초록 ▼

A scrubber for exhaust gases comprises a series of nested counter-flow passages including a hot plenum having a star-shaped section. Exhaust gases from the hot plenum surge through a liquid bath and flow in a reverse direction through an inclined array of flat, overlapping, spaced mixing vanes, cau

A scrubber for exhaust gases comprises a series of nested counter-flow passages including a hot plenum having a star-shaped section. Exhaust gases from the hot plenum surge through a liquid bath and flow in a reverse direction through an inclined array of flat, overlapping, spaced mixing vanes, causing turbulence in the exhaust gases and the formation of highly dispersed tiny bubbles, which enhance the solution of gaseous pollutants into the scrubbing liquid. Mist eliminator vanes strip entrained liquids from the exhaust gases. The hot plenum, reheats the exhaust gases to an unsaturated level. The scrubber is highly effective in reducing particulate matter, stripping sulphur dioxide and nitrogen dioxide from exhaust gases, and reducing the heat signature and visual evidence thereof.

대표청구항 ▼

The invention claimed is: 1. A scrubber device for reduction of particulate and gaseous contaminants from exhaust gases comprising: co-axial nested inlet conduit, hot conduit, and outlet conduit for counterflow passage of the exhaust gases, a tank containing a bath of scrubbing liquid, wherein ends

The invention claimed is: 1. A scrubber device for reduction of particulate and gaseous contaminants from exhaust gases comprising: co-axial nested inlet conduit, hot conduit, and outlet conduit for counterflow passage of the exhaust gases, a tank containing a bath of scrubbing liquid, wherein ends of the hot and outlet conduits are operatively interconnected and immersed in the scrubbing liquid within the tank whereby the exhaust gases pass through the liquid bath, one or more sets of mixing vanes, and one or more sets of horizontal mist eliminator vanes, wherein said mixing vanes, are located within the immersed end of the outlet conduit, and are adapted to generate turbulence in the exhaust gases to form very small bubbles, and wherein said mist eliminator vanes are located in the outlet conduit downstream of the mixing vanes, and are adapted to remove droplet and mist from the exhaust gases. 2. The scrubber of claim 1 wherein the hot conduit and outlet conduits have a common wall portion remote from the immersed ends. 3. The scrubber of claim 2 wherein the common wall portion, is a heat exchanger to warm the exhaust gases flowing through the outlet conduit. 4. The scrubber of claim 1 wherein each set of mixing vanes comprises an inclined array of thin, flat, elongated vanes, spaced apart and offset transversely from the adjacent vanes. 5. The scrubber of claim 4 wherein each set of mixing vanes is inclined radially outwardly. 6. The scrubber of claim 1 wherein each set of mist eliminator vanes comprises an inclined array of thin, flat, horizontal elongated vanes, spaced apart and offset transversely from the adjacent vanes. 7. The scrubber of claim 6 wherein the array of mist eliminator vanes is inclined radially inwardly. 8. The scrubber of claim 1 which includes a central inlet conduit nested within and operatively interconnected with the surrounding hot conduit. 9. The scrubber of claim 4 wherein sprayers for spraying the scrubbing liquid into the exhaust gases are located between the set of mixing vanes and the set of mist eliminator vanes. 10. The scrubber of claim 3 wherein the heat exchanger provides sufficient re-heat to the exhaust gases to elevate the exhaust gas temperature beyond the dew point by at least 30째 C. 11. The scrubber of claim 2 wherein the common wall portion has a circular cross-section. 12. The scrubber of claim 2 wherein the common wall portion has a multi-lobed cross-section. 13. The scrubber of claim 12 in which the common wall portion is generally star-shaped. 14. The scrubber of claim 1 wherein operating back pressure is less than six inches of water. 15. A method of scrubbing a stream of exhaust gases to reduce particulate and gaseous contaminants and to reduce the exhaust gas temperature comprising, (a) passing exhaust gases from a source through an elongated inlet conduit; (b) passing the exhaust gases in a counter-flow direction through a hot conduit surrounding the inlet conduit; (c) passing the exhaust gases through a liquid bath to cool the gases and retain particulate matter; (d) passing the exhaust gases in a counter-flow direction into an outlet conduit surrounding the hot conduit and having at least a partial common wall with the hot conduit; (e) passing the exhaust gases through one or more sets of mixing vanes adapted to redirect the gas stream direction and generate turbulence in the liquid bath, whereby fine bubbles are generated and entrained in the gas stream (f) passing the exhaust gases through one or more sets of mist eliminator vanes to substantially eliminate any entrained bubbles or moisture; (g) passing the exhaust gases along a heated surface of said common wall to raise the temperature of the exhaust gases above the dew point; and (h) exhausting the exhaust gases from the scrubber. 16. The method of claim 15 whereby, in step (e), tiny bubbles of exhaust gases are formed by roiling and swirling turbulence generated by passing the exhaust gases through an inclined array of submerged mixing vanes. 17. The method of claim 15, including, after step (e), passing the exhaust gases and entrained bubbles through a spray passage to dissipate the bubbles. 18. The method of claim 15 whereby, in step (f), the mist eliminator vanes are spaced so as to contact the gas stream and strip moisture therefrom, while preventing an increase in velocity of the gas stream which would re-entrain moisture from the vanes. 19. The method of claim 15 whereby, in step (g), the exhaust gases are heated in the outlet conduit by heat transferred through the common wall portion from exhaust gases within the hot conduit. 20. The method of claim 19 wherein the temperature of the exhaust gases is raised at least 30째 C. above the dew point.