CN205561332U - Refrigerating system is carried to natural gas compressor - Google Patents

Abstract

The utility model discloses a refrigerating system is carried to natural gas compressor. Wherein, this refrigerating system includes: constitute by firing the formula of driving compressor unit system, flue gas recovery system, cooling unit, natural gas cooling system etc. There is a large amount of high temperature flue gases in the tail gas that natural gas station internal combustion drove after the burning of formula compressor, and the flue gas directly discharges, has wasted a large amount of heat energy on the one hand, and on the other hand has caused the thermal pollution to the environment again. If adopt appropriate technique, abundant recycle high temperature flue gas waste heat carries out the heat transfer refrigeration, can practice thrift a large amount of energy consumptions. Adopt the absorbed refrigeration technique, can make of high temperature used heat and drive the power supply, produce 7~12 DEG C low temperature cold water, supply with and fire the use of the formula of driving compressor unit cooling circulation system, improve at different levels the temperature rising phenomenons of the natural gas after the compression. The target of energy -concerving and environment -protective rational utilization high temperature flue gas has been realized.

Description

Natural gas compressor transport refrigeration system

Technical field

This utility model relates to flue gas refrigeration technology field, divides defeated station, natural gas to increase in particular to long-distance transport pipes A kind of natural gas compressor conveying system of off-gas recovery refrigeration occasion is utilized in the yard such as pressure station, urban gate station, gas storage Cooling system.

Background technology

Currently, it is low that China's utilization of energy remains utilization ratio, deficiency in economic performance, and eco-environmental pressure is big waits master Want problem, energy-saving and emission-reduction, reduce energy consumption, improve comprehensive utilization of energy rate as energy development strategical planning important in Hold, be the fundamental way solving energy problem of China, be in the status first developed.

Realize energy-saving and emission-reduction, the target of raising energy utilization rate relies primarily on industrial circle.It is in industrialization middle and late stage rank The China of section, industry is main power consumption field, is also the primary discharge source polluted.China's industrial circle energy resource consumption Amount accounts for the 70% of whole nation energy resource consumption total amount, and major industrial product specific energy consumption average specific international most advanced level exceeds 30% Left and right.In addition to production technology relatively backwardness, the irrational factor of the industrial structure, industrial exhaust heat utilization rate is low, the energy The most fully being comprehensively utilized the major reason being to cause energy consumption high, China's energy utilization rate is only about 33%, than Developed country is low by about 10%, and the industrial consumption energy of at least 50% waste heat in a variety of manners is directly discarded, therefore from another Angle is seen, China's industrial waste heat resource enriches, and is widely present in industry every profession and trade production process, and residual heat resources account for The 17%-67% of its fuel consumption total amount, wherein can reach 60% with the response rate, and utilization rate of waste heat room for promotion is big, energy-conservation Having a high potential, it is considered as again a kind of new forms of energy that industrial afterheat recovery utilizes.

Along with natural gas is gone to the capital, transferred natural gas from the west to the east, natural gas has shown that the effect become more and more important in urban energy system. Urban Reasonable utilize an important use of natural gas be development cooling heating and power generation system, it by gas utilization, generating, Refrigeration and heating technology combine, have that efficiency of energy utilization is high, realize energy resource consumption seasonal balancing, environmental protection with And ensure the urban energy advantage such as safely.

Flue gas refrigeration machine is with heat energy as power, and power consumption is less, and less demanding to thermal source.Various low gesture can be utilized Heat energy and the comprehensive utilization of flue gas, waste vapour, used heat, beneficially thermal source.There is well economize on electricity, energy-saving effect, warp Ji property is good.

Absorption refrigeration is a kind of Refrigeration Technique utilizing heat-driven, by the strong suction to water of the working medium under low pressure Adduction, makes water produce evaporation endothermic refrigeration in systems, and the working medium solution after absorption makes aqueous vapor by high temperature heat Change and separate from solution, then realized the circulation of water by condensation, be finally reached refrigeration target.

For in correlation technique combustion drive formula gas compressor set run in high temperature environments time, due to compressor air-discharging temperature Degree and air cooler chilling temperature raise the problem causing frequent shutdown, the most not yet propose effective solution.

