RU2102329C1 - Cyclone deaerator - Google Patents

Abstract

FIELD: water thermal deaeration plants. SUBSTANCE: device has vertical body. Inlet of hot water to be deaerated is located tangentially in body upper part. Funnel with outlet of deaerated water is located in body lower part. Evaporation tube is installed coaxially inside body. Cut in inlet of hot water to be deaerated is shattering unit having shattering grate. EFFECT: compact design, reduced entrainment of water through evaporating device, higher quality of purification from corrosive gases. 1 dwg

Description

 The invention relates to water treatment devices, namely, to installations for thermal deaeration of water.

 A device is known for a deaerator [1] containing a deaeration column made in the form of a cylindrical body with nozzles for supplying deaerated water, steam and discharge of vapor, deaerated water.

 As the closest analogue of the proposed technical solution, a heated water deaerator can be adopted, comprising a housing placed vertically with a supply pipe for heated deaerated water fixed tangentially in its upper part and a funnel with a drain pipe for deaerated water in the lower part of the housing.

 The proposed design of the cyclone deaerator in comparison with analogues differs in compactness, reduces the entrainment of water through the evaporation hole and provides a softening of water hammer at high flow rates of deaerated water.

 This effect is achieved due to the fact that the cyclone deaerator is equipped with a vapor pipe installed coaxially inside the housing with an outlet flange at the upper end of the pipe to connect the vapor pipe, and a crushing unit containing a crushing grating is cut into the pipe for supplying heated deaerated water.

 The design of the cyclone deaerator is illustrated in the drawing.

 The cyclone deaerator consists of a vertically placed cylindrical body 1, in which a vapor pipe 2 with an outlet flange for connecting a vapor line is coaxially placed. One or two tangential nozzles 3 (two in the drawing) for supplying heated deaerated water are connected to the housing in its upper part. A crushing unit 4 is inserted into each of the nozzles, containing a crushing grill 5 fixed between the flanges 6. In the lower part of the housing 1, it ends with a funnel 7, which passes into the nozzle 8 to drain the deaerated water, inside of which there are straightening vanes 9 in the form of smoothly curved plates facing concave side to the stream.

 The device operates as follows.

Deaerated water heated to a temperature of 102-104 ^o C enters the pipe 3 and, passing through the crushing grill 5, is sprayed. In this case, the diameter of the holes of the lattice is recommended on the order of 4-6 mm, and the total cross-sectional area of the holes should provide a water velocity of 7-14 m / s in them. Since the water temperature of 102-104 ^o C corresponds to a saturated vapor pressure of 1.1-1.19 kg / cm ² , and the outflow occurs in a volume with a pressure almost equal to atmospheric, then at the outlet of the gratings 5 water boils, and into the cyclone chamber (space Between the housing 1 and the vapor pipe 2) a two-phase flow is already supplied. The two-phase flow entering the cyclone chamber is subjected to separation: it is divided into vapor-gas and condensed phases, which is achieved due to the organization in the cyclone of the flow in a spiral using the tangential fastening of the nozzles 5 on the housing at an angle of 10-15 ^o . After passing through the cyclone chamber, deaerated water flows into the storage tank, and steam is supplied through the vapor pipe 2 to the vapor line and then to the heat exchanger (vapor cooler) are not shown in the drawing. To ensure a smooth entry of the flow into the storage tank and eliminate the funnel through which the vapor-gas medium can enter the tank, straightening vanes 9 are installed in the discharge pipe 8.

 The proposed design of the cyclone deaerator provides deaeration of water to a residual content of corrosive gases of the order of 20-50 μg / l of hydroshocks.

Claims (1)

 A cyclone deaerator comprising a housing arranged vertically with a nozzle for supplying heated deaerated water located tangentially in its upper part and a funnel with a drain nozzle for deaerated water in the lower part of the housing, characterized in that the cyclone deaerator is provided with a vapor pipe mounted coaxially inside the housing, with an outlet flange at the upper end of the pipe for connecting the vapor line, and straightening blades in the form of smoothly curved plates facing the flow with the concave side, located in the drain pipe and a crushing unit containing a crushing grid is cut into the nozzle for supplying heated deaerated water.