A Carbon Sequestering Exhaust Filtration System that utilizes air conditioning to accelerate the cooling of Hydrogen atoms from exhaust fumes to more quickly pass through said pipe's inner lining to drip off the porous outer encasement which facilitates air flow for heat dispersion from the internal pipe. Said pipe then attaches to an exhaust fume filtration port which contains replaceable, biodegradable Carbon particulate filtering bags for an environmentally sustainable exhaust fume filtering attachment that expels purified air outside.

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.

An apparatus, method and system remove contaminants from a vapor. In an embodiment, a contaminant removal apparatus includes a vacuum box. The vacuum box is a vessel. The apparatus also includes a demister pad disposed in the vacuum box. A vapor is introduced to the vacuum box on an opposing side of the demister pad from a vapor exit from the vacuum box.

An air dryer includes a first flow path through the air dryer and a second flow path through the air dryer in parallel with the first flow path. A diverter valve has a first position that provides fluid communication to the first flow path and a second position that provides fluid communication to the second flow path. A system parameter signal is reflective of fluid flow through the air dryer, and a controller receives the system parameter signal and produces a first control signal based on the system parameter signal. The first control signal controls the position of the diverter valve.

A system for collecting an anaesthetic agent, having at least one anaesthetic gas scavenging system (AGSS) for receiving exhaust gas from a plurality of sources, the exhaust gas including the anaesthetic agent to be collected, each AGSS comprising at least one power source for providing suction of the exhaust gas from the plurality of sources under negative pressure, and a central collection system for receiving the exhaust gas, the central collection system comprising at least one collector for collecting the anaesthetic agent from the exhaust gas, wherein the at least one collector is configured to adsorb the anaesthetic agent from the exhaust gas. The central collection system may be configured to received the exhaust gases from the at least one AGSS, with the central collection system being located downstream of the at least one AGSS.

An apparatus and process for fog mitigation can be include a mechanism to reduce fog formation and/or condense the fog into water to avoid fog being formed and moving through a site. Embodiments can be configured to utilize at least one fog collection mechanism positioned adjacent a vaporizer utilized to vaporizer a cryogenic liquid so that fog that may form adjacent the vaporizer is removed from air surrounding the vaporizer and prevented from spreading beyond the vaporizer to other areas of a site having the vaporizer (e.g. a hydrogen fueling station, etc.).

A system for dehydrating raw produce without introducing excess heat to the produce, including a first chamber for holding warm, moist air, a second chamber connected in fluidic communication with the first chamber for cooling and drying warm, moist air received from the first chamber, and a filter operationally connected between the first and second chambers for removing suspended particulates from warm, moist air flowing therethrough with a drain operationally connected to the second chamber for removing water therefrom. A third chamber is connected in fluidic communication with the second chamber for receiving cool, dry air therefrom and for receiving raw produce for drying, and a wind current generator operationally connected to the second chamber to urge cool, dry air therefrom and into the third chamber.

A system for dehydrating raw produce without introducing excess heat to the produce, including a first chamber for holding warm, moist air, a second chamber connected in fluidic communication with the first chamber for cooling and drying warm, moist air received from the first chamber, and a filter operationally connected between the first and second chambers for removing suspended particulates from warm, moist air flowing therethrough with a drain operationally connected to the second chamber for removing water therefrom. A third chamber is connected in fluidic communication with the second chamber for receiving cool, dry air therefrom and for receiving raw produce for drying, and a wind current generator operationally connected to the second chamber to urge cool, dry air therefrom and into the third chamber.

An air drying unit for compressed air systems includes a precooler/reheater, a main cooler, and a moisture separator. Incoming air is cooled to cause moisture within the compressed air to condense, and the condensate separated to dry the compressed air. The air drying unit includes an integrated intake filtration and outtake filtration sections with horizontally oriented filter elements that filter particulates and oil from incoming and outgoing compressed air.

A clothes dryer using an LED light source is proposed. Instead of using a heater, a blowing fan, and a heat exchanger, the clothes dryer employs a plurality of LED light source modules provided in a body and efficiently arranged therein and an air circulation structure of an air circulation part having a blowing fan arranged in the inner rear side thereof, and is configured to sterilize air through an air sterilization part, absorb and dry moisture by a ceramic filter, and then finally discharge the air to the outside through an exhaust fan. Therefore, without requiring a separate water discharge treatment process in an existing method, the clothes dryer can achieve efficient drying of clothes and drying of clothes without damage.