Utility model content

This utility model embodiment provides a kind of natural gas compressor transport refrigeration system, at least to solve correlation technique Middle combustion drives formula gas compressor set when running in high temperature environments, owing to compressor exhaust temperature and air cooler cool down temperature Degree raises the technical problem causing frequent shutdown.

An aspect according to this utility model embodiment, it is provided that a kind of natural gas compressor transport refrigeration system, by Formula compressor unit system, flue gas waste heat recovery system, cold and heat combined supply unit, natural gas cooling system composition are driven in combustion.

Further, arranging flue gas recovery device between gas turbine exhaust gas discharge tube and chimney, wherein, combustion gas is taken turns Tail gas pipeline is connected with flue gas three-way valve, and flue gas three-way valve is connected with chimney, flue gas recovery device pipeline, and flue gas returns Receiving apparatus is connected with chimney, collectively constitutes high-temperature flue gas residual neat recovering system.

Further, between flue gas recovery device and cold and heat combined supply unit, Heat-transfer Oil Pump, conduction oil expansion tank, pipeline connects Connect, form Heat-conduction oil circulation system.

Further, cold and heat combined supply unit is connected with heat exchanger, circulating pump pipeline, heat exchanger and air cooler pipeline Parallel connection, forms natural gas cooling system.

Further, cooling water circulating pump and cooling tower belong to the auxiliary equipment of cold and heat combined supply unit.

Another aspect according to this utility model embodiment, it is provided that a kind of natural gas compressor transport refrigeration system, Including: flue gas recovery device, it is serially connected between gas turbine and chimney, for reclaiming the high temperature cigarette of discharge of gas turbine Gas, wherein, gas turbine is used for driving natural gas compressor to be compressed natural gas；Refrigeration system, returns with flue gas Receiving apparatus is connected, and freezes for absorbing the heat of high-temperature flue gas in flue gas recovery device, wherein, and high-temperature flue gas It is changed into low-temperature flue gas via smoke stack emission after being absorbed heat by refrigeration system；And heat exchanger, it is connected with refrigeration system Connecing, and be connected in parallel on the two ends of air cooler, the cold for utilizing refrigeration system to export replaces air cooler to via natural gas High-temperature natural gas after compressor compresses cools down, and wherein, air cooler is connected with natural gas compressor, for right High-temperature natural gas after compressing via natural gas compressor cools down.

Further, this refrigeration system also includes: Heat-conduction oil circulation system, respectively with flue gas recovery device and refrigeration system System is connected, for utilizing conduction oil to absorb the heat of high-temperature flue gas in flue gas recovery device, and the heat that will absorb It is delivered to refrigeration system.

Further, Heat-conduction oil circulation system includes: heat conduction oil circulating pump, is connected with flue gas recovery device, is used for Low temperature conduction oil is delivered to flue gas recovery device, and wherein, low temperature conduction oil absorbs high temperature cigarette via flue gas recovery device The heat of gas becomes high temperature heat conductive oil to be transmitted to refrigeration system；Conduction oil expansion tank, respectively with heat conduction oil circulating pump and system Cooling system is connected, for housing or compensate the breathing amount of conduction oil in Heat-conduction oil circulation system, wherein, refrigeration system For utilizing the heat of high temperature heat conductive oil to freeze, high temperature heat conductive oil is via becoming low temperature conduction oil stream after refrigeration system Enter heat conduction oil circulating pump.

Further, refrigeration system include being sequentially connected connect circulating pump, solution heat exchanger, generator, condenser, Expansion valve, vaporizer and absorber, wherein, cold-producing medium is entered solution heat exchanger by circulating pump and carries out heat exchange, changes Refrigerator after heat enters the heat of generator absorption high temperature heat conductive oil and becomes high temperature and high pressure steam, high temperature and high pressure steam warp Being become low temperature and low pressure steam inflow absorber from condenser, expansion valve and vaporizer, wherein, low temperature and low pressure steam is being inhaled Receipts device is changed into liquid and again flows into solution heat exchanger via circulating pump.

