CN104595247A - Centrifugal compressor with recooling structure - Google Patents

Abstract

The invention relates to the technical field of compressor equipment, in particular to a centrifugal compressor with a recooling structure. The centrifugal compressor with the recooling structure comprises at least two levels of impellers, a diffuser, a backflow device overflowing plate and a backflow device, wherein the diffuser, the backflow device overflowing plate and the backflow device form a level runner communicated with an adjacent impeller channel; one side, which is near the level channel, of the diffuser and/ or backflow device, is provided with a cooling channel; the cooling channel comprises liquid inlets and a liquid outlet; the liquid inlets and the liquid outlet are respectively used for causing refrigerant to enter and discharge from the cooling channel. Since the cooling channel is arranged and the refrigerant is introduced into the cooling channel, the refrigerant and mixed gas in the level runner can be subjected to heat exchange so as to lower the heat of the mixed gas to realize the reooling of the mixed gas, so that two-stage compression can be easily carried out, the energy consumption of the compressor is lowered, a flow line of refrigerant gas in the level runner is not changed by the structure, and resistance loss and additional power consumption are not increased.

Description

A kind of centrifugal compressor again with cooling structure

Technical field

The present invention relates to compressor apparatus technical field, particularly relate to a kind of centrifugal compressor again with cooling structure.

Background technique

Because gas temperature in compression process can sharply rise, and gas specific volume ν under high temperature is very large, and when ensureing identical refrigerating capacity, energy consumption of compressor will sharply increase.In order to reduce compressor wasted work, improve refrigerating capacity, multistage compression refrigeration cycle is carried out.The most widely used with flash steam separator (being commonly called as economizer) " in the middle of Two-stage Compression not exclusively cooling refrigeration circulation " at present.

Mixed with the exhaust phase from rudimentary compression by the flash steam separated from economizer, reduce somewhat the intake temperature of two-stage compression, refrigerant gas specific volume is declined, energy consumption of compressor reduces.But, by the impact of intermediate pressure, the limited extent of being lowered the temperature by tonifying Qi, now mixed gas still keeps the higher degree of superheat, do not reach or close to desirable dry saturation state, cross thermal loss still relatively more serious, the intake temperature of two-stage compression and the energy consumption of compressor still have larger reduction space.

For the problems referred to above, we need a kind ofly can reduce a grade temperature for runner internal surface, and two-stage compression is more easily carried out, and reduce energy consumption of compressor, and do not change the streamline of refrigerant gas in level runner, do not increase the centrifugal compressor again with cooling structure of drag losses and extra wasted work.

Summary of the invention

The object of the invention is to propose a kind of centrifugal compressor again with cooling structure, a grade temperature for runner internal surface can be reduced, two-stage compression is more easily carried out, reduce energy consumption of compressor, and do not change the streamline of refrigerant gas in level runner, do not increase drag losses and extra wasted work.

For reaching this object, the present invention by the following technical solutions:

A kind of centrifugal compressor again with cooling structure, comprise at least both stage impellers, Diffuser, return channel overcurrent plate and return channel, described Diffuser, between return channel overcurrent plate and return channel, be formed with the level runner being communicated with adjacent fan-wheel passage, wherein, described Diffuser and/or return channel are provided with cooling channel near the side of level runner, and this cooling channel comprises liquid entering hole and liquid outlet, are respectively used to refrigerant and enter, get rid of cooling channel.

As above-mentioned a kind of preferred version again with the centrifugal compressor of cooling structure, described Diffuser and return channel are provided with spiral chute or planar slot on the surface of level runner, the side that described Diffuser and return channel have spiral chute or planar slot is provided with heat exchange cover plate, described spiral chute or form cooling channel between planar slot and heat exchange cover plate.

As above-mentioned a kind of preferred version again with the centrifugal compressor of cooling structure, described spiral fluted cross section is rectangle or circular arc; Described planar slot is circular or square structure.

As above-mentioned a kind of preferred version again with the centrifugal compressor of cooling structure, described Diffuser is vaneless diffuser or vane diffuser, and the thickness being arranged at the heat exchange cover plate on vaneless diffuser is 2-3mm; The thickness being arranged at the heat exchange cover plate of vane diffuser is 3-5mm, and the blade of vane diffuser is arranged on the end face of heat exchange cover plate.

