TH99453A - System for removing sulfur from flue gas with sea water - Google Patents

Abstract

DC60 (26/04/16) to provide a system for removing sulfur from flue gas with seawater to oxidize wastewater containing High efficacy in a short time while preventing a significant decline in the acidic-sulfurous concentrate. The basis in the wastewater is discharged from the equipment, removing the sulfur from the flue gas with seawater, and the decrease in the pH of the wastewater due to oxidation treatment. Sulfur removal from flue gas with sea water Yes The sulphurous absorption tower 17, which uses seawater as the absorption solution, and the wastewater oxidation tank 20, which oxidizes acid-based sulfurous substances, is contained in the wastewater released from the sulphurous absorption tower. out In the 20 wastewater oxidation tank, air is brought in step by step into the wastewater which contains acid-sulfurous substances. At least two phases of the air inlet nozzle 33, by oxidizing the acid-base sulfurous substance in the wastewater, and the seawater is brought in through the wastewater process. At least two ways. Seawater Inlet Procedure 26 In Time With Advances In The Process Of Oxidation, By Dilution Of Wastewater, Invention Conclusion 26/04/2016 to provide a system for removing sulfur from flue gas with sea water. Can oxidize waste water with High efficacy in a short time while preventing a significant decrease in the concentration of sulfur-containing substances. The basis in the wastewater is released from the sulfur removal device with seawater and there is a decrease in the pH of the wastewater due to oxidation treatment. Sulfur removal from flue gas with sea water Yes The sulphurous absorption tower 17, which uses seawater as the absorption solution, and the wastewater oxidation tank 20, which oxidizes acid-based sulfurous substances, is contained in the wastewater released from the sulphurous absorption tower. out In the 20 wastewater oxidation tank, air is brought in step by step into the wastewater which contains acid-sulfurous substances. At least two phases of the air inlet nozzle 33, by oxidizing the acid-base sulfurous substance in the wastewater, and the seawater is brought in through the wastewater process. Least way of The sea water inlet step 26 in time with the progression of the oxidation phase, by diluting the wastewater -------------------------- -------------------------------------------------- --------- To provide a system for removing sulfur from flue gas with seawater can oxidize wastewater containing High efficiency in a short time while preventing a significant decline in the concentration of basic materials - Sulfurous Acids. In the wastewater is discharged from the device, de-sulfur from flue gas with sea water and the decrease in the pH of the wastewater due to oxidation treatment The desulfurization system from flue gas with sea water has a sulfur deoxidation absorption tower 17 which uses seawater as the absorption solution and a waste water oxidation tank 20 which oxidizes the material. Basic - Acid-Sulfurous is present in wastewater, discharged from the absorption tower, removing sulfur. In the 20 wastewater oxidation tank, air is brought in step by step into the wastewater which contains at least the base-acid-sulfurous material. Two stages of the air inlet nozzle 33, by oxidizing the basic material - acid-sulfurous in the wastewater, and seawater being brought in at least two separate ways into the wastewater. The process of seawater injection channel 26 in time with the progression of the oxidation phase, by diluting the wastewater.

Claims (1)

: DC60 (26/04/16) to provide a system for removing sulfur from flue gas with seawater to oxidize wastewater containing High efficacy in a short time while preventing a significant decline in the acidic-sulfurous concentrate. The basis in the wastewater is discharged from the equipment, removing the sulfur from the flue gas with seawater, and the decrease in the pH of the wastewater due to oxidation treatment. Sulfur removal from flue gas with sea water Yes The sulphurous absorption tower 17, which uses seawater as the absorption solution, and the wastewater oxidation tank 20, which oxidizes acid-based sulfurous substances, is contained in the wastewater released from the sulphurous absorption tower. out In the 20 wastewater oxidation tank, air is brought in step by step into the wastewater which contains acid-sulfurous substances. At least two phases of the air inlet nozzle 33, by oxidizing the acid-base sulfurous substance in the wastewater, and the seawater is brought in through the wastewater process. At least two ways. Seawater Inlet Procedure 26 In Time With Advances In The Process Of Oxidation, By Dilution Of Wastewater, Invention Conclusion 26/04/2016 to provide a system for removing sulfur from flue gas with sea water. Can oxidize waste water with High efficacy in a short time while preventing a significant decrease in the concentration of sulfur-containing substances. The basis in the wastewater is released from the sulfur removal device with seawater and there is a decrease in the pH of the wastewater due to oxidation treatment. Sulfur removal from flue gas with sea water Yes The sulphurous absorption tower 17, which uses seawater as the absorption solution, and the wastewater oxidation tank 20, which oxidizes acid-based sulfurous substances, is contained in the wastewater released from the sulphurous absorption tower. out In the 20 wastewater oxidation tank, air is brought in step by step into the wastewater which contains acid-sulfurous substances. At least two phases of the air inlet nozzle 33, by oxidizing the acid-base sulfurous substance in the wastewater, and the seawater is brought in through the wastewater process. Least way of The sea water inlet step 26 in time with the progression of the oxidation phase, by diluting the wastewater -------------------------- -------------------------------------------------- --------- To provide a system for removing sulfur from flue gas with seawater can oxidize wastewater containing High efficiency in a short time while preventing a significant decline in the concentration of basic materials - Sulfurous Acids. In the wastewater is discharged from the device, de-sulfur from the flue gas with sea water and the decrease in the pH of the wastewater due to oxidation treatment. The desulfurization system from flue gas with sea water has a sulfur deoxidation absorption tower 17 which uses seawater as the absorption solution and a waste water oxidation tank 20 which oxidizes the material. Basic - Acid-Sulfurous are present in wastewater, released from absorption tower, remove sulfur. In the 20 wastewater oxidation tank, air is brought in step by step into the wastewater which contains at least the base-acid-sulfurous material. Two stages of the air inlet nozzle 33, by oxidizing the basic material - acid-sulfurous in the wastewater, and seawater being brought in at least two separate ways into the wastewater. The process of seawater inlet 26 in time with the progression of the oxidation phase, by diluting the waste water. (Item one) which will appear on the advertisement page: edit 26/04/2016 1. Seawater flue gas desulfurization system, including: seawater flue gas desulfurization equipment which uses sea water as the absorbent solution; And wastewater oxidation equipment, which oxidizes acid-based sulfurous substances contained in wastewater with Emitted by seawater desulfurization equipment, & nb.