Embodiments disclosed herein include a particle collection trap for an abatement system for abating compounds produced in semiconductor processes. The particle collection trap includes a device for producing spiral gas flow in the particle collection trap. The spiral gas flow causes particles, which are heavier than the gas, to travel to the outside diameter of the flow path where the gas velocity is slower and to drop out of the gas stream. The device may be a spiral member coupled to a hollow tube or a rolled member having an inner portion coupled to a hollow tube. The particle collection trap increases the accumulation rate of particles in the gas stream without reducing the velocity of the gas flow.

Embodiments disclosed herein include a particle collection trap for an abatement system for abating compounds produced in semiconductor processes. The particle collection trap includes a device for producing spiral gas flow in the particle collection trap. The spiral gas flow causes particles, which are heavier than the gas, to travel to the outside diameter of the flow path where the gas velocity is slower and to drop out of the gas stream. The device may be a spiral member coupled to a hollow tube or a rolled member having an inner portion coupled to a hollow tube. The particle collection trap increases the accumulation rate of particles in the gas stream without reducing the velocity of the gas flow.

An air purifying apparatus includes a humidity controller and an intake cooling separator including one or more shafts and an outer wall. The intake cooling separator generates airflow to obtain the humidity-controlled air. The intake cooling separator swirls the obtained air around a first shaft included in the one or more shafts, thereby generating a pressure difference between air included in the obtained air and around the first shaft and air included in the obtained air and around the outer wall, and the pressure difference cools at least a part of the obtained air, and the pressure difference cools at least a part of the obtained air. The intake cooling separator performs centrifugal separation of water droplets generated from the cooled air. The one or more shafts are rotated to generate the airflow, to cause the swirl, and to perform the centrifugal separation.

An air purifying apparatus includes a humidity controller and an intake cooling separator including one or more shafts and an outer wall. The intake cooling separator generates airflow to obtain the humidity-controlled air. The intake cooling separator swirls the obtained air around a first shaft included in the one or more shafts, thereby generating a pressure difference between air included in the obtained air and around the first shaft and air included in the obtained air and around the outer wall, and the pressure difference cools at least a part of the obtained air, and the pressure difference cools at least a part of the obtained air. The intake cooling separator performs centrifugal separation of water droplets generated from the cooled air. The one or more shafts are rotated to generate the airflow, to cause the swirl, and to perform the centrifugal separation.

An air purifying apparatus includes a humidity controller and an intake cooling separator including one or more shafts and an outer wall. The intake cooling separator generates airflow to obtain the humidity-controlled air. The intake cooling separator swirls the obtained air around a first shaft included in the one or more shafts, thereby generating a pressure difference between air included in the obtained air and around the first shaft and air included in the obtained air and around the outer wall, and the pressure difference cools at least a part of the obtained air, and the pressure difference cools at least a part of the obtained air. The intake cooling separator performs centrifugal separation of water droplets generated from the cooled air. The one or more shafts are rotated to generate the airflow, to cause the swirl, and to perform the centrifugal separation.

An air purifying apparatus includes a humidity controller and an intake cooling separator including one or more shafts and an outer wall. The intake cooling separator generates airflow to obtain the humidity-controlled air. The intake cooling separator swirls the obtained air around a first shaft included in the one or more shafts, thereby generating a pressure difference between air included in the obtained air and around the first shaft and air included in the obtained air and around the outer wall, and the pressure difference cools at least a part of the obtained air, and the pressure difference cools at least a part of the obtained air. The intake cooling separator performs centrifugal separation of water droplets generated from the cooled air. The one or more shafts are rotated to generate the airflow, to cause the swirl, and to perform the centrifugal separation.

The present invention is directed to a novel mechanical device containing a liquid solution recirculating inside the device in the form of programmed oriented movements which achieve to trap the contaminants resulting from carburant combustion processes, such as particulate material, smoke, soot, fly ashes, greenhouse type gases in order to remove them from the air and to achieve its neutralization thus providing a clean air and suitable to be reinserted into the environment and the substance obtained by the device is reinserted into the production chain as a raw material applicable to a plurality of industries.

The present invention is directed to a novel mechanical device containing a liquid solution recirculating inside the device in the form of programmed oriented movements which achieve to trap the contaminants resulting from carburant combustion processes, such as particulate material, smoke, soot, fly ashes, greenhouse type gases in order to remove them from the air and to achieve its neutralization thus providing a clean air and suitable to be reinserted into the environment and the substance obtained by the device is reinserted into the production chain as a raw material applicable to a plurality of industries.

A system for relocating polluted air includes a tubular chamber with an inlet at one end, an outlet at a end, and auxiliary venturi inlets between the inlet and the outlet. There is at least one fan arranged within the tubular chamber. The fan flows air from outside of the tubular chamber, through the tubular chamber and out of the tubular chamber through the outlet. A compression chamber compresses air before entering the heating chamber. There is at least one heating element within the heating chamber. The heating element(s) heat the air, thereby increasing the velocity of the air through the tubular chamber. The air exits the tubular chamber through the outlet, directed vertically and upward towards upper strata of the atmosphere to redirect the air (and pollutants) into the upper strata of the atmosphere. In some embodiments, filters and scrubbers are provided within the tubular chamber for reducing pollutants.

A system for relocating polluted air includes a tubular chamber with an inlet at one end, an outlet at a end, and auxiliary venturi inlets between the inlet and the outlet. There is at least one fan arranged within the tubular chamber. The fan flows air from outside of the tubular chamber, through the tubular chamber and out of the tubular chamber through the outlet. A compression chamber compresses air before entering the heating chamber. There is at least one heating element within the heating chamber. The heating element(s) heat the air, thereby increasing the velocity of the air through the tubular chamber. The air exits the tubular chamber through the outlet, directed vertically and upward towards upper strata of the atmosphere to redirect the air (and pollutants) into the upper strata of the atmosphere. In some embodiments, filters and scrubbers are provided within the tubular chamber for reducing pollutants.