Further, heat exchanger is connected with absorber and condenser respectively, and wherein, the cold water of condenser output passes through Cold water circulation pump inflow heat exchanger, heat exchanger is for utilizing the cold water of inflow to the height after compressing via natural gas compressor Temperature natural gas cools down, and wherein, cold water is via becoming hot water inflow absorber after heat exchanger.

Further, this refrigeration system also includes: auxiliary cooling device, is connected with refrigeration system, for refrigeration Cold-producing medium in system cools down.

Further, auxiliary cooling device includes: cooling tower, is connected with vaporizer, in refrigeration system Cold-producing medium cool down；Refrigerant cycle pump, is connected with cooling tower and vaporizer respectively, and being used for will be through supercooling Cold-producing medium after tower cooler is delivered to vaporizer.

Further, this refrigeration system also includes: reuse means, is connected with the condenser in refrigeration system, uses The high-temperature medium become after the heat absorption of cooling medium in the condenser of discharge in refrigeration system process of refrigerastion carries out profit again With.

Further, this refrigeration system also includes: three-way valve, respectively with gas turbine, chimney, flue gas recovery device It is connected, for the fume emission path being made up of gas turbine and chimney and by gas turbine, flue gas recovery device And the fume emission path of chimney composition carries out parallel connection.

Further, heat exchanger two ends are respectively arranged with valve.

The purpose of this utility model is to provide a kind of natural gas compressor to carry energy-conservation Technology, and combustion is driven formula compression Unit and flue gas waste heat recovery refrigeration system combine, and reduce high-temperature flue gas discharge, solve again simultaneously Natural gas temperature after compression raises problem, effectively reduces operation cost.Technology to be solved in the utility model is asked Topic is: summer environment temperature is higher, and combustion is driven formula compressor bank and run the most in high temperature environments, compressor air-discharging occurs Temperature and air cooler chilling temperature raise, and cause high frequent to shut down, and cause the equipment cannot the skill of smooth long term running Art problem.

In this utility model embodiment, natural gas compressor transport refrigeration system includes: flue gas recovery device, concatenation Between gas turbine and chimney, for reclaiming the high-temperature flue gas of discharge of gas turbine, wherein, gas turbine is used for driving Natural gas is compressed by dynamic natural gas compressor；Refrigeration system, is connected with flue gas recovery device, is used for absorbing cigarette In gas recovering device, the heat of high-temperature flue gas freezes, and wherein, high-temperature flue gas changes after being absorbed heat by refrigeration system For low-temperature flue gas via smoke stack emission；And heat exchanger, it is connected with refrigeration system, and is connected in parallel on the two ends of air cooler, Cold for utilizing refrigeration system to export replaces air cooler to enter the high-temperature natural gas after compressing via natural gas compressor Row cooling, wherein, air cooler is connected with natural gas compressor, for the height after compressing via natural gas compressor Temperature natural gas cools down, and drives the heat of the high-temperature flue gas that formula gas compressor set produces by reclaiming combustion, and utilizing should Heat carries out refrigeration and replaces air cooler to cool down the high-temperature natural gas after compressing via gas compressor set, reaches During natural gas transmission, combustion is driven and formula gas compressor set reduces natural gas compressor and air cooler temperature Purpose, and then reached to improve combustion and drive the technique effect of formula gas compressor set stability, and then solve relevant skill In art, combustion drives formula gas compressor set when running in high temperature environments, owing to compressor exhaust temperature and air cooler cool down Temperature raises the technical problem causing frequent shutdown.

Accompanying drawing explanation

Accompanying drawing described herein is used for providing being further appreciated by of the present utility model, constitutes the part of the application, Schematic description and description of the present utility model is used for explaining this utility model, is not intended that of the present utility model Improper restriction.In the accompanying drawings:

Fig. 1 is the schematic diagram that formula gas compressor set structure is driven in a kind of combustion according to prior art；

Fig. 2 is the schematic diagram of the natural gas compressor transport refrigeration system according to this utility model embodiment.

Detailed description of the invention

In order to make those skilled in the art be more fully understood that this utility model scheme, real below in conjunction with this utility model Execute the accompanying drawing in example, the technical scheme in this utility model embodiment is clearly and completely described, it is clear that institute The embodiment described is only the embodiment of this utility model part rather than whole embodiments.Based on this practicality Embodiment in novel, those of ordinary skill in the art obtained under not making creative work premise all its His embodiment, all should belong to the scope of this utility model protection.

