TH13288B - Exhaust gas sulfur reduction system - Google Patents

Abstract

DC60 (01/04/40) introduced a flue gas sulfur reduction system. Distinctive Only that the spray hose That is attached by a large number of spray nozzles in a longitudinal direction and at one end closed Is arranged horizontally in the absorption tower where the flue gas It passes through it vertically, the muddy water, the absorbent is fed from the other end of the spray tube and is pumped upwards from the spray nozzle. In this way, the muddy water, the absorbent is introduced into contact with the vapor gas. Waste to be treated in the absorbent tube and the funnel flows through one of the closed ends of the The spray pipe is shaped in such a way that the cross-sectional area Of the channel flow through will be reduced When approaching one of the closed ends Has introduced a system to reduce the sulfur of flue gas. Distinctive Only that the spray hose That is attached by a large number of spray nozzles in a longitudinal direction and at one end closed Is arranged horizontally in the absorption tower where the flue gas It passes through it vertically, the muddy water, the absorbent is fed from the other end of the spray tube and is pumped upwards from the spray nozzle. In this way, the muddy water, the absorbent is introduced into contact with the vapor gas. Waste to be treated in the absorbent tube and the funnel flows through one of the closed ends of the The spray pipe is shaped in such a way that the cross-sectional area Of the channel flow through will be reduced When approaching one of the closed ends

Claims (2)

1. Exhaust gas sulfur reduction system for the absorption of sulfur oxide in flue gas by introducing the adsorbed mud into contact with the flue gas. In which there are many spray hoses where each hose is attached Set with multiple spray nozzles arranged in a longitudinal direction And one end of the closed pipe is arranged horizontally at the bottom of the contact treatment tower as a mechanism for the conduction of the muddy water. Seep into contact with the exhaust gas Therefore, muddy water, a sorbent containing large amounts of muddy water, will Is fed from the other end of the spray hose mentioned. And was brought into contact with the flue gas by injection Muddy water, absorbent And the muddy water will accumulate on top of the spray nozzles mentioned for sorption treatment. The mentioned flue gas sulfur reduction systems have a unique characteristic that the spray hoses mentioned are made with pipes with Constant cross section Will bring a slanting plate which is tilted towards the spray nozzle side towards the end One of the covers of the pipes mentioned is installed inside the pipe on the closed end. The slanting sheet mentioned will Connected to the end plate for covering one end of the spray hose mentioned in the relative Properly positioned The inner surface positions of the end plates mentioned are positioned between The position of the maximum inner diameter of the inlet of the spray nozzle positioned on the side The maximum downward current of the spray hose mentioned and position 0.05 D away from the side mentioned position. Up to the downstream side And the slanting plates mentioned are arranged from the middle position between the spray nozzles at The third and fourth from the nozzles sprayed the most downstream. Or from a central position between the fourth and fifth spray nozzles and which are tilted in such a way that the area above the slanting plate mentioned at the position of the spray nozzles flows Down to 0.2 to 0.3 times the cross-sectional area of the spray pipe 2. Exhaust gas sulfur reduction system for absorption. Sulfur oxide in flue gas By bringing water, muddy, absorbed substances into contact with the flue gas. Which has a unique characteristic that the spray hose at Attached with multiple spray nozzles in a longitudinal direction. And with one end closed are arranged along the Flat in the absorption tower where the flue gas Will pass vertically into this tower The muddy water, the absorbent will be fed. From the other end of the spray hose mentioned and inject upward from the spray nozzle mentioned. By this water The adsorbed mud will be introduced into contact with the flue gas for treatment. And the channels flow through on One of the closed ends of the spray tube is formed in such a manner that the cross-sectional area of the funnel decreases as it approaches one of the closed ends, wherein the inner surface of the end plate for The The closure on one end of the spray hose mentioned is held at a position approx. 0.05 D, where D is the internal diameter of the said spray hose. Away from the position of the maximum inner diameter of the lead channel The inlet of the fixed nozzle closest to the closed end of the spray hose mentioned to the One end closed Or at a location on the inside of the nearby location mentioned