A solar distillation system for producing a distillate and providing cooling for a structure or appliance, and a method of using the system to produce a distillate and cool a structure or appliance. The system includes a distillate cooling coil, a secondary cooling coil, an expansion valve which is capable of controlling an amount of a coolant that flows through each of the coils. The system also includes a compressor, a plurality of sensors including a temperature sensor and a distillate flow sensor, and a controller which receives input from the sensors and controls the activity of the compressor and expansion valve. The system is capable of producing distillate at night in the absence of solar radiation.

Methods and systems for converting ammonium waste streams into certifiably Organic ammonium salts having a variety of uses in greenhouse gas-reducing activities are herein described. The resulting ammonium salt compositions can be used to enhance crop yield.

An air-cooled condensing heat exchanger system (“ACHX”) installed in a fossil power plant flue gas treatment system recovers water and low temperature waste heat from boiler flue gas for advanced coal fired power plant applications. More particularly, the ACHX system recovers water from combustion flue gas by phase change. To recover water from flue gas, the ACHX system uses ambient air from an air intake installed on the stack to cool down the flue gas in the ACHX.

Process for the co-production of methanol and ammonia from a hydrocarbon feed without venting to the atmosphere carbon dioxide captured from the methanol or ammonia synthesis gas and without using expensive air separation units and water gas shift.

A system and method removes thermal decomposition components from biphenyl and/or diphenyl oxide-based heat transfer fluids. Light, volatile decomposition components including benzene, water, hydrogen and phenol leave the system for vapor recovery, chemical adsorption or thermal decomposition. Dimerized and polymerized heavy components such as biphenyl phenyl ether, terphenyl and related isomers are concentrated and recovered. The system can be a continuous, semi-continuous or batch operation. Solar electric plants employing the system can use solar field fluids and heating to operate the system during generator operation hours. A wash system operating at or near atmospheric pressure concentrates heavy thermal decomposition components while allowing removal of light, volatile decomposition components for separation from the majority of the thermal fluid components. Temperature-controlled condensation of the majority of the thermal fluid components allows collection of the thermal fluid, while allowing light, volatile decomposition components to be removed prior to vent processing.

The present disclosure is related to systems and methods for the biological processing of hydrocarbon-containing substances. In particular embodiments, the systems and methods herein relate to pre-digestion of hydrocarbon containing substances and further processing of the same to produce hydrocarbon fuels, fertilizer, and other products.

An atmospheric water generation system comprises water vapor consolidation systems configured to increase the relative humidity of a controlled air stream prior to condensing water from the controlled air stream. The water vapor consolidation system comprises a fluid-desiccant flow system configured to decrease the temperature of the desiccant to encourage water vapor to be absorbed by the desiccant from an atmospheric air flow. The desiccant flow is then heated to encourage water vapor evaporation from the desiccant flow into a controlled air stream that circulates within the system. The humidity of the controlled air stream is thereby increased above the relative humidity of the atmospheric air to facilitate condensation of the water vapor into usable liquid water.

The present invention provides a containment vessel for cannabis and other plant materials where the microwave radiation pattern of an applicator is contained within the vessel allowing the efficient heating and removal of organic compounds. The radiation pattern is designed to induce a migrating phase boundary that heats the plant material while the containment vessel allows the collection of liquid and vapor phase organic compounds.

An atmospheric water generator utilizing centrifugal hydraulic air compressor is for harvesting water from the atmosphere. The purpose of atmospheric water generator utilizing centrifugal hydraulic air compressor is to provide potable water. The atmospheric generator utilizing centrifugal hydraulic air compressor includes a housing having a reservoir, a plurality of centrifugal discs, drive components, water pump, heat exchangers, and air filters. The housing reservoir further includes an indication device to determine the water level in device. The centrifugal discs can utilize centripetal forces to hydraulically compress the air, with water, to harvest the water from the atmosphere. The drive components further comprise a hollow shaft to direct the water to the centrifugal discs. In addition, the shape of the centrifugal disc utilizes the compressed air and water exiting the discs to help rotate the discs.

A system and method for producing Germanium-68 (Ge-68) isotopes is provided. The method includes irradiating a plated or encapsulated target containing Gallium, dissolving the irradiated target with an acid, and purifying the dissolved target by distillation to produce purified Ge-68. A dissolution cell assembly is provided for use in the dissolution step of the method.