It should be noted that term " first " in specification and claims of the present utility model and above-mentioned accompanying drawing, " second " etc. are for distinguishing similar object, without being used for describing specific order or precedence.Should manage Solve the data so used can exchange in the appropriate case, in order to embodiment of the present utility model described herein can Implement with the order in addition to those here illustrating or describing.Additionally, term " includes " and " having " with And their any deformation, it is intended that cover non-exclusive comprising, such as, contain a series of unit process, System, product or equipment are not necessarily limited to those unit clearly listed, but can include the most clearly listing or For other unit that these processes, product or equipment are intrinsic.

Embodiment 1

The purpose of this utility model is to provide a kind of natural gas compressor to carry energy-conservation Technology, and combustion is driven formula compression Unit and flue gas waste heat recovery refrigeration system combine, and reduce high-temperature flue gas discharge, solve again simultaneously Natural gas temperature after compression raises problem, effectively reduces operation cost.Technology to be solved in the utility model is asked Topic is: summer environment temperature is higher, and combustion is driven formula compressor bank and run the most in high temperature environments, compressor air-discharging occurs Temperature and air cooler chilling temperature raise, and cause high frequent to shut down, and cause the equipment cannot the skill of smooth long term running Art problem.

1. raw natural gas station internal combustion drives formula compressor operation

Former combustion is driven formula compressor and is mainly made up of gas turbine, compressor, air cooler, fume emission etc..Its technique mistake Journey combines Fig. 1 and is described as follows:

Carry out the natural gas to the pipe network of natural gas upstream door station, initially enter natural gas compressor 3, in one-level cylinder Being compressed, the natural gas after compression enters one-level air cooler 4, separator carries out refrigerated separation；Sky after separation So gas is compressed in secondary cylinder again, and the natural gas after compression enters two grades of air coolers 4, separators and cools down Separate；Natural gas after separation is compressed in three-stage cylinder again, and (pressure enters three grades of skies to the natural gas after compression Cooler 4, separator carry out refrigerated separation；Downstream pipe network or natural gas gas storage it is passed to outside natural gas after separation.

2. the harm of compressor bank excessive discharge temperature

Natural gas compressor runs for a long time under high exhaust temperature serious harm to unit: first, glossy for having Sliding compressor bank, excessive discharge temperature, lubricating oil viscosity can be made to reduce, penalty, accelerates the decomposition of lubricating oil Or rotten, at cylinder wall, air valve and cylinder channel inwall carbon deposit, cause air valve to be not closed completely and make compressor efficiency reduce. Second, the easy aged deterioration of metal material element and the deformation such as the piston ring of compressor, support ring and airtight and watertight padding, fall Its service life low.Then maintenance workload and maintenance cost are added.3rd, the potted component such as piston ring and filler Being susceptible to damage and leakage, cause capacity to decline, if conveying is explosion hazard gases, the gas leaked out is with empty Gas mixes, and the concentration that reaches capacity will cause exploding and firing accident, brings tremendous economic to lose to enterprise.

3. the reason that compressor air-discharging is too high

1) the actual compression process of reciprocating compressor can be approximately considered is adiabatic compression, and delivery temperature is based on formula below Calculate:

$T_d=T_s{{\mathrm{\ϵ}}_i}^{\frac{n-1}{n}}---\left(1\right)$

In formula: Td: the delivery temperature of level, K；

The suction temperature of Ts: level, K；

ε_t: compression ratio

${\mathrm{\ϵ}}_t=\frac{P_d}{P_s}$

Pd pressure at expulsion, Ps pressure of inspiration(Pi)

N: compression process gas adiabatic exponent.

Td in formula (1) is adiabatic delivery temperature, and the expection of compressor/actual exhaust air temperature is different from the exhausted of calculating Heat exhausting temperature.It designs with cylinder dimensions and material, cooling jacket, the cooling factor such as water flow velocity and temperature is relevant.

2) reason of big compression ratio

By formula (1) it can be seen that when inlet temperature is identical with adiabatic exponent, compression ratio is the biggest, delivery temperature is just The highest.Entrance at reciprocating compressor would generally be provided with filter, in order to filter out the dust impurities carried secretly in technique. When inlet filter blocks, the inlet pressure of level can be caused to reduce, such compression ratio will increase, delivery temperature liter High.

3) reason that cooling is not enough

Intake air temperature is high or front end Cooler Fault or cooling effect bad, if compression and intake air temperature are high, then gas After body is compressed to, the heat of output is certain, and for same compressor, the delivery temperature of outlet is the highest, Above cooling failure or cooling effect are bad, directly results in inlet temperature and raise.

Compressor casing cooling water interrupts, and cylinder body cooling jacket fouling or cooling effect are bad.Many compressor casings Owing to the cooling water of life-time service is less clean, and it is more to cool down the float carried in water, is deposited in cooling cylinder body Surface, reduces heat-transfer effect, thus the heat causing recirculated water to take away reduces accordingly, cause delivery temperature to raise.

Circulating water temperature is higher or circulating water pressure is low, recirculated water all can be caused to take away heat and reduce, particularly summer The temperature rises, and recirculated water anxiety has this phenomenon to occur often, and delivery temperature also can be made to increase.

4) reason of air valve

Air valve is to control gas to enter the parts of cylinder, and the air valve internal hemorrhage due to trauma caused that is not closed completely is to cause excessive discharge temperature Another main cause, if certain grade of cylinder exhaust valve is not closed completely, then when stopping in cylinder starting air-breathing after aerofluxus, High pressure gas cognition in discharge duct is poured in down a chimney in cylinder.Pour in down a chimney to gas end through supercooling, temperature is the highest, thus This grade of delivery temperature is made drastically to raise.

5) reason of piston ring

Piston ring is the sealing for piston Yu cylinder, and the opened gap of piston ring, back clearance, sideshake are the least, can make to live After plug ring expanded by heating stuck in cylinder, cause cylinder body and piston-ring friction power to increase, produce more frictional heat, Cause excessive discharge temperature.

6) variable parameter operation impact on delivery temperature

In practical operation, it is frequently encountered by operation operating mode inconsistent with the design conditions of compressor, such as inlet and outlet pressure, enters Mouth temperature, the change of compressed media.Same when plant modification, especially through being commonly encountered new operating mode with original design operating mode not Consistent situation.Thus the impact of delivery temperature is just seemed necessary property by research compressor variable parameter operation.

4. technical problem to be solved in the utility model can be achieved through the following technical solutions:

There are a large amount of 300～450 DEG C of high-temperature flue gas in the tail gas after the burning of formula compressor bank is driven in combustion, flue gas directly discharges, and one Aspect wastes substantial amounts of heat energy, on the other hand again environment is caused thermal pollution.If using suitable technology, fill Divide and recycle high-temperature flue gas waste heat, carry out heat exchange refrigeration, substantial amounts of energy consumption can be saved.Use absorption refrigeration skill Art, can do drive force source with high temperature waste hot, produces the low-temperature cold water of 7～12 DEG C, and formula compressor bank is driven in supply combustion Cooling recirculation system uses, and after improving compression, natural gas interstage temperature raises phenomenon.Achieve energy-conserving and environment-protective Appropriate application The target of high-temperature flue gas.

1) a kind of natural gas compressor conveying refrigerated energy-saving Technology, mainly by fume recovery system, conduction oil circulation System, refrigeration system, natural gas cooling system etc. form.Its technical process combines Fig. 2 and is described as follows:

2) a kind of natural gas compressor of the present utility model carries energy-conservation Technology and original gas driven formula compressor pipe Road system is in parallel, and the most a certain process unit situation such as go wrong occurs, and medium can be switched to by robot control system(RCS) automatically On original technique official road, it is ensured that the safety of system.

3) flue gas recovery device system work process: carry out the high-temperature flue gas to gas turbine 2 discharge, regulated by flue gas Valve 5 initially enters flue gas recovery device 6, and the low-temperature flue gas after being exchanged by High Efficiency Thermal is sent into chimney and directly discharged.

4) conduction oil follows system ring work process: low temperature conduction oil is transported to flue gas recovery device by heat conduction oil circulating pump 7 6, the high temperature heat conductive oil after high efficient heat exchanging enters cold and heat combined supply unit 11.Low temperature conduction oil after heat exchange is back to heat conduction Oil circulating pump 7.Conduction oil expansion tank 8 is arranged on heat conducting oil pipe.Circulating-heating, uninterruptedly will lead the most continuously Deep fat passes to cold and heat combined supply unit 11, makes this system maintain normal work.

5) cold and heat combined supply unit 11 work process: main by compressor, condenser, expansion valve, vaporizer four part Composition.Its operation principle is that cold-producing medium carries out states of matter (gaseous state, liquid) change in closed system, reach continuously, A set of refrigerating plant of cold is stably provided.Cold and heat combined supply unit 11 is outside arranges cooling recirculation system, circulating pump 12 It is the auxiliary equipment of cold and heat combined supply unit 11 with cooling tower 13.

6) natural gas cooling system work process:

Being first shut off air cooler 4 rear and front end valve, the high-temperature natural gas after compression enters heat exchanger 9 and carries out heat exchange, Gas storage or downstream pipe network it is passed to outside natural gas after cooling.Meanwhile, cold and heat combined supply unit 11 provide 7 DEG C～12 DEG C cold Water, enters heat exchanger 9 by cold water circulation pump 10, carries out cold and hot exchange, and the hot water after heat exchange returns to cold and heat combined supply list Unit 11 continues refrigeration.

7) 75 DEG C of hot water of cold and heat combined supply unit 11 output, supply city or factory use.

5. engineering project case

Such as: huge port is opened greatly and sticked together that to drive formula compressor scene operating condition as follows for the combustion of natural gas gas storage:

Natural gas (pressure 2.2PMa, temperature 20 DEG C) in the pipe network of natural gas upstream door station, initially enters natural pressure Contracting machine 3, is compressed in one-level cylinder, the natural gas (pressure 5PMa, temperature 88 DEG C) after compression, enters One-level air cooler 4, separator carry out refrigerated separation；Natural gas (pressure 5PMa, temperature 49 DEG C) warp after separation Secondary cylinder is compressed, the natural gas (pressure 12PMa temperature 123 DEG C) after compression, enter two grades of air coolers 4, Separator carries out refrigerated separation；Natural gas (pressure 12PMa, temperature 49 DEG C) after separation is entering in three-stage cylinder Row compression, the natural gas (pressure 27PMa, temperature 114 DEG C) after compression, enter three grades of air coolers 4, separators and enter Row refrigerated separation；It is passed to downstream pipe network or natural gas outside natural gas (pressure 27PMa, temperature 70 C) after separation Gas storage.

1) under Normal Environmental Temperature (-2.7 DEG C～26 DEG C), the delivery temperature Theoretical Calculation of each inter-stage of compressor is as follows:

Solve: temperature after one stage of compression:

Compression process gas adiabatic exponent searches " conventional gas adiabatic exponent table " natural gas adiabatic exponent n=1.314.

One-level suction temperature Ts=200C+273=293 (K)

Compression ratio: ε_t=5/2.2=2.27

The delivery temperature substitution formula of one-level:

When learning pressure 5MPa after one stage of compression, temperature 80 DEG C after compression.

Solve: temperature after two-stage compression:

Compression process gas adiabatic exponent searches " conventional gas adiabatic exponent table " natural gas adiabatic exponent n=1.314.

Two grades of suction temperatures Ts=490C+273=322 (K)

Compression ratio: ε_t=12/5=2.4

The delivery temperature substitution formula of two grades:

When learning pressure 12MPa after two-stage compression, temperature 119 DEG C after compression.

Solve: temperature after three stage compression:

Compression process gas adiabatic exponent searches " conventional gas adiabatic exponent table " natural gas adiabatic exponent n=1.314.

Three grades of suction temperatures Ts=490C+273=322 (K)

Compression ratio: ε_t=27/12=2.25

The delivery temperature substitution formula of three grades:

When learning pressure 27MPa after three stage compression, temperature 113 DEG C after compression.

Conclusion: actual each inter-stage exhaust temperature inter-stage each with the Theoretical Calculation exhaust temperature of natural gas compressor is essentially identical, In compressor normal exhaust temperature range.

2) compressor each inter-stage delivery temperature situation at summer environment temperature 38～46 DEG C.

If summer temp is higher, between compressor stage, air cooler cooling effect is poor, the refrigerated separation day after tomorrow after one stage of compression So atmospheric pressure 5PMa temperature 60 C, enters back into split-compressor and is compressed, and the pressure 12PMa after compression asks two grades Temperature after compression？

Solve: temperature after two-stage compression:

Compression process gas adiabatic exponent searches " conventional gas adiabatic exponent table " natural gas adiabatic exponent n=1.314.

Two grades of suction temperatures Ts=600C+273=333 (K)

Compression ratio: ε_t=12/5=2.4

The delivery temperature substitution formula of two grades:

When learning pressure 12MPa after two-stage compression, temperature 133 DEG C after compression.

Conclusion: in view of carbon deposit and the needs of safe operation, need to limit the delivery temperature of reciprocating compressor. For the molecular weight medium less than or equal to 12, delivery temperature must not exceed 130 DEG C；To acetylene, oil gas, wet chlorine Gas delivery temperature must not exceed 100 DEG C, and other gas is less than 150 DEG C.

By above-mentioned calculating, natural gas intake air temperature 60 DEG C, after two-stage compression during pressure 12MPa, temperature 133 DEG C after compression, Prove that gas inlet temperature is high, will be higher by the outlet exhaust temperatures after compressing.

6. the waste energy

Natural gas compressor excessive discharge temperature, can cause compressor efficiency to reduce, particularly inter-stage air cooler cooling effect The poorest, when rear stage can be caused to compress, temperature is higher, and efficiency is lower.The power so needing Movers to input also is got over Greatly.Waste also just increases.

7. this technology features:

Natural gas compressor flue gas Refrigeration Technique, the heat in recyclable flue gas, prepare cold water, gained cold water is used for Natural gas cooling technology transformation after the cooling circulation of compressor bank apparatus body and compression so that compressor bank can be in the summer Normal under conditions of Ji Gaowen 38～46 DEG C run continuously.This technology is as making full use of resource, turning harm into good, administer One vital measure of environment (reduce and pollute), has economy (benefit), environmental ecology (benefit) and society's (effect Benefit) meaning of sustainable development, have exemplary and representative.

8. energy efficient

This utility model instead of original air cooler technique, has reclaimed the high-temperature residual heat flue gas wasted, has produced cold Water, after solving compression, natural gas interstage temperature raises phenomenon, meets the demand of client, improves Integrated Energy profit By rate.

9. cost of investment is low

This utility model equipment is common equipment, and quantity is few, builds and cost of investment.The small-sized of equipment can be realized Change and sledge dressization, it is achieved a set of equipment uses in multiple places, it is achieved cost of investment reclaims faster.

Being described as follows for Fig. 1 and Fig. 2:

1--chimney, 2 gas turbines, 3 natural gas compressors, 4 air coolers, 5--flue gas three-way valve, 6 cigarettes Gas recovering device, 7 Heat-transfer Oil Pump, 8 conduction oil expansion tanks, 9 heat exchangers, 10 cold water circulation pumps, 11 Cold and heat combined supply unit, 12 circulating pumps, 13--cooling tower.

Embodiment 2

According to this utility model embodiment, it is provided that a kind of natural gas compressor transport refrigeration system.It should be noted that This refrigeration system can apply to that combustion is driven the natural gas compressor in formula gas compressor set and air cooler cools down, To ensure that the even running of formula gas compressor set is driven in combustion.

Before describing the refrigeration system in this utility model embodiment in detail, this utility model embodiment combines Combustion is driven the combustion of the structure labor of formula gas compressor set and is driven temperature rising in formula gas compressor set running Reason.Fig. 1 is the schematic diagram that formula gas compressor set structure is driven in a kind of combustion according to prior art, such as Fig. 1 institute Showing, combustion is driven formula gas compressor set and can be included chimney 1, gas turbine 2, natural gas compressor 3, air cooler 4, Its technical process can be described as: initially enters natural gas compressor from the natural gas in the pipe network of natural gas upstream door