DE1117603B - Thermal trickle degasser - Google Patents

Description

Thermal trickle degasser The invention relates to a thermal Trickle degasser with heat exchanger to precipitate the vapors.

As is known, the expelled gas vapors are discharged on highest point of the degasser into the atmosphere via a pipe. With overpressure degassers considerable heat losses occur, while vacuum degassers have a suction device must be equipped for the entire amount of gas vapor.

A reduction in heat losses is achieved in known degassing systems achieved by adding a vapor condenser located outside the degasser. The mostly cold feed water to be degassed serves as a coolant. Not condensable Gases escape into the open through a vent line of the vapor condenser. Disadvantages of these devices are heat radiation from the external parts, such as vapor discharge, fittings and the vapor condenser. In addition, the space requirement of the degassing systems larger, as there are connecting pipes outside the actual degasser, Fittings and the vapor condenser must be accommodated. An isolation of the parts mentioned is required to limit heat losses.

Further degassing systems are set up inside so that the accruing gas vapors are precipitated there. A pipe system carrying cooling water with superstructures for water distribution is built into the degassing room. The derivation the gas vapor takes place via an exhaust pipe located in the interior of the degasser Pipe snake. In trickle deaerators, this device counteracts the deaeration effect, because a cooling zone must be set up for the condensation of the gas vapors, which the Protection of the degassed feed water reduced.

Other degassing systems with one in the gas vapor chamber of the degasser built-in condenser, through which the cooling water flows, beat the gas vapors Steam attachment down, but the vapor condensate is not discharged, but falls with the gas attachment into the degasser room. A guarantee for extensive degassing is not given by this.

The object of the subject invention is to avoid the listed disadvantages. This is achieved in that the heat exchanger is central is arranged vertically in the interior of the trickle degasser and the to be degassed Water runs centrally into the trickle degasser.

Here, the heat exchanger is designed in a manner known per se in such a way that that the vapors to be condensed in countercurrent from top to bottom and that to be degassed Water is led from the bottom up.

An embodiment of the subject matter of the invention is in Drawing reproduced in section.

The water to be degassed in the container 1 is supplied via a pipeline 2 out into the vapor condenser 3 and falls over trickle floors 5 into the degasser room 10, the steam injection space 7 and then into the feed water collecting tank arranged below.

The heating steam is supplied at nozzle 8 and distributor 9. Das Gas vapor discharge pipe 12 laid directly under the upper degasser tray 6 connects the vapor condenser 3 to the atmosphere via the condensate discharge pipe 4 and causes the gas vapors to be discharged. Non-condensable gas vapors are over the immersion tube 11, which opens into the vapor condenser 3, drained into the open.

The technical progress compared to the device according to the invention the familiar consists mainly in the closed design of the degasser with built-in vapor condenser in the interior, in which the exhaust of the gas vapors in the upper Part of the degasser takes place and a separate discharge of the gas vapors is achieved. The indirect heat transfer from the steam to the feed water occurs without radiation losses achieved.

Claims (2)

PATENT CLAIMS: 1. Thermal trickle deaerator with heat exchanger for precipitating the vapors, characterized in that the heat exchanger is arranged centrally running vertically inside the trickle degasser and that to discover Gassing water is fed centrally to the trickle degasser. 2. Apparatus according to claim 1, characterized in that the heat exchanger is designed in a manner known per se so that the vapors to be condensed in countercurrent of top to bottom and the water to be degassed from bottom to top to be led. Publications considered: Austrian patent specification No. 149228; U.S. Patent Nos. 1511 876, 2515 648.