A gas-water separation system may be used for removing water from a wet gas compressed in a water-injected contact-cooled gas compressor. The gas-water separation system may include a tank constructed to hold a quantity of water; a heat exchanger coupled to the tank and constructed to extract heat from the water to chill the water when the water is present within the tank; an inlet port constructed to inject a flow of the wet gas into the chilled water when the water is present within the tank, the chilled water being operative to condense water vapor from the wet gas and reduce the dew point of the wet gas to yield a chilled compressed gas; a biological control system constructed to suppress biological activity in the tank; and a discharge port operative to discharge the chilled compressed gas.

The present invention removes, by a preprocessing unit, harmful chemical materials and radioactive materials supplied to a positive pressure chamber and a negative pressure chamber and supplies same, removes contaminants discharged to the outside from the negative pressure chamber and sterilizes bacteria and floating viruses and discharges same, and adjusts, by a control circuit of a control panel, the rotating speed (RPM) of an air supply/discharge fan and adjusts the opening rate of an electric damper according to data that is measured in a pressure sensor provided in a space in which the positive pressure and the negative pressure are to be maintained and is transmitted in real time.

A device for dehumidifying a column of air has a frame has an outer frame; the outer frame having an outer wall. An inner frame having an inner frame wall is disposed on the frame, spaced from the outer wall at an interior of the outer wall. A channel is formed between the outer wall and inner frame wall. A front panel, formed as a grid, is disposed on the outer wall and is coextensive with the frame. A back panel, formed as a grid, is disposed on an opposed side of the outer frame wall, from the front and is coextensive with the frame. Each grid has sufficient openings therein so as not to significantly impede the flow of air through the device from the front panel to the back panel. An air filter medium is disposed within the space defined by the inner frame wall. A desiccant is disposed within the channel.

Systems, apparatuses, and methods are provided for implementing a system for providing a breather for a reservoir. The system includes a breather including a housing a dehumidifying element therein. The system further includes an operational sensor positioned within the housing, the operational sensor configured to output a sensor signal indicative of a measured operational parameter of the breather, and an expansion pack coupleable to the housing, the expansion pack is configured to receive the sensor signal indicative of the measured operational parameter and to transmit at least one of the measured operational parameter or a representation thereof. The system includes a control unit communicatively coupleable to the expansion pack having a processor, a display unit, and a storage. The processor executes a control application configured to receive the at least one of the measured operational parameter or representation thereof.

Wastewater treatment and conveyance; and other chemical processes result in emission of a wide variety of odorous compounds. Contaminated exhaust air is typically a byproduct emitted from sludge in tanks and wells that are part of a wastewater treatment, conveyance, or chemical process. Said contaminated air has to be treated to capture or reduce odorous compounds or pollutants below human smell recognition threshold levels before the exhaust is discharged to the atmosphere. The present invention is a carbon scrubber used to treat and filter contaminated exhaust air produced in wastewater treatment and conveyance; and other chemical processes.

A hybrid cooler/dryer that conditions a sample gas includes a heat exchanger, a condensate-removal device, and a membrane dryer. In some embodiments, the hybrid cooler/dryer also includes passive cooling, as embodied by an air amplifier and heat sink, or a length of tubing that exposes the sample gas to ambient temperature. The hybrid cooler/dryer requires no electrical power.

A water filter system for a CO.sub.2 sampling line positioned between a patient and a patient monitor to receive patient exhalation. The filter system includes at least one hydrophobic filter that adsorbs and prevents water from reaching the patient monitor. Alternatively, the filter system may include both a hydrophobic filter and a hydrophilic filter and optionally a desiccant.

A modular gas processing system built with various gas processing modules and cubes improve transportability and customization. Individual gas processing modules and cubes can be included or removed in multiple combinations for customization because each module has a common interconnection point for connecting to any other gas processing module and cube.

A system and method for producing refined biomethane gas from a renewable natural gas source. The method may include receiving, by a vessel, processed biogas, the processed biogas having been processed from a renewable natural gas source. The method may include receiving, by a nitrogen rejection vessel assembly comprising a nitrogen rejection vessel, gas from the vessel. The method may include separating, by the nitrogen rejection vessel assembly, at least some nitrogen-containing molecules from the received gas. The method may include outputting, by the nitrogen rejection vessel assembly, nitrogen-removed gas. The method may include compressing, by a compressor, the nitrogen-removed gas. The method may include removing, by a dehydration vessel, at least some moisture from the compressed nitrogen-removed gas. The method may include outputting, by the dehydration vessel, refined biomethane gas.

The multi-tube parallel free rotary thread demisting device includes a soot pit, a side liquid guide plate, liquid accumulation units, free rotary thread units, a fixing support, a flue gas inlet, motor connecting shafts, motors, a casing, a flue gas outlet, and a base support. A main body of the device includes a plurality of free rotary thread units and a plurality of liquid accumulation units that are mounted in parallel. The motors are mounted on an outer wall of the casing. The free rotary thread units are connected to the motors via the motor connecting shafts respectively. The motor connecting shafts are fixed via the fixing support. The device has low resistance, high efficiency, and high flue gas treatment throughput, and can avoid scaling and jamming.