CN104787826A - Energy-saving closed type degassing system - Google Patents

Abstract

The invention relates to an energy-saving closed type degassing system which includes a closed type cooling tower, a circulating pipeline connecting the closed type cooling tower and an end device, a degasser connected to the circulating pipeline in parallel, and a water pump connected to the circulating pipeline. Compared with the prior art, the energy-saving closed type degassing system provided by the invention achieves the purpose of degassing through additionally arranging and opening the degasser; in addition, the stability of the flow measurement is ensured by accurately setting the positions of the degasser and a valve on the circulating pipeline; through a large number of experiments and analog computation, the position of the degasser is finally determined, and a good degassing effect is realized; moreover, the position for placing the water pump is also obtained through computation, so that the pressure situation of the circulation pipeline in the front and at the back of the water pump can be comprehensively considered, and a good conveying effect is realized.

Description

A kind of enclosed degas system of save energy

Technical field

The present invention relates to a kind of de-gassing vessel, especially relate to a kind of enclosed degas system of save energy.

Background technology

In existing system, be in general, by the local vertex at pipeline, manual, automatic exhaust steam valve is installed, carry out emptying to intrasystem air.There is gas in system can not thoroughly be drained, can cause pipeline, pump develops noise, Heat transmission, refrigeration and pump efficiency reduce, and produce unnecessary maintenance, the easy burn into wearing and tearing of apparatus assembly and damage, and extra energy waste.

Chinese patent CN 103760277A discloses a kind of de-gassing vessel, belong to transformer oil chromatographic on-line monitoring technique field, comprise U-shaped scavenging duct, cellular quartz sieve plate, trap tube and six-way valve, cellular quartz sieve plate is positioned at the bottom of U-shaped scavenging duct side, trap tube comprises the silica tube and heating component that are contained by described trap tube, heating component is wrapped on the outer wall of silica tube, on U-shaped scavenging duct have the side of cellular quartz sieve plate and one end of trap tube a to be connected respectively to group interface that six-way valve communicates, the other end of trap tube is connected on another group interface of six-way valve, but this kind of de-gassing vessel structure relative complex, use and maintenance cost higher.

Summary of the invention

Object of the present invention is exactly provide a kind of enclosed degas system of save energy reducing water pump operation frequency, promote discharge stability to overcome defect that above-mentioned prior art exists.

Object of the present invention can be achieved through the following technical solutions:

An enclosed degas system for save energy, comprises

Closed cooling tower,

Connect the circulating line of closed cooling tower and end equipment,

Be connected in parallel on the de-aerator on circulating line,

Be connected to the water pump on circulating line.

Valve is provided with between closed cooling tower and end equipment.Above-mentioned valve is separately positioned on the entrance end of closed cooling tower and the entrance end of end equipment.

Be provided with valve between described closed cooling tower and de-aerator in parallel, this valve is arranged on the mid-way of the circulating line between closed cooling tower and de-aerator.

Described water pump is arranged on the mid-way of the circulating line between de-aerator in parallel and end equipment.

Entrance end and the exit end of described de-aerator are equipped with valve, and de-aerator is arranged in parallel circulating line at closed cooling tower and end equipment near the position of 1/3 length of closed cooling tower side.

Compared with prior art, the present invention reaches degassed object by increasing unlatching de-aerator, and by accurately arranging the position of valve on de-aerator and circulating line, ensure that the stable of flow metering, by great many of experiments and analog calculation, finally determine the position of de-aerator, realizing good degasifying effect, the placement location in addition also by calculating water pump, the pressure condition before and after water pump in circulating line can be considered, realize good conveying effect, have the following advantages:

1. reduce the running frequency of water pump, save electric energy;

2. improve the stability of flow, better ensure that the stable of flow metering.

3. improve cooling water quality, avoid system frequent shutdown to safeguard, reduce the cleaning frequency of end high-precision filter thus can maintenance cost be reduced, enhancing productivity;

4., because scrubbing effectively, system can use less chemical agent.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention.

In figure, 1-closed cooling tower, 2-end equipment, 3-de-aerator, 4-circulating line, 5-water pump, 6-first valve, 7-second valve, 8-the 3rd valve, 9-the 4th valve, 10-the 5th valve.

Embodiment

Below in conjunction with the drawings and specific embodiments, the present invention is described in detail.

Embodiment

An enclosed degas system for save energy, its structure as shown in Figure 1, mainly comprises closed cooling tower 1, connects the circulating line 4 of closed cooling tower 1 and end equipment 2, is connected in parallel on the de-aerator 3 of on circulating line 4, and is connected to the water pump 5 on circulating line 4.

Below the annexation of each assembly is further detailed: between closed cooling tower 1 and end equipment 2, be provided with the first valve 6, second valve 7, the 3rd valve 8, wherein, first valve 6 is arranged on the entrance end of closed cooling tower 1, second valve 7 is arranged on the entrance end of end equipment 2, and the 3rd valve 8 is arranged on the mid-way of the circulating line between closed cooling tower 1 and de-aerator 3.De-aerator 3 and the position set by water pump 5 are more crucial, by great many of experiments and analog calculation, finally determine that de-aerator 3 is arranged in parallel circulating line 4 at closed cooling tower 1 and end equipment 2 near the position of 1/3 length of closed cooling tower 1 side, be respectively equipped with the 4th valve 9 and the 5th valve 10 at the entrance end of de-aerator 3 and exit end, water pump 5 is arranged on the mid-way of the circulating line 4 between de-aerator 3 in parallel and end equipment 2.By determining that the position of de-aerator 3 realizes good degasifying effect, by determining that the position of water pump 5 can consider the pressure condition before and after water pump in circulating line, realize good conveying effect.

Claims (8)

1. an enclosed degas system for save energy, is characterized in that, this degas system comprises

Closed cooling tower,

Connect the circulating line of closed cooling tower and end equipment,

Be connected in parallel on the de-aerator on circulating line,

Be connected to the water pump on circulating line.

2. the enclosed degas system of a kind of save energy according to claim 1, is characterized in that, is provided with valve between described closed cooling tower and end equipment.

3. the enclosed degas system of a kind of save energy according to claim 2, is characterized in that, described valve is arranged on the entrance end of closed cooling tower and the entrance end of end equipment.

4. the enclosed degas system of a kind of save energy according to claim 1, is characterized in that, is provided with valve between described closed cooling tower and de-aerator in parallel.

5. the enclosed degas system of a kind of save energy according to claim 4, is characterized in that, described valve is arranged on the mid-way of the circulating line between closed cooling tower and de-aerator.

6. the enclosed degas system of a kind of save energy according to claim 1, is characterized in that, described water pump is arranged on the mid-way of the circulating line between de-aerator in parallel and end equipment.

7. the enclosed degas system of a kind of save energy according to any one of claim 1-6, is characterized in that, entrance end and the exit end of described de-aerator are equipped with valve.

8. the enclosed degas system of a kind of save energy according to any one of claim 1-6, is characterized in that, described de-aerator is arranged in parallel circulating line at closed cooling tower and end equipment near the position of 1/3 length of closed cooling tower side.