DD280379A1 - NASS FAN cooling tower - Google Patents

Abstract

The invention relates to a wet-fan cooling tower with mist eliminator, in which the fan is mounted in a Deckenoeffnung of the Kuehlturmbauwerkes and about a diffuser-like exhaust air duct. The exhaust air tract is designed as a radial diffuser. The ceiling of the Kuehlturmbauwerkes forms the largest part of the lower wall of the exhaust air duct, and the substantially parallel upper wall is abgestuetzt on the lower. The mist eliminator is mounted in the exhaust air tract between the two walls and designed so that it also serves for Vergleichomessigung the Luftstroemung. figure

Description

For this 1 page drawing

Field of application of the invention

The invention relates to a wet-fan cooling tower with droplet separation and diffuser-like exhaust air duct.

Characteristic of the known state of the art

Fan cooling towers are usually equipped with a simple cone feeder. If, in such a diffuser separation phenomena and beam formation are avoided, leading to energy losses in the exiting cooling air, the expansion angle of the cone diffuser must be small, which in turn requires a long length (height) to keep the losses low.

The mist eliminator is usually mounted in the fan cooling towers in the interior between the water distribution system and the fan and consists ous angled guide elements (DE-OS 1E01391, DE-OS 3010792, DE-PS 2622226, SU 10910132), where by the deflection of the flow entrained water droplets the cooling air are discharged and run in the form of a water film at the lower edges of the guide elements.

It is also known that at the same time arranged in the flow direction in front of the fan mist eliminator as a swirler for the cooling air flow form (DE-OS 3030439). However, this leads to increased energy losses.

Although so-called radial diffusers are known as end diffusors for a long time from the general fluid mechanics, in which a radial deflection of the flow and radial blow out and cause a surface extension with only a small run length (Albring, W .: Applied fluid dynamics, published by Theodor Steinkopf, Dresden and Leipzig, 1961,

P. 270f.), But their use in fan cooling towers has not been considered until now.

Object of the invention

The aim of the invention is a cost-effective design of fan cooling towers with respect to the droplet separation and flow conditions in the exhaust air tract, which contributes to reducing the demand for electrical energy during operation of the cooling tower and results in a high separation efficiency for water droplets.

Daring the essence of the invention

The invention has for its object to make the fulfillment of the objective the exhaust air tract so that both the lowest possible leakage losses occur and at the same time the arrangement of the droplet in the exhaust air duct is possible. According to the invention the exhaust air tract is a radial diffuser with a weakly tapered upward course of the

Ceiling opening, in which the fan is located, designed beyond the lack of cooling tower construction. The ceiling of the cooling tower structure forms the largest part of the lower wall of the exhaust air duct. The substantially parallel upper wall (plate) is supported on the lower.

In order to deflect the exiting cooling tower fumes upwards, the walls (plates) in the area of the circular-ring-shaped openings of the exhaust air duct are cleaned upwards. The over the cooling tower ceiling protruding diffuser part is supported by support members which are fixed to the Kühlmürmmantel. The mist eliminator is disposed at an optimum distance from the ceiling opening and expediently designed so that it continues to perform the function of Entdrallung, equalization and calming of the flow in Abiufttrakt next to the function as a mist eliminator. This is achieved by designing the baffles of the droplet. Between the ceiling opening and the mist eliminator at least one annular channel is mounted in the lower wall, from which at least one of the ceiling penetrating down the drain shaft. The separated at the mist eliminator water is returned over it into the cooling tower. Using the cooling tower ceiling as the lower boundary of the radial diffuser saves considerable material. The selected arrangement and design, the droplet with its triple function contributes to reducing the construction and assembly costs to a reduction in electrical intrinsic demand.

embodiment

The detailed explanation is based on the drawing, which is a schematic diagram of the upper part of a fan cooling tower in section.

In the upper part of the cooling tower structure 1, the fan 3 is arranged in the central ceiling opening 2. For discharging the cooling air, the exhaust air duct 4 is formed on the ceiling 5 of the cooling tower structure 1 as a slightly conical radial diffuser (plate diffuser). The lower wall of the diffuser forms the slightly conically inclined to the ceiling opening 2 ceiling 5. The upper wall 12 of the exhaust air duct 4 is supported by means of struts 13 on the lower wall (ceiling 5). The projecting beyond the shell 11 of the cooling tower structure part of the exhaust air duct 4 is supported by support members 10 which are fixed to the shell 11. The opening 6 of the exhaust air duct 4 is inclined to reject the swaths upwards. Within the exhaust air tract 4, the mist eliminator 7 is disposed on a certain radius for drop separation and rectification of the flow. The separated water is returned via the annular channel 8 and the drain chutes 9 in the cooling tower.

Claims (7)

1. wet-cooling fan tower with mist eliminator, wherein the fan in a ceiling opening of the cooling tower structure and about a diffuser-like exhaust air duct are attached, characterized in that the exhaust air duct (4) is designed as a radial diffuser, wherein the ceiling (5) of the cooling tower structure ( 1) forms the largest part of the lower wall of the exhaust air tract (4) and the substantially parallel upper wall supported on the lower (5) and the mist eliminator (7) in the exhaust air duct (4) is mounted between the two walls. 2. wet-fan cooling tower according to claim 1, characterized in that the annular opening (6) of the exhaust air duct (4) is directed upward. 3. wet-fan cooling tower according to claim 1 and 2, characterized in that the formed as a radial diffuser exhaust air duct (4) is designed with a weakly conical upward course of the ceiling opening (2) to the outside. 4. wet-cooling fan tower according to claim 1 to 3, characterized in that the radial diffuser on the Mantei (11) of the cooling tower structure (1) is designed protruding. 5. wet-cooling fan tower according to claim 1 to 4, characterized in that for the on the jacket (11) of the cooling tower structure (1) projecting wall parts of the exhaust air duct (4) Stützolemente (10) on the jacket (11) are mounted. 6. wet-cooling fan tower according to claim 1 to 5, characterized in that between the ceiling opening (2) and the! Droplet separator (7) in which the lower wall of the exhaust air duct (4) forming ceiling (5) of the cooling tower structure (1) at least one annular channel (8) is mounted, from which at least one of the ceiling (5) penetrating downflow shaft (9). 7. wet-cooling fan tower according to claim 1 to 6, characterized in that the mist eliminator (7) is formed simultaneously as rectification and Entdrallungselemenl for the exhaust air flow.