CN201621894U - High-efficient screw-type auto-cascade refrigerating system - Google Patents

Abstract

The utility model discloses a high-efficient screw-type auto-cascade refrigerating system, which comprises a screw-type refrigerating compressor, a condenser, a gas-liquid separator, a first throttling element, a condensation evaporator, a second throttling element and an evaporator, wherein the screw-type refrigerating compressor is used for two-component mixed refrigerant to run circularly. The high-efficient screw-type auto-cascade refrigerating system is characterized in that an economizer gas inlet is disposed on the screw-type refrigerating compressor, an economizer assembly is disposed between a liquid outlet of the gas-liquid separator and the first throttling element or/and a high-pressure liquid outlet of the condensation evaporator and the second throttling element, and the economizer assembly mainly consists of an auxiliary throttling element and an economizer. By utilizing the economizer gas inlet of the screw-type refrigerating compressor, the high-efficient screw-type auto-cascade refrigerating system reclaims a small portion of gas of the refrigerant which is throttled and evaporated in the economizer, lowers temperature of liquid of the refrigerant at a boiling point directly or indirectly, can obviously increase refrigerating output and refrigerating coefficients of the overall system under a work condition of lower temperature, and is extremely suitable for upgrading and updating remolding of the existing screw-type auto-cascade refrigerating system in low cost.

Description

High-efficiency screw-type auto-cascading refrigeration system

Technical field

The utility model relates to the refrigeration system of ultralow temperature and big refrigerating capacity, refers to a kind of high-efficiency screw-type auto-cascading refrigeration system particularly.

Background technology

At industry or commercial fields such as oil, chemical industry, pharmacy, military project, electronics and food, in order to satisfy production technology and scientific research deep cooling low temperature requirement to environment, generally adopt the screw cascade refrigeration system to obtain bigger refrigerating capacity and lower evaporating temperature, generally be used for obtaining-60 ℃～-125 ℃ low temperature.Traditional screw cascade refrigeration system is made up of high temperature level refrigeration system and two parts of low temperature level refrigeration system usually, warm cold-producing medium during high temperature level refrigeration system is used, low temperature level refrigeration system is used low-temperature refrigerant, and each part all is a complete single stage screw formula compression refrigerating system.In high temperature level refrigeration system, the evaporation of middle temperature cold-producing medium is to be used for making low-temperature refrigerant condensation in the low temperature level refrigeration system, and has only low-temperature refrigerant just can produce cold when evaporation.The shared condenser/evaporator of above-mentioned high temperature level refrigeration system and low temperature level refrigeration system, it is the evaporimeter of high temperature level refrigeration system, is again the condenser of low temperature level refrigeration system.Because traditional screw cascade refrigeration system needs two special screw compressors, thereby there are defectives such as complex structure, control is loaded down with trivial details, reliability is low, cooling rate is slow, floor space is big, cost is higher in it, can not adapt to market to the deep cooling requirement of low temperature, increasing industry is used screw-type auto-cascading refrigeration system instead and is obtained deep cooling low temperature.

At present, existing screw-type auto-cascading refrigeration system is the refrigeration system of two yuan of mix refrigerant working medium of a kind of employing, it adopts the screw type refrigerating compressor of a routine, method by natural separation, two-stage overlapping realizes overlapping between higher boiling working medium and low boiling working fluid, reach the purpose of obtaining low temperature.It is shown in Figure 1 that its structure such as this Figure of description partly provide, and mainly is made up of parts such as the screw type refrigerating compressor 1 that is used for two yuan of mix refrigerant circular flows, condenser 2, gas-liquid separator 3, first throttle element 4, condenser/evaporator 5, second restricting element 6 and evaporimeters 7.Its kind of refrigeration cycle is: screw type refrigerating compressor 1 sucks two kinds of mixed non-azeotropic refrigerants from evaporimeter 7 and condenser/evaporator 5, enter after this mix refrigerant is compressed in the condenser 2, the higher boiling refrigerant liquid that is condensed is admitted in the gas-liquid separator 3 (double as liquid reservoir) with the low boiling point refrigerant gas that is not condensed and separates; The higher boiling refrigerant liquid flashes to gas by behind the first throttle element 4 in condenser/evaporator 5, sucked by screw type refrigerating compressor 1 then; Low boiling point refrigerant gas then is condensed into liquid in condenser/evaporator 5, by behind second restricting element 6, flash to gas in evaporimeter 7 again, realizes still being sucked by screw type refrigerating compressor 1 after system's refrigerating capacity, thereby finishes from the overlapping kind of refrigeration cycle.