As above-mentioned a kind of preferred version again with the centrifugal compressor of cooling structure, comprise the liquid entering hole that at least one is communicated with described cooling channel.

As above-mentioned a kind of preferred version again with the centrifugal compressor of cooling structure, described cooling channel is provided with two liquid entering holes, it is respectively the first liquid entering hole and the second liquid entering hole, described first liquid entering hole is communicated with the cooling channel being positioned at Diffuser side, described second liquid entering hole is communicated with the cooling channel being positioned at return channel side, and described first liquid entering hole and the second liquid entering hole are arranged near gas supplementing opening.

As above-mentioned a kind of preferred version again with the centrifugal compressor of cooling structure, also comprise the flow monitoring device for monitoring mixed gas flow in grade runner, for controlling the control valve of fluid flow and liquid entering hole opening and closing in liquid entering hole, and control gear, the opening and closing of mixed gas flow numerical control liquid entering hole and the flow of liquid entering hole liquid in the level runner that described control gear is monitored according to flow monitoring device.

As above-mentioned a kind of preferred version again with the centrifugal compressor of cooling structure, described liquid entering hole is with condenser, be communicated with throttling arrangement or economizer, and described liquid outlet is connected with the low-voltage equipment of coolant circulating system.

As above-mentioned a kind of preferred version again with the centrifugal compressor of cooling structure, described liquid entering hole is communicated with condenser, and described liquid entering hole place or the connecting pipeline between liquid entering hole and condenser are provided with throttling arrangement.

As above-mentioned a kind of preferred version again with the centrifugal compressor of cooling structure, described liquid entering hole is arranged on the top of cooling channel, and liquid outlet is arranged on the bottom of cooling channel.

Beneficial effect of the present invention is: by arranging cooling channel, and refrigerant is passed in cooling channel, this refrigerant can carry out exchange heat with the mixed gas in level runner, and then reduce the heat of mixed gas, namely realize the cooling again to mixed gas, two-stage compression is more easily carried out, reduce energy consumption of compressor, and this structure does not change the streamline of refrigerant gas in level runner, drag losses and extra wasted work can not be increased.

Accompanying drawing explanation

Fig. 1 is the structural representation of the level water passage surface passage that provides of specific embodiment of the invention cooling structure again.

Fig. 2 is the ring shaped slot structural representation that the specific embodiment of the invention provides;

Fig. 3 be Fig. 2 " A-A " to sectional view;

Fig. 4 is the planar slot structural representation that the specific embodiment of the invention provides;

Fig. 5 is that Fig. 4 " B-B " is to sectional view;

Fig. 6 is the structural representation of the on-bladed heat exchange cover plate that the specific embodiment of the invention provides;

Fig. 7 is the structural representation with blade heat exchange cover plate that the specific embodiment of the invention provides;

Fig. 8 is refrigeration cycle tephigram comparison diagram before and after the improvement that provides of the specific embodiment of the invention.

Wherein:

1: impeller; 2: Diffuser; 3: return channel overcurrent plate; 4: return channel; 5: level runner; 6: cooling channel; 7: spiral chute; 8: planar slot; 9: heat exchange cover plate; 10: blade; 11: the first liquid entering holes; 12: the second liquid entering holes; 13: gas supplementing opening; 14: liquid outlet;

71: spiral chute liquid entering hole; 72: spiral chute liquid outlet; 73: liquid entering hole for subsequent use;

81: planar slot liquid entering hole; 82: planar slot liquid outlet.

Embodiment

Technological scheme of the present invention is further illustrated by embodiment below in conjunction with accompanying drawing.

As shown in Figure 1, present embodiments provide for a kind of centrifugal compressor again with cooling structure, comprise at least both stage impellers 1, Diffuser 2, return channel overcurrent plate 3 and return channel 4, Diffuser 2, be formed with the level runner 5 being communicated with adjacent fan-wheel 1 passage between return channel overcurrent plate 3 and return channel 4, wherein, Diffuser 2 and/or return channel 4 are provided with cooling channel 6 near the side of grade runner 5, in the present embodiment, cooling channel 6 is set simultaneously on Diffuser 2 and return channel 4 for preferred version.Cooling channel 6 comprises liquid entering hole and liquid outlet 14, is respectively used to refrigerant and enters, discharges cooling channel 6.

