TH95904A - Chute structure for mixing fluids And methods of blending - Google Patents

Abstract

The DC60 provides a chute structure for mixing fluids which can reduce the mixing length L required for mixing the two fluids. And which can be operated in blending to achieve results. Effectively In a chute structure for the mixing of fluids which integrates seawater which is released It flows in Drain 11 and Sea Water for Dilution, which flows in Fluid Trench 12 to form the mixed seawater that will return to the sea. Make fluid grooves 12 from the lateral surfaces. Integrate the sea water which is released It flows in the drain 11 below the water level and provides the first dam 14 and the second dam 15 below the water level where the part that meets between the trench 12 and the drain 11, thus controlling the sea water which is released. Which flows in the lowermost surface in the direction of the flow, provides a chute structure for mixing fluids which can reduce the mixing length L required for mixing the two fluids. And which can be operated in blending to achieve results. Effectively Inside the fluid mixing chute structure which integrates the sea water which is released It flows in Drain 11 and Sea Water for Dilution, which flows in Fluid Trench 12 to form the mixed seawater that will return to the sea. Let the fluid groove 12 from the side surface. Integrate the sea water which is released It flows in the drain 11 below the water level and provides the first embankment 14 and the second prediction 15 below the water level where the part that converges between the trench 12 and the drain 11, thus controlling the sea water which is released. Which flows in the lowermost surface in the direction of flow

Claims (6)

1. a structure for mixing fluids in which the fluid to be diluted flowing in the first chute and the diluted fluid Which flows in the second rail Have made it together with each other To form a liquid through a diluted mixture that has been drained By making the second rail from the rail side surface It is combined with the diluted fluid flowing in the first chute below the water level and provides a joint under the water level where the part that meets between the first and second chute to Control the value of the fluid to be diluted Which flows in the bottom surface of the first rail 2. Structure for mixing fluids in which the fluid to be diluted flowing in the first chute and the diluted fluid Which flows in the second rail Have made it together with each other To form a liquid through a diluted mixture that has been drained By making the second rail from the rail side surface It is combined with the diluted fluid flowing in the first rail below the water level and the part which converges between the first and second chutes. Greater than the rail height of the second rail is arranged under the level at the source side. And the destination side in relation to The width of the second rail is across the width of the first rail. 3. Structure for the mixing of fluids according to claim 1 or No. 2, where at the top of the dam positioned at the destination side. Made a tumultuous hole In the direction of flow along the way 4. Structures for the mixing of fluids according to claim 3, where dividing and forming An inconsistent condition on the fluid flow surface of a flat section. 5. The rail structure for the mixing of fluids according to claims 1 to No. 4, where the embankment placed at the source side relative to the width of the second rail is tilted. Along the fluid flow to be diluted from the initial point at the wall of the rail where the second rail is Merged to the end on the opposite side of the rail wall 6. Method of mixing in which fluid to be diluted. Which flows in the first chute and the flow for dilution Which flows in the second rail Were made to integrate with each other to form a Flow through the diluted mixture that has been drained This includes the steps of integrating the dilution fluid with the dilution fluid below the water level from the side surface of the first rail and Control of the fluid to be diluted Which flows in the bottom part of the first rail Where the part at which the fluid meets the dilution fluid and the dilution fluid