A CO.sub.2 extraction process for cannabis sativa that uses liquid CO.sub.2 in combination with co-solvent admixtures to purify cannabis botanicals in high yield and purity. The extraction process allows for multiple extractions, or washes, to be performed with the same solvent CO.sub.2, which may be seamlessly recycled and purified between subsequent extraction cycles. A variety of in-line filtration vessels, pumps, vacuums, and controllable valves are used to yield a pure product while allowing a high level of user control over the process.

A machine for vacuum treatment of food products, which includes a base structure which defines a vacuum chamber which can be connected to a vacuum pump. At least one filtration device is interposed between the vacuum chamber and the vacuum pump and has elements for varying at least one thermodynamic/fluid dynamics parameter of the air flow aspirated by the vacuum pump; the filtration device includes at least one conveyor of the air flow, which is provided with elements for varying the advancement direction of the air flow and which is, with at least one part thereof, in a heat exchange relationship with a cooling circuit, and at least one collection manifold for collecting the water and the particles separated from the air flow.

Systems for atmospheric water generation are disclosed. An illustrative system may comprise an atmospheric water generator, and a wireless communications device communicatively coupled to the atmospheric water generator. The wireless communications device may be configured to receive and display status information associated with the atmospheric water generator, and to provide operating instructions to the atmospheric water generator. The wireless communications device may be further configured to display an outside temperature, an outdoor humidity, a water level, an indoor temperature, an indoor humidity, and a dew point. The wireless communications device may be further configured to receive control instructions, and wherein the wireless communications device is further configured to communicate the control instructions to the atmospheric water generator.

This disclosure provides a water purification system for recovery of purified water from liquid wastewater. The liquid wastewater is converted to a contaminated gas stream using a water distillation technique. The contaminated gas stream is passed through a gas phase photolytic oxidation reaction chamber. An ultraviolet (UV) source in the gas phase photolytic oxidation reaction chamber exposes the contaminated gas stream to UV radiation to remove various contaminants in the gas phase and/or biological pathogens. The gas phase photolytic oxidation reaction chamber forms a purified gas stream from the contaminated gas stream, where the purified gas stream contains water vapor and is substantially free of contaminants. In some embodiments, an ionomer membrane may be placed downstream of a source of the liquid wastewater and upstream of the gas phase photolytic oxidation reaction chamber to treat the contaminated gas stream prior to UV exposure.

Provided is a fresh water producing system that includes a renewable energy power system, an automated control module, an atmospheric condenser system, a conveyor, an aquatic suction device, a water reservoir; and a water purification filtration system. Also provided is a computer implemented method for turning ambient air into liquid that includes generating electricity with a renewable energy power system, executing a set of instructions with an automated control module, processing ambient air with an atmospheric condenser system, filtering the processed ambient air through a conveyor, distilling the processed ambient air through a water purification filtration system, transporting the processed ambient air through an aquatic suction device, and disposing the processed ambient air into a water reservoir.

A bag assembly for use with a heat exchanger includes a flexible bag having of one or more sheets of polymeric material, the bag having a first end that bounds a first compartment and an opposing second end that bounds a second compartment, a support structure being disposed between the first compartment and the second compartment so that the first compartment is separated and isolated from the second compartment. A first inlet port, a first outlet port, and a first drain port are coupled with the flexible bag so as to communicate with the first compartment. A second inlet port, a second outlet port, and a second drain port are coupled with the flexible bag so as to communicate with the second compartment.

A method of and system for recovering a dielectric fluid used for immersion cooling of electronic devices, the method including filtering the dielectric fluid to remove a first group of solid contaminants; distilling the filtered dielectric fluid in one or more distillation tanks to produce a vaporized dielectric fluid; separating the vaporized dielectric fluid from less volatile contaminants, such that the vaporized dielectric fluid is introduced as a condensate into a circulation tank; circulating the condensate by pumping the condensate from the circulation tank through one or more filters; filtering the circulating condensate through the filter(s) to remove a second group of contaminants; and returning the filtered condensate to the circulation tank.

In an example, a condenser apparatus to condense vapored fluid has a gas inlet, a mesh, a cooling element, and a gas outlet. The mesh is configured to carry a layer of condensed fluid. The cooling element is configured to cool the layer of condensed fluid. The mesh is configured to let pass through vapored fluid and to create bubbles including vapored fluid in the layer of condensed fluid.

Disclosed is a process for treating a stale gas, involving the following steps: circulation of the stale gas in a gas/liquid contactor, called a contactor, and then circulation of the stale gas in a filter unit, called a filter unit, the process involving, in the contactor, placing a circulating liquid in contact with the stale gas, the circulating liquid having a temperature of between 2 and 15 C., preferably between 5 and 10 C., and also to a treatment unit for performing the process including a gas/liquid contactor and a filter unit.

Modular system of drying humid material, comprising a drier housing having a material inlet and outlet, a drying gas inlet and outlet, a particle separator downstream of drier housing. Drier housing comprises drying chambers. The system further comprises an air fan, and a heater. A gas duct connecting drying gas inlet and drying gas outlet defines a closed loop. A condenser is arranged in gas duct. Drying chambers comprises a rotary impeller means, and drying gas inlets. A dried-hot product cooler comprising a housing having a dried-hot product inlet, a cooled dried product outlet, a cool air supply means, and a fan arranged to draw cooled air through dried hot product in cooler.