In present embodiment, do not get rid of situation about to be arranged on cooling channel on return channel overcurrent plate 3 yet, concrete, at return channel overcurrent plate 3, the one or both sides of grade runner 5 are provided with cooling channel 6.

By arranging cooling channel 6, and by passing into refrigerant in cooling channel 6, this refrigerant can carry out exchange heat with the mixed gas in level runner 5, and then reduce the heat of mixed gas, namely realize the cooling again to mixed gas, two-stage compression is more easily carried out, reduce energy consumption of compressor, and this structure does not change the streamline of refrigerant gas in level runner 5, drag losses and extra wasted work can not be increased.

The form that arranges that in present embodiment, cooling channel is concrete is:

At Diffuser 2 and return channel 4, the side of grade runner 5 is provided with cooling channel 6, Diffuser 2 and return channel 4 are provided with spiral chute 7 or planar slot 8 on the surface of grade runner 5, the side that Diffuser 2 and return channel 4 have spiral chute 7 or planar slot 8 is provided with heat exchange cover plate 9, spiral chute 7 or form cooling channel 6 between planar slot 8 and heat exchange cover plate 9.As preferably, sealed by seal ring between heat exchange cover plate 9 and Diffuser 2 or return channel 4.

The cross section of spiral chute 7 is rectangle or circular arc.

Concrete, in order to ensure good heat transfer effect, when the cross section of spiral chute 7 is rectangle, its groove depth is h, and the thickness of Diffuser 2 or return channel 4 is H, wherein h=0.3-0.5H, and the circular groove that spiral chute 7 is connected successively by 3-5 ring is formed.And controlled the heat exchange area of refrigerant and pressurized gas by the width L of slot cross-section and the number n of ring, the degree of depth h of engagement groove controls the volume passing into refrigerant.

When the shape of cross section of spiral chute 7 is circular arc, controls heat exchange area by the number n of arc diameter D and ring and pass into the volume of refrigerant, in this embodiment, in view of the complexity of processing technology, the first-selected square-section of this structure.

In order to overcome the impact of on-way resistance, need to arrange a liquid entering hole 73 for subsequent use at the crossover position of spiral chute 7, refrigerant liquid constricted flow when preventing small flow, spiral chute liquid entering hole 71 is arranged on the initial position of outmost turns circular groove, spiral chute liquid outlet 72 is arranged on the terminal position of innermost circle circular groove, and spiral chute liquid entering hole 71 and spiral chute liquid outlet 72 present the liquid form of upper entering and lower leaving.

Planar slot 8 is circular or square structure, and concrete planar slot 8 is for being arranged on the groove structure on Diffuser 2 or return channel 4, and according to the shape of Diffuser 2 or return channel 4, planar slot 8 is preferably circular flat groove.

Controlled the heat exchange area of refrigerant and pressurized gas by the area s of planar slot 8, the degree of depth h of engagement groove controls the volume passing into refrigerant, and the groove depth of planar slot 8 is h, and the thickness of Diffuser 2 or return channel 4 is H, wherein, and h=0.2-0.4H.And planar slot liquid entering hole 81 is arranged on the upper end of planar slot, planar slot liquid outlet 82 is arranged on the lower end of planar slot 8, and both present the setting type of upper entering and lower leaving.

It should be noted that: the easier refrigerant liquid layer forming flowing in cooling channel of spiral chute 7, has good convection heat exchange effect, and heat exchange is even, but heat exchange area need be strengthened by the number increasing ring, be subject to the restriction of structure; The structure of planar slot 8 is comparatively simple, has larger heat exchange area, and can pass into more refrigerant liquid, also can form good heat transfer effect, but due to the impact of gravity, upper and lower heat exchange is even not.By Integrated comparative, two schemes all can form reasonable cooling effect, can carry out selectivity design according to actual conditions.

