An active wet scrubbing filtration system for decontamination of a gas stream comprises components including one or more of: a) a vortexing apparatus which induces a contaminant-bearing gas into a helical flow; b) an initial scrubbing fluid spray section configured so as to project a spray of scrubbing fluid into the contaminant-bearing gas stream; c) an absorption structure; d) a condenser; and e) first and second scrubbing fluid decontamination systems that may be engaged or disengaged independently of each other. In some embodiments, the worksite comprises a clean room or one or more a semiconductor processing tools, which may include photolithography tools or photolithography tool clusters. In some embodiments, the active wet scrubbing filtration system may be useful in cleaning and recycling air or other process gasses for use in clean rooms or semiconductor processing tools.

An oily smoke purification device includes a holder, a main housing, a mixing mechanism, a filter and an exhaust fan. The holder is filled with purification solution, the exhaust fan is started to cause a negative pressure inside the main housing, oily smoke enters the purification solution from a gap between the holder and the main housing and is mixed with the purification solution under an action of the mixing mechanism to absorb dirt in the oily smoke into the purification solution, and the oily smoke is filtered by the filter to generate clean air which is sucked by the exhaust fan. The hazardous substance including oil, dust and other impurities in the contaminated air is filtered and the air is purified, thereby protecting the environments and ensuring the heath of people.

A method of air purification and apparatus uses thorough air-bath to trap airborne debris and gaseous molecules in the liquid. Incoming air are reduced repeatedly and thoroughly at various stages into tiny air bubbles in contact with liquid in the apparatus where airborne materials and gaseous molecules are trapped in the liquid. This cleaning system can effectively remove small or large airborne debris and gaseous molecules, in contrast to cleaning effectiveness limited by the filter pore sizes in traditional filter system. The liquid can be water, water mixed with any designed substances or other type of liquid phase of materials. In exemplary case, water is used as a part of filtration medium, the apparatus thus can be served as both air purifier and humidifier. A relatively high humidity in the air would help to trap more airborne debris, which makes the air purification apparatus more efficient.

A multi-mechanism wet dust removal apparatus achieving water circulation use and a dust removal method. The multi-mechanism wet dust removal apparatus includes a dust collecting device, a dust settling and air-water separation device, a water circulating device and a dust discharging device, and dust removal is achieved by dust collecting, dust settling, air-water separation and dust discharging. The multi-mechanism wet dust removal apparatus achieving water circulation use and the dust removal method integrate multiple dust removal mechanisms, and the dust removal efficiency and effect are obvious.

This disclosure relates to a system that provides an environmentally friendly method to clean air over towns and cities. The system utilizes tourmaline filters and rocks, sunlight, and water to simulate the cleaning properties of waterfalls in order to create an ionized surface within a cylindrical tube and creates raindrops and mist to simulate precipitation. The system eliminates pollutants instead of transferring them to the surrounding environment.

There is disclosed a misting apparatus (10) for producing a mist from a pressurized liquid, comprising: a fan shaft (134) having a rotational axis (104); a rotary jet assembly (130) configured to drive the fan shaft (134) and comprising a radially extending arm (136) configured to convey the pressurized liquid to a jet nozzle (138), wherein the jet nozzle (138) is configured to eject the pressurized liquid in a jet to generate a jet reaction force having a tangential component; a fan 140 coupled to the fan shaft (134) for driving an airflow; and a spray nozzle (152) configured to eject the pressurized liquid into the airflow to produce a mist.

A scrubber system for removing odorous and/or harmful gases from polluted gases/air comprising a scrubber body, a blower to supply the polluted gas into the scrubber body under pressure enabling the supplied polluted gas to travel from lower portion of the scrubber body to upper portion of the scrubber body and one or more diffraction units provided with supply of wash solution accommodated inside of the scrubber body and disposed in pathway of the polluted gas within the scrubber body to diffract the polluted gases/air with the wash solution thereby to clean the polluted gases/air and discharge clean gases/air through a scrubber body outlet at its top.

A scrubber system for removing odorous and/or harmful gases from polluted gases/air comprising a scrubber body, a blower to supply the polluted gas into the scrubber body under pressure enabling the supplied polluted gas to travel from lower portion of the scrubber body to upper portion of the scrubber body and one or more diffraction units provided with supply of wash solution accommodated inside of the scrubber body and disposed in pathway of the polluted gas within the scrubber body to diffract the polluted gases/air with the wash solution thereby to clean the polluted gases/air and discharge clean gases/air through a scrubber body outlet at its top. Each of diffraction units includes one or more modularly configurable diffraction plate having an assembly of spaced apart a perforated upper plate and a perforated lower plate wherein each said perforated upper plate and said perforated lower plate having plurality of passing holes on their planer surface and assembled one over the other enabling said passing holes in the perforated upper plate and the perforated lower plate are disposed in a zigzag pattern, whereby the polluted gases/air while moving upwards and upon contact with said wash solution in said diffraction unit while passing through said passing holes in said perforated upper and lower plates of said diffraction unit generate swirl bubbles within the wash solution under pressure of said polluted air/gases moving upwards for maximizing contact with said polluted gases/air and efficient cleaning of the polluted gases/air for release of clean gases/air through the scrubber body outlet.

A fountain is provided. The fountain includes: a drape; a catch basin located below the drape and oriented to catch a fluid flowing at least one of over and through the drape; a conduit fluidly connected to the catch basin forming a circuit to return the fluid in the catch basin to flow at least one of over and through the drape; a pump fluidly connected to the circuit and configured to pump the fluid through the conduit; and at least one of the drape, catch basin, conduit includes surface oriented to contact the fluid and the surface includes at least one of copper and silver.

A sensor-based motion control fugitive dust suppression system comprises: a laser pointer provided on a frame to conduct a setting operation such that directions of a plurality of mist spray injection nozzles provided on a blast pipe located inside the frame correspond to the front end of a chisel of a hydraulic breaker; a data logger for collecting, from a sensor provided at the crushing apparatus, location source information for a hitting impact point of the hitting part; a location information processing unit analyzing the location source information collected from the data logger so as to generate the location information on the hitting impact point of the hitting part; and a system control unit for outputting a control signal so as to control a driving unit rotating the blast pipe in a vertical or horizontal direction, according to the location source information.