TH42949B - Aerator - Google Patents

Abstract

DC60 aerator capable of achieving sufficient mixing in the lateral direction. The seawater used to flow in the seawater oxidation treatment system is prepared in an aerosol filling device (10 A) installed in the seawater oxidation treatment system (1) for water discharge. Marine used that is discharged from the flue gas desulfurization tower by seawater use. It is sorbent and has been shaped to carry out the carbon dioxide limitation by inducing The microscopic air bubbles in seawater used, the combined pipe (12) that contacts the air supply pipe will It was installed on the bottom surface (1a) of the seawater oxidation operating system (1), and the aeration unit (20) that produced microscopic air bubbles from the aeration unit (13). Attachment to the collective tube (12) is assembled with the nozzles (30) for forming the bottom section. Some parts that do not produce air bubbles as small as the micro Aerators that can achieve sufficient mixing in lateral directions. The amount of sea water used to flow in the seawater oxidation treatment system is prepared in an aerosol filling device (10A) installed in the seawater oxidation treatment system (1) for water discharge. Marine used that is discharged from the flue gas desulfurization tower by seawater use. It is sorbent and has been shaped to carry out the carbon dioxide limitation by inducing The microscopic air bubbles in seawater used, the combined pipe (12) that contacts the air supply pipe will It was installed on the bottom surface (1a) of the seawater oxidation operating system (1), and the aeration unit (20) that produced microscopic air bubbles from the aeration unit (13). Attachment to the collective tube (12) is assembled with the nozzles (30) for forming the bottom section. Some parts that do not produce air bubbles as small as the micro

Claims (3)

1. The aerator is installed in the seawater oxidation treatment system for the The used seawater is discharged from the desulfurization tower of the vapor gas sulfur dehydrator. Waste by using seawater as sorbent and shaping for disposal. Carbon dioxide by the formation of microscopic air bubbles in used seawater, where the combined pipe in contact with the air supply pipe is installed on the lower surface of the system. Treated with sea water oxidation, and the aeration unit produces smaller bubbles. At the micro level, from the aeration nozzles attached to the collector pipe, a section without a nozzle is assembled. For forming a partial bottom area where it does not produce sized bubbles. Small at the micro level 2. Aerator according to claim 1, where the separator assembly extends in the direction According to the oxidation flow, seawater will be installed to separate the This will create even smaller air bubbles at the microscopic level and areas where it will not cause The bubbles are microscopic from each other in the direction along the width of the system. This is done with seawater oxidation, and the separating element will allow the used seawater to flow in Direction along the width of the seawater oxidation treatment system on the surface side and on the side. Lower facial skin 3.Aerator according to claim 1 or item 2, where the aerator nozzles will be placed. Vertically to extend upward in the vertical direction from the collective pipe