Diffuser 2 is vaneless diffuser or vane diffuser, and present embodiment mainly applies to vaneless diffuser, and for ensureing the surface cool effect of level runner, the thickness of its heat exchange cover plate 9 should control at 2 ~ 3mm.Blade 10 can be arranged on the end face of heat exchange cover plate 9 for vane diffuser, and need the thickness suitably increasing heat exchange cover plate 9, should control at 3 ~ 5mm.

Sealing place that this structure relates to is mainly the sealing of the sealing of return channel 4 and casing, Diffuser 2 and return channel 4, and the sealing of level runner 5 surface cool passage, and three all can obtain good sealing effect by increasing seal washer.For level runner 5 surface cool passage 6, its internal flow be the refrigerant liquid of low-temp low-pressure, flows outside be the pressurized gas of High Temperature High Pressure, also can form good high pressure sealing gland.

Cooling structure comprises the liquid entering hole that at least one is communicated with cooling channel 6 again, in this embodiment, cooling channel 6 is provided with two liquid entering holes be described, it is respectively the first liquid entering hole 11 and the second liquid entering hole 12, first liquid entering hole 11 is communicated with the cooling channel 6 being positioned at Diffuser 2 side, and the second liquid entering hole 12 is communicated with the cooling channel 6 being positioned at return channel 4 side.

As preferably, also comprise gas supplementing opening 13, first liquid entering hole 11 that is communicated with level runner 5 and the second liquid entering hole 12 is arranged near gas supplementing opening 13.First liquid entering hole 11 is mainly lowered the temperature to Diffuser 2 for refrigerant, and form reverse flow with pressurized gas before tonifying Qi, be convenient to the heat exchange between refrigerant and mixed gas, the second liquid entering hole 12 is mainly lowered the temperature to return channel part for refrigerant, carries out abundant heat exchange to the mixed gas after tonifying Qi.First liquid entering hole 11 and the second liquid entering hole 12 are arranged near gas supplementing opening 13, are in order to the very first time cools in time to mixed gas, make use of limited inner space fully.Consider the impact of flow path resistance simultaneously, a part of refrigerant can be drawn from the second liquid entering hole 12 and the bend before sencond stage impeller is cooled, to prevent liquid can not fully heat exchange in this bend place constricted flow.More liquid entering holes (being greater than 2) can also be set according to actual conditions, but the position of each liquid entering hole needs to determine according to the position of gas supplementing opening.

Centrifugal compressor also comprises the flow monitoring device for monitoring mixed gas flow in grade runner, for controlling the control valve of fluid flow and liquid entering hole opening and closing in liquid entering hole, and control gear, the opening and closing of mixed gas flow numerical control liquid entering hole and the flow of liquid entering hole liquid in the level runner that described control gear is monitored according to flow monitoring device.When the flow in level runner is less, can select the quantity opening liquid entering hole, the quantity as liquid entering hole is two, when flow is less, can select only to open one, when the flow in level runner is larger, can select to open whole liquid entering holes.By arranging control valve at liquid entering hole place, and the aperture of control valve can certainly be controlled, to realize the control of liquid entering hole fluid flow.Thus, the situation occurring compressed gas condensation can be avoided, cause Wet Compression.

Liquid entering hole is with condenser, be communicated with throttling arrangement or economizer, and liquid outlet is connected with the low-voltage equipment of coolant circulating system.When liquid entering hole is communicated with condenser, liquid entering hole place or the connecting pipeline between liquid entering hole and condenser are provided with throttling arrangement.This throttling arrangement is throttling stopple or throttling ports valve.

The refrigerant liquid absorbed after heat is finally got back in vaporizer, Economy of Intermediate Form device or other low-voltage equipments by arranging corresponding liquid outlet.Liquid outlet 14 can be individually set to Diffuser 2 and return channel 4 as required, also both can share a liquid outlet 14, and in order to reduce tube pass, reduce on-way resistance, liquid entering hole is arranged on the top of cooling channel, and liquid outlet 14 is arranged on the bottom of cooling channel 6.

It should be noted that, n level is compressed, all cooling structure again will be designed every grade of runner inside, refrigerant liquid is except carrying out condenser, can also before vaporizer or from n-1, n-2 ... introduce in 2 grades of Economy of Intermediate Form devices, the refrigerant liquid absorbed after heat is got back in vaporizer, Economy of Intermediate Form device or other low-voltage equipments.

As shown in Figure 8, before cooling, the starting point of two-stage compression is 2a, after cooling, the starting point of two-stage compression becomes 2b, now the temperature of mixed gas obtains reduction to a certain degree, more close to desirable dry saturation state, the energy consumption of two-stage compression then reduces Δ Wc as shown in Figure 8, and when ensureing that refrigerating capacity qo is constant, coefficient of refrigeration ε is also well improved.

Below know-why of the present invention is described in conjunction with specific embodiments.These describe just in order to explain principle of the present invention, and can not be interpreted as limiting the scope of the invention by any way.Based on explanation herein, those skilled in the art does not need to pay performing creative labour can associate other embodiment of the present invention, and these modes all will fall within protection scope of the present invention.

Claims (10)

1. one kind has the centrifugal compressor of cooling structure again, comprise at least both stage impellers (1), Diffuser (2), return channel overcurrent plate (3) and/or return channel (4), described Diffuser (2), the level runner (5) being communicated with adjacent fan-wheel (1) passage is formed between return channel overcurrent plate (3) and return channel (4), it is characterized in that, described Diffuser (2) and return channel (4) are provided with cooling channel (6) near the side of level runner (5), this cooling channel comprises liquid entering hole and liquid outlet (14), be respectively used to refrigerant enter, discharge cooling channel (6).

2. the centrifugal compressor again with cooling structure according to claim 1, it is characterized in that, described Diffuser (2) and return channel (4) are provided with spiral chute (7) or planar slot (8) on the surface of level runner (5), the side that described Diffuser (2) and return channel (4) have spiral chute (7) or planar slot (8) is provided with heat exchange cover plate (9), described spiral chute (7) or form cooling channel (6) between planar slot (8) and heat exchange cover plate (9).

3. the centrifugal compressor again with cooling structure according to claim 2, is characterized in that, the cross section of described spiral chute (7) is rectangle or circular arc; Described planar slot (8) is circular or square structure.

4. the centrifugal compressor again with cooling structure according to claim 2, it is characterized in that, described Diffuser (2) is vaneless diffuser or vane diffuser, and the thickness being arranged at the heat exchange cover plate (9) on vaneless diffuser is 2-3mm; The thickness being arranged at the heat exchange cover plate (9) of vane diffuser is 3-5mm, and the blade (10) of vane diffuser is arranged on the end face of heat exchange cover plate (9).

5. the centrifugal compressor again with cooling structure according to claim 1, is characterized in that, comprises the liquid entering hole that at least one is communicated with described cooling channel (6).

6. the centrifugal compressor again with cooling structure according to claim 1, it is characterized in that, described cooling channel (6) is provided with two liquid entering holes, it is respectively the first liquid entering hole (11) and the second liquid entering hole (12), described first liquid entering hole (11) is communicated with the cooling channel (6) being positioned at Diffuser (2) side, described second liquid entering hole (12) is communicated with the cooling channel (6) being positioned at return channel (4) side, and described first liquid entering hole (11) and the second liquid entering hole (12) are arranged near gas supplementing opening (13).

7. the centrifugal compressor again with cooling structure according to claim 1, it is characterized in that, also comprise the flow monitoring device for monitoring a grade runner (5) interior mixed gas flow, for controlling the control valve of fluid flow and liquid entering hole opening and closing in liquid entering hole, and control gear, the opening and closing of level runner (5) interior mixed gas flow numerical control liquid entering hole that described control gear is monitored according to flow monitoring device and the flow of liquid entering hole liquid.

8. the centrifugal compressor again with cooling structure according to claim 1, is characterized in that, described liquid entering hole is with condenser, be communicated with throttling arrangement or economizer, and described liquid outlet (14) is connected with the low-voltage equipment of coolant circulating system.

9. the centrifugal compressor again with cooling structure according to claim 8, is characterized in that, described liquid entering hole is communicated with condenser, and described liquid entering hole place or the connecting pipeline between liquid entering hole and condenser are provided with throttling arrangement.

10. the centrifugal compressor again with cooling structure according to claim 1, is characterized in that, described liquid entering hole is arranged on the top of cooling channel (6), and liquid outlet (14) is arranged on the bottom of cooling channel (6).