Above-mentioned screw-type auto-cascading refrigeration system is a characteristic of having utilized mixed non-azeotropic refrigerant working medium to be showed under the condition that the each component boiling point differs greatly, adopt phase separator to realize the shunting of mixed working fluid, the incompatible realization of particular group by parts such as condenser/evaporator 5 and evaporimeters 7 circulates from overlapping, startup operating mode during its operation, pressure at expulsion, delivery temperature all within the scope that conventional single stage screw formula refrigeration compressor allows, has simple in structure with respect to traditional screw cascade refrigeration system, control is convenient, the reliability height, security is good, life-span is long, a series of advantages such as cost is low.But, because conventional screw type refrigerating compressor is along with the progressively reduction of operation evaporating temperature, particularly working as evaporating temperature reaches after-40 ℃, the ratio of its pressure at expulsion and pressure of inspiration(Pi) will reach about 20, cause that its volumetric efficiency is on the low side, refrigerating capacity and coefficient of performance of refrigerating descends, the economy variation, and then limited screw-type auto-cascading refrigeration system promoting the use of in industry and commerce cryogenic refrigeration field.

Summary of the invention

The purpose of this utility model is exactly that a kind of high-efficiency screw-type auto-cascading refrigeration system that can significantly improve refrigerating capacity and coefficient of refrigerating performance under worst cold case will be provided.

For achieving the above object, the high-efficiency screw-type auto-cascading refrigeration system that the utility model is designed, comprise the screw type refrigerating compressor that is used for two yuan of mix refrigerant circular flows, condenser, gas-liquid separator, the first throttle element, condenser/evaporator, second restricting element and evaporimeter, the exhaust outlet of screw type refrigerating compressor links to each other with the input of condenser, the output of condenser links to each other with the gas-liquid mixed import of gas-liquid separator, the gas vent of gas-liquid separator links to each other with the high pressure gas import of condenser/evaporator, the liquid outlet of gas-liquid separator links to each other with the low pressure supply opening of condenser/evaporator by the first throttle element, the high pressure liquid outlet of condenser/evaporator links to each other with the input of evaporimeter by second restricting element, the low pressure return-air mouth of condenser/evaporator and the output of evaporimeter link to each other with the air entry of screw type refrigerating compressor simultaneously, its special character is: screw type refrigerating compressor is provided with the economizer gas supplementing opening, between the liquid outlet of gas-liquid separator and the first throttle element or/and between the high pressure liquid outlet of condenser/evaporator and second restricting element, be provided with the economizer assembly, the low pressure return-air mouth of described economizer assembly links to each other with the economizer gas supplementing opening of screw type refrigerating compressor.

Further, the economizer assembly that is provided with between the liquid outlet of gas-liquid separator and first throttle element is made of first assistant throttle component and first economizer, the liquid outlet of gas-liquid separator is divided into two-way, one the tunnel directly links to each other with the high pressure inlet of first economizer, another road links to each other with the low pressure supply opening of first economizer by first assistant throttle component, the high pressure liquid outlet of first economizer links to each other with the low pressure supply opening of condenser/evaporator by the first throttle element, and the low pressure return-air mouth of first economizer links to each other with the economizer gas supplementing opening of screw type refrigerating compressor.

