CN101251341A

CN101251341A - Hydropower self-cooling cooling tower

Info

Publication number: CN101251341A
Application number: CNA2008100271347A
Authority: CN
Inventors: 陈向阳
Original assignee: Individual
Current assignee: Individual
Priority date: 2008-03-27
Filing date: 2008-03-27
Publication date: 2008-08-27

Abstract

The invention relates to a water power self-cooling water cooling tower, wherein a water power machine (5) is connected with an outlet pipe (8) of a water cooling tower (1), which utilizes the water outlet potential energy to drive a blower (9) to work. The water power machine (5) is arranged at the bottom centre of the water cooling tower (1), the power output shaft (4) of the water power machine extends upwards into the water cooling tower to connect the blower (9). The water power self-cooling water cooling tower fully utilizes the own potential energy of hot water to cool the hot water and establishes a novel water cooling tower mode, and the operation of the cooling tower does not need to consume energy no longer; the tower height and the cost of the tower are all lowered; and the water power self-cooling cooling tower avoids to consume huge amounts of money to build a hyperbolic cooling tower with natural ventilation.

Description

Hydropower self-cooling cooling tower

Technical field

The present invention relates to a kind of industry and civilian cooling tower, is a kind of hydropower self-cooling cooling tower specifically.

Background technology

In existing industry and civilian cooling tower, though natural draft cooling tower when operation energy consumption in addition not, its tower body is tall and big, disposable input is very big; And the relatively low cooling tower of other disposable inputs all is to adopt the mechanical draft cooling technology, and air exhauster promptly is set in the air duct of cooling tower, and the motor outer by air duct provides power.That is to say that traditional cooling theory is thought: make hot water become cold water by cooling tower, or solve, or reach with consumption of power in the day-to-day operation with disposable very big input.

The new technology majority of the energy-conservation aspect of present cooling tower both domestic and external is the overbottom pressure that has had from operating cooling tower water inlet, take technology such as the water energy blower fan exhausting of water inlet end, the cooling of spraying to carry out reducing energy consumption, if the cooling tower no overbottom pressure of water inlet (user's energy conservation direction) can be for utilizing, this type of technology is just unworkable.

That is to say: the expensive or power consumption of traditional cooling tower technology, existing new technology has limitation again; Traditional cooling theory has been ignored the potential energy that the hot water itself that enters cooling tower has, and existing new technology has only been utilized a part of hot water potential energy, and radical change tradition cooling theory not.

Summary of the invention

The purpose of this invention is to provide and a kind ofly utilize the overbottom pressure potential energy of hot water fully and do not need other energy consumption, can reach the hydropower self-cooling cooling tower of required cooling effect.

In traditional cooling tower, even if having had overbottom pressure, cooling tower water distributor place can not utilize, the several meters height that are used to cool off of pond cooling water liquid level at the bottom of only from the water distributor of cooling tower to tower, but wasted huge water energy when finishing refrigerating function, can utilizing also it as an alternative, the blower fan of traditional cooling tower provides cooling power.And when needs strengthen cooling effect, can combine by the exhausting cooling technology with the atomizing cooling technology or the water inlet end water of water inlet end again.

Based on above-mentioned, hydropower self-cooling cooling tower provided by the invention utilizes water side potential energy to drive the engine using hydrostatic thrust of belt driven blower work thereby be connected on the outlet pipe of cooling tower.

Engine using hydrostatic thrust is installed in cooling tower bottom centre, and its power output shaft upwards stretches into cooling tower internal interface air blast.

The invention has the beneficial effects as follows: realize making full use of the potential energy cooling hot water of hot water itself, founded brand-new cooling tower pattern, no longer power consumption of cooling tower operation; Tower height degree and cost all decrease; Needn't consume the double-curve cooling column that huge fund is built gravity-flow ventilation again.

Description of drawings

Fig. 1 is first kind of specific embodiment structural representation of the present invention;

Fig. 2 is second kind of specific embodiment structural representation of the present invention;

Fig. 3 is the third specific embodiment structural representation of the present invention.

The specific embodiment

With reference to Fig. 1, hydropower self-cooling cooling tower provided by the invention, the upper side of cooling tower 1 is connected to pending hot water inlet pipe 3, water inlet pipe 3 connects the water distributor 12 of cooling tower 1 the inside, water collection device 13 is arranged above the water distributor 12, packing layer 11 is arranged below the water distributor 12, air-cooled distribution plate 2 is arranged below the packing layer 11, cap shape aid distributing pipe 10 is housed on the distribution plate 2, utilize water side potential energy to drive the engine using hydrostatic thrust 5 of belt driven blower 9 work thereby be connected on the outlet pipe 8, there is air distribution fender body 6 in air blast 9 outsides.Engine using hydrostatic thrust 5 is installed in cooling tower 1 bottom centre, and its power output shaft 4 upwards stretches into cooling tower 1 internal interface air blast 9.Described engine using hydrostatic thrust 5 is the hydraulic turbine, and its water inlet connects the outlet pipe 8 of cooling tower 1, and outlet is back to circulation through draft tube 7.Its cooling capacity is general, is mainly used in the relatively low area of long-term temperature.

Fig. 2 and Fig. 1 difference are that its water distributor 12 is connected to water inlet overbottom pressure upwards and utilizes atomizer 15, and in the side of corresponding atomizer 15 maintenance panel 14 is installed.Its cooling capacity is relatively good, is mainly used in the general area of long-term temperature.

Fig. 3 and Fig. 1 difference are that it is equipped with the intake pressure drive that utilizes water inlet pipe 3 on water collection device 13 water energy air exhauster [16] can have draft tube [17] to connect water distributor 12 in the air exhauster [16] at water.Its cooling capacity extra-heavy is mainly used in the higher relatively area of long-term temperature degree.

Its operation principle is: the recirculated cooling water hot water that absorbed heat from system, enter from cooling tower 1 top through water inlet pipe 3, come out to fall to packing layer 11 from the water distributor of the inside, then after atomizing, become droplets fall if any atomizer, see Fig. 2, if any water energy air exhauster, then can enter again in the water distributor behind the air exhauster through water from water inlet pipe 3, see Fig. 3.When the cooling water liquid level arrived or be higher than outlet pipe 8 outlets on the cooling tower 1, cooling water was through outlet pipe 8, and the water side potential energy of himself drives engine using hydrostatic thrust 5, and driving water can air blast 9, in fender body to packing layer 11 air blast.Simultaneously, cooling water is back to circulation from engine using hydrostatic thrust 5 outlets through draft tube 7.Can reduce the height of traditional cooling tower like this, increase cooling tower water inlet end overbottom pressure, potential energy own cooled off hot water after realization utilized hot water to enter cooling tower, and did not need the purpose of other energy consumption.

Claims

1. hydropower self-cooling cooling tower, it is characterized in that at the outlet pipe [8] of cooling tower [1] thus on be connected to and utilize out water potential energy to drive the engine using hydrostatic thrust [5] of belt driven blower [9] work.

2. hydropower self-cooling cooling tower according to claim 1 is characterized in that engine using hydrostatic thrust [5] is installed in cooling tower [1] bottom centre, and its power output shaft [4] upwards stretches into cooling tower internal interface air blast [9].