A device for drying organic substances under vacuum and altered temperature conditions, e.g. to extract particulates from the substance without significant damage to the substance. The device can contain a hollow vacuum oven to dry the organic substance. The substance is placed on the shelves in the vacuum chamber and the heaters below the shelves maintain the temperature uniformity to evenly heat the substance on the shelf. A vacuum feedthrough is connected on one side of the shelf for desired flow of the substance and the shelves themselves can be tilted for even drying. The vacuum pump, which can be used in high vacuum mode or gas flow mode then removes the particulates that evaporated from the substance and the condenser collects and condenses the unwanted or wanted particulates.

Systems and methods of grain drying using radio frequency waves while maintaining low temperature are disclosed herein. Specifically, the system and method includes minimizing temperature increases caused by dielectric radio frequency heating while increasing intermolecular hydrogen bond disruption. Further disclosed herein are devices systems and methods for removing moisture from a material via radio frequency electromagnetic wave exposure.

An improved locker seat includes a pair of spaced-apart upstanding sidewalls having a pair of lateral edges. A generally horizontal seat is disposed between the lateral edges of the sidewalls. In a first mode, an air source is connected to an airway formed within the seat to create an airflow. The airflow from the air source creates a first temperature differential to cool the seat. In a second mode, an external or internal heat source provides heat to a top surface of the seat, creating a second temperature differential to heat the seat. The first and second temperature differential are distributed across the top surface of the seat. The seat is hinged to be movable about the hinge between an open and a closed position.

A fully self-contained, portable product dehydrator is provided comprising: an intermodal container housing an equipment module, the equipment module including a refrigeration equipment chamber proximate the front door and an air conditioning chamber behind the refrigeration equipment chamber, the equipment module retained in the interior and moveable from a retracted position to an extended position, wherein when in the extended position, the refrigeration equipment chamber is substantially exposed to an ambient environment, outside the front door; a heat pump dehumidifier including a subcooler, a desuperheater, electronic expansion valve and a compressor, housed in the refrigeration equipment chamber and at least two condensers and evaporator housed in the air conditioning chamber; a drying chamber, the drying chamber defined by the interior and the rear door; a motor control center; and a control panel; in electronic communication with the heat pump dehumidifier and the fans.

Disclosed herein are embodiments of an energy recovery system for a freeze-drying system. In some embodiments, the freeze-drying system includes a freeze dryer chamber having one or more shelves disposed therein; a refrigeration system comprising a refrigerant condenser; a heat exchanger; a first fluid line to thermally couple the refrigerant condenser to the heat exchanger; and a second fluid line to thermally couple the one or more shelves to the heat exchanger.

A system for drying an organic material includes: a drying chamber to hold the organic material under controlled atmospheric conditions; convection equipment to regulate temperature and humidity within the drying chamber; flow control equipment to regulate flow of one or more gases in and out of the drying chamber; sensing equipment to sense the atmospheric conditions of the drying chamber; a processor; and memory communicably connected to the processor. The memory stores instructions that, when executed by the processor, cause the processor to: receive sensed data from the sensing equipment; and control the convection equipment and the flow control equipment based on the sensed data.

A data collector for use in monitoring a lyophilisation process of a product in a test product container in a lyophilisation chamber, said data collector comprising a battery, a measuring device including an electronics unit and a sensor configured for being arranged in said test product container, a first compartment in a first portion, a second compartment in a second portion, a first end surface configured for resting on the support surface, and a second end surface opposite to the first end surface, wherein said first and second portions are arranged side-by-side when seen in a plane defined by the first end surface, and wherein the battery is housed in the first compartment and the electronics unit of the measuring device is housed in the second compartment, such that the battery and the electronics unit are separate from each other.

The dehydrator minimizes energy use by using a dual-inlet heater fan in cooperation with first and second temperature sensors to measure temperature of the recycled air flowing within the enclosure, while both the ambient and recycled air flow through separate first and second inlets into the fan. Depending upon temperature differences, a controller can change fan heat output and air flow rates through the fan. The dehydrator minimizes space by having a collapsible enclosure embodiment that utilizes folding walls secured to pivoting front and back walls to form both a collapsed configuration and also a fully assembled configuration.

The present invention is a portable drier with solar simulator that can be used by small or medium scale farmers, which provides drying of the fruits and vegetables in general in the agriculture sector, in an organic manner through natural methods, which benefits from IR and UV rays during this process, and as a result, creates a difference in the extension of their shelf life, and which, in order to protect human health, minimizes the chemical remnants that cause diseases.

An object of the present invention is to provide a method for drying non-fried instant noodles for obtaining non-fried noodles that are easily loosened without sticking of noodle strings and excellent in restorability. The present invention includes, as a step of drying non-fried instant noodles, a step of putting gelatinized noodle strings into a drying retainer, and blowing a high-speed air flow from above the retainer toward a noodle mass of the noodle strings to perform drying. In the drying step, the retainer employed has a shape such that a transition portion from a bottom surface to a side surface (side wall portion) is formed to be a curved surface with a radius of curvature of 5 to 15 mm, and preferably the high-speed air flow is blown at a wind speed of 50 m/s or higher in terms of the speed to which the noodle strings are exposed.