Further, the economizer assembly that is provided with between the outlet of the high pressure liquid of condenser/evaporator and second restricting element is made of second assistant throttle component and second economizer, the high pressure liquid outlet of condenser/evaporator is divided into two-way, one the tunnel directly links to each other with the high pressure inlet of second economizer, another road links to each other with the low pressure supply opening of second economizer by second assistant throttle component, the high pressure liquid outlet of second economizer links to each other with the input of evaporimeter by second restricting element, and the low pressure return-air mouth of second economizer links to each other with the economizer gas supplementing opening of screw type refrigerating compressor.

The operation principle of economizer assembly is directly not pass through restricting element from the condensed fluid that condenser or liquid reservoir come out, but at first enter further cooling in the economizer, refrigerant liquid temperature after coming out tens of degree that can descend, thus significantly improve the refrigerating capacity and the coefficient of refrigerating performance of refrigeration system.The cooling of refrigerant liquid is the low pressure refrigerant liquid that enters after the throttling of dependence assistant throttle component in the economizer in the economizer, it absorbs the heat of high pressure refrigerant liquid and evaporates, and the low pressure refrigerant gas that is evaporated is sent back in the screw type refrigerating compressor recycling.The utility model improves existing screw-type auto-cascading refrigeration system, with the economizer component application in its two yuan of mix refrigerant circulation process structures, be used with the screw type refrigerating compressor of band economizer gas supplementing opening, its advantage is can be directly or/and reduce the temperature of low boiling point refrigerant condensed fluid indirectly, make the low boiling point refrigerant condensed fluid produce degree of supercooling, thereby increase substantially the refrigerating capacity and the coefficient of refrigerating performance of native system.And evaporating temperature is lower, and the refrigeration of native system more obviously is particularly suitable for economical operation under lower evaporating temperature.Simultaneously, native system is compared with the twin-stage compression refrigeration circulatory system, not only greatly simplification of structure, reliability and security is higher, floor space is less, manufacturing cost declines to a great extent, and operational effect is suitable with the twin-stage compression refrigeration circulatory system, very economic and practical.

Description of drawings

Fig. 1 is the structural representation of existing screw-type auto-cascading refrigeration system;

Fig. 2 is the structural representation of the utility model embodiment 1 described high-efficiency screw-type auto-cascading refrigeration system;

Fig. 3 is the structural representation of the utility model embodiment 2 described high-efficiency screw-type auto-cascading refrigeration systems;

Fig. 4 is the structural representation of the utility model embodiment 3 described high-efficiency screw-type auto-cascading refrigeration systems.

The specific embodiment

Below in conjunction with the drawings and specific embodiments high-efficiency screw-type auto-cascading refrigeration system of the present utility model is described in further detail:

Existing screw-type auto-cascading refrigeration system shown in Figure 1, main by the screw type refrigerating compressor 1 that is used for two yuan of mix refrigerant circular flows, condenser 2, gas-liquid separator 3, first throttle element 4, condenser/evaporator 5, second restricting element 6 and evaporimeter 7 are formed, its concrete structure is as follows: the exhaust outlet of screw type refrigerating compressor 1 links to each other with the input of condenser 2, the output of condenser 2 links to each other with the gas-liquid mixed import of gas-liquid separator 3, the gas vent of gas-liquid separator 3 links to each other with the high pressure gas import of condenser/evaporator 5, the liquid outlet of gas-liquid separator 3 links to each other with the low pressure supply opening of condenser/evaporator 5 by first throttle element 4, the high pressure liquid outlet of condenser/evaporator 5 links to each other with the input of evaporimeter 7 by second restricting element 6, and the low pressure return-air mouth of condenser/evaporator 5 and the output of evaporimeter 7 link to each other with the air entry of screw type refrigerating compressor 1 simultaneously.Its course of work background technology is in front partly described in detail, repeats no more in this.

