desiccant material, and is conducted when the transformer is the air outflow state. Therefore, the lifetime of the transformer can be remarkably extended.

A microwave vacuum low-temperature drying machine includes a frame and a conveyor. One side of the interior of the frame is provided with a drying chamber, and the other side of the interior of the frame is provided with an equipment chamber. An inner wall of the drying chamber is provided with a drying system. The drying system includes a first drying assembly located at upper parts of inner walls at two sides of the drying chamber, second drying assemblies respectively located at middle and lower parts of the inner walls at the two sides of the drying chamber, and a third drying assembly located between the second drying assembly at the middle parts and the second drying assembly at the lower parts. The machine can handle a large and high stacked material, and achieve uniform inside and outside drying of the stacked material, with high drying efficiency.

A method that controls the conditions of a grow room in which independent feedback loops control the dry bulb temperature and the dew point to control the vapor pressure deficit in the grow room in order to slow down or prevent condensation that may promote the growth of mold, mildew, or microbes on the plants, or to slow down or prevent condensation that may promote pest infestation on the plant.

Systems for drying granular materials, such as resin granulates, powdered materials, and agricultural grains, can include a storage vessel for holding the granular material; a drying hopper having a body defining an interior volume configured to receive the granular material; a diffuser configured to direct process air into the interior volume; a vacuum source for transferring the granular material from the storage vessel and to the drying hopper; and a moisture sensor for determining a moisture content of the granular material at a location upstream of the drying hopper. At least one of the residence time of the granular material within the drying hopper, and the temperature, humidity, and flow rate of the process air are regulated based on the moisture content of the granular material measured upstream of the drying hopper at, for example, the storage vessel.

The present invention relates to a system (1) and method (100) for drying a residual product (12) from a foodstuff production process, the residual product containing between 20-50% dry substance. The method comprises the steps of producing a main foodstuff product (4) in the foodstuff production process (2); receiving the residual product continuously from the foodstuff production process; supplying the residual product to a mixer (30); supplying the mixed product (31) to a fluidized bed (40); supplying heated air (57) of between 60-150 degrees C. to the fluidized bed; drying the mixed product in the fluidized bed using the supplied heated air by shaking the mixed product; cooling the dried product; and extracting the dried product (42) from the fluidized bed, wherein a portion (62) of the dried product is supplied to the mixer to be mixed with received residual product (12).

An apparatus and method for quickly drying porous materials. A sealable chamber is connected to a cold trap which is connected to a vacuum pump. A sample is placed inside the sealable chamber. The vacuum pump is turned on and air is evacuated through the cold trap to the vacuum pump. An infrared lamp may be used to heat the chamber and sample therein directly or heated air may be allowed to enter the sealable chamber. Air may be drawn directly from the sealable chamber to the vacuum pump bypassing the cold trap. Various parameters may be used to determine if the drying process is complete, including the degree of vacuum achieved in the chamber.

An apparatus and method for quickly drying porous materials. A sealable chamber is connected to a cold trap which is connected to a vacuum pump. A sample is placed inside the sealable chamber. The vacuum pump is turned on and air is evacuated through the cold trap to the vacuum pump. An infrared lamp may be used to heat the chamber and sample therein directly or heated air may be allowed to enter the sealable chamber. Air may be drawn directly from the sealable chamber to the vacuum pump bypassing the cold trap. Various parameters may be used to determine if the drying process is complete, including the degree of vacuum achieved in the chamber.