The high-efficiency screw-type auto-cascading refrigeration system of the utility model embodiment 1 shown in Figure 2, its main part and structure shown in Figure 1 are basic identical.Its difference is: screw type refrigerating compressor 1 is provided with the economizer gas supplementing opening, between the liquid outlet of gas-liquid separator 3 and first throttle element 4, be provided with the economizer assembly, this economizer assembly is made of first assistant throttle component 8 and first economizer 9, the liquid outlet of gas-liquid separator 3 is divided into two-way, one the tunnel directly links to each other with the high pressure inlet of first economizer 9, another road links to each other with the low pressure supply opening of first economizer 9 by first assistant throttle component 8, the high pressure liquid outlet of first economizer 9 links to each other with the low pressure supply opening of condenser/evaporator 5 by first throttle element 4, and the low pressure return-air mouth of first economizer 9 then links to each other with the economizer gas supplementing opening of screw type refrigerating compressor 1.

The operation principle of the foregoing description 1 is to reduce the temperature of low boiling point refrigerant liquid indirectly by the temperature that reduces the higher boiling refrigerant liquid, thereby obtains bigger refrigerating capacity and coefficient of refrigerating performance.Its running is as follows: screw type refrigerating compressor 1 sucks two kinds of mixed non-azeotropic refrigerants from evaporimeter 7 and condenser/evaporator 5, enter after this mix refrigerant is compressed in the condenser 2, the higher boiling refrigerant liquid that is condensed is admitted in the gas-liquid separator 3 with the low boiling point refrigerant gas that is not condensed and separates.Isolated higher boiling refrigerant liquid splits into two parts again, wherein a part directly enters first economizer 9, another part is then by entering first economizer 9 again after first assistant throttle component 8, the latter absorb the former heat and explosive evaporation, the higher boiling refrigerant gas after the evaporation is transported to the economizer gas supplementing opening of screw type refrigerating compressor 1; Meanwhile, the former after reducing temperature, flows to first throttle element 4 emitting heat, by entering condenser/evaporator 5 after first throttle element 4 decompression, is sucked by screw type refrigerating compressor 1 after flashing to gas.Isolated low boiling point refrigerant gas directly enters condenser/evaporator 5, be condensed into low boiling point refrigerant liquid after, enter in the evaporimeter 7 by second restricting element 6 again and flash to gas, realize being sucked by screw type refrigerating compressor 1 after system's refrigerating capacity.

The high-efficiency screw-type auto-cascading refrigeration system of the utility model embodiment 2 shown in Figure 3, its main part and structure shown in Figure 1 are basic identical.Its difference is: screw type refrigerating compressor 1 is provided with the economizer gas supplementing opening, between the outlet of the high pressure liquid of condenser/evaporator 5 and second restricting element 6, be provided with the economizer assembly, this economizer assembly is made of second assistant throttle component 10 and second economizer 11, the high pressure liquid outlet of condenser/evaporator 5 is divided into two-way, one the tunnel directly links to each other with the high pressure inlet of second economizer 11, another road links to each other with the low pressure supply opening of second economizer 11 by second assistant throttle component 10, the high pressure liquid outlet of second economizer 11 links to each other with the input of evaporimeter 7 by second restricting element 6, and the low pressure return-air mouth of second economizer 11 links to each other with the economizer gas supplementing opening of screw type refrigerating compressor 1.

The operation principle of the foregoing description 2 is that the temperature by direct reduction low boiling point refrigerant liquid obtains bigger refrigerating capacity and coefficient of refrigerating performance.Its running is as follows: screw type refrigerating compressor 1 sucks two kinds of mixed non-azeotropic refrigerants from evaporimeter 7 and condenser/evaporator 5, enter after this mix refrigerant is compressed in the condenser 2, the higher boiling refrigerant liquid that is condensed is admitted in the gas-liquid separator 3 with the low boiling point refrigerant gas that is not condensed and separates.Isolated higher boiling refrigerant liquid enters condenser/evaporator 5 by first throttle element 4, is sucked by screw type refrigerating compressor 1 after flashing to gas.Isolated low boiling point refrigerant gas directly enters in the condenser/evaporator 5, is condensed into low boiling point refrigerant liquid.Low boiling point refrigerant liquid splits into two parts again, wherein a part directly enters second economizer 11, another part is then by entering second economizer 11 again after second assistant throttle component 10, the latter absorb the former heat and explosive evaporation, the low boiling point refrigerant gas after the evaporation is transported to the economizer gas supplementing opening of screw type refrigerating compressor 1; Meanwhile, the former after reducing temperature, flows to second restricting element 6 emitting heat, flashes to gas by entering in the evaporimeter 7 after 6 decompressions of second restricting element, realizes being sucked by screw type refrigerating compressor 1 after system's refrigerating capacity.

The high-efficiency screw-type auto-cascading refrigeration system of the utility model embodiment 3 shown in Figure 4, its main part and structure shown in Figure 1 are basic identical.Its difference is: screw type refrigerating compressor 1 is provided with the economizer gas supplementing opening, between the liquid outlet of gas-liquid separator 3 and first throttle element 4, be provided with the economizer assembly that constitutes by first assistant throttle component 8 and first economizer 9, between the high pressure liquid outlet of condenser/evaporator 5 and second restricting element 6, be provided with the economizer assembly that constitutes by second assistant throttle component 10 and second economizer 11.Embodiment 3 is combined in the economizer assembly among embodiment 1 and the embodiment 2 in the refrigeration system, and its concrete annexation has been made detailed description in embodiment 1 and embodiment 2, no longer repeat in this.

The operation principle of the foregoing description 3 is to reduce the temperature of low boiling point refrigerant liquid by indirect with the mode that directly combines, thereby obtains bigger refrigerating capacity and coefficient of refrigerating performance.Its running is as follows: screw type refrigerating compressor 1 sucks two kinds of mixed non-azeotropic refrigerants from evaporimeter 7 and condenser/evaporator 5, enter after this mix refrigerant is compressed in the condenser 2, the higher boiling refrigerant liquid that is condensed is admitted in the gas-liquid separator 3 with the low boiling point refrigerant gas that is not condensed and separates.

Isolated higher boiling refrigerant liquid splits into two parts again, wherein a part directly enters first economizer 9, another part is then by entering first economizer 9 again after first assistant throttle component 8, the latter absorb the former heat and explosive evaporation, the higher boiling refrigerant gas after the evaporation is transported to the economizer gas supplementing opening of screw type refrigerating compressor 1; Meanwhile, the former after reducing temperature, flows to first throttle element 4 emitting heat, by entering condenser/evaporator 5 after first throttle element 4 decompression, is sucked by screw type refrigerating compressor 1 after flashing to gas.

Isolated low boiling point refrigerant gas directly enters in the condenser/evaporator 5, is condensed into low boiling point refrigerant liquid.Low boiling point refrigerant liquid splits into two parts again, wherein a part directly enters second economizer 11, another part is then by entering second economizer 11 again after second assistant throttle component 10, the latter absorb the former heat and explosive evaporation, the low boiling point refrigerant gas after the evaporation is transported to the economizer gas supplementing opening of screw type refrigerating compressor 1; Meanwhile, the former after reducing temperature, flows to second restricting element 6 emitting heat, flashes to gas by entering in the evaporimeter 7 after 6 decompressions of second restricting element, realizes being sucked by screw type refrigerating compressor 1 after system's refrigerating capacity.

In the foregoing description 1～3, selecting the JLG20III type screw type refrigerating compressor of band economizer gas supplementing opening for use is refrigeration host computer, and its theoretical displacement is 1120m ³/ h, adopting R22 and R23 is mix refrigerant, filled mass percent is respectively 0.65 and 0.35, be equipped with other refrigeration subsidiary engine and form complete high-efficiency screw-type auto-cascading refrigeration system, first throttle element 4, second restricting element 6, first assistant throttle component 8 and second assistant throttle component 10 wherein all can adopt conventional choke valve such as mechanical throttle, pneumatic throttle, heating power expansion valve or electric expansion valve etc.Be respectively-60 ℃ ,-65 ℃ ,-70 ℃ ,-75 ℃ and-80 ℃ in evaporating temperature, condensation temperature is under five kinds of cryogenic refrigeration operating modes of+35 ℃, and refrigerating capacity and the coefficient of refrigerating performance of embodiment 1～3 compared test, and the result is as shown in table 1:

The refrigerating capacity of table 1: embodiment 1～3 and coefficient of refrigerating performance contrast test

From the test data of table 1 as can be seen: under the same low temperature cooling condition, the refrigerating capacity of the utility model embodiment 1～3 and refrigeration system are all than existing screw-type auto-cascading refrigeration system height, and reduction gradually along with low boiling point refrigerant R23 condensed fluid temperature among the embodiment 1～3, its refrigerating capacity and coefficient of refrigerating performance all increase gradually, illustrate that high-efficiency screw-type auto-cascading refrigeration system of the present utility model can significantly improve refrigerating capacity and coefficient of refrigerating performance under worst cold case.

Claims (3)

1. high-efficiency screw-type auto-cascading refrigeration system, comprise the screw type refrigerating compressor (1) that is used for two yuan of mix refrigerant circular flows, condenser (2), gas-liquid separator (3), first throttle element (4), condenser/evaporator (5), second restricting element (6) and evaporimeter (7), the exhaust outlet of screw type refrigerating compressor (1) links to each other with the input of condenser (2), the output of condenser (2) links to each other with the gas-liquid mixed import of gas-liquid separator (3), the gas vent of gas-liquid separator (3) links to each other with the high pressure gas import of condenser/evaporator (5), the liquid outlet of gas-liquid separator (3) links to each other with the low pressure supply opening of condenser/evaporator (5) by first throttle element (4), the high pressure liquid outlet of condenser/evaporator (5) links to each other with the input of evaporimeter (7) by second restricting element (6), the low pressure return-air mouth of condenser/evaporator (5) links to each other with the air entry of screw type refrigerating compressor (1) with the output of evaporimeter (7) simultaneously, it is characterized in that: screw type refrigerating compressor (1) is provided with the economizer gas supplementing opening, between the liquid outlet of gas-liquid separator (3) and the first throttle element (4) or/and between the high pressure liquid outlet of condenser/evaporator (5) and second restricting element (6), be provided with the economizer assembly, the low pressure return-air mouth of described economizer assembly links to each other with the economizer gas supplementing opening of screw type refrigerating compressor (1).

2. high-efficiency screw-type auto-cascading refrigeration system according to claim 1, it is characterized in that: the economizer assembly that is provided with between the liquid outlet of gas-liquid separator (3) and first throttle element (4) is by first assistant throttle component (8) and first economizer (9) formation, the liquid outlet of gas-liquid separator (3) is divided into two-way, one the tunnel directly links to each other with the high pressure inlet of first economizer (9), another road links to each other with the low pressure supply opening of first economizer (9) by first assistant throttle component (8), the high pressure liquid outlet of first economizer (9) links to each other with the low pressure supply opening of condenser/evaporator (5) by first throttle element (4), and the low pressure return-air mouth of first economizer (9) links to each other with the economizer gas supplementing opening of screw type refrigerating compressor (1).

3. high-efficiency screw-type auto-cascading refrigeration system according to claim 1 and 2, it is characterized in that: the economizer assembly that is provided with between the outlet of the high pressure liquid of condenser/evaporator (5) and second restricting element (6) is by second assistant throttle component (10) and second economizer (11) formation, the high pressure liquid outlet of condenser/evaporator (5) is divided into two-way, one the tunnel directly links to each other with the high pressure inlet of second economizer (11), another road links to each other with the low pressure supply opening of second economizer (11) by second assistant throttle component (10), the high pressure liquid outlet of second economizer (11) links to each other with the input of evaporimeter (7) by second restricting element (6), and the low pressure return-air mouth of second economizer (11) links to each other with the economizer gas supplementing opening of screw type refrigerating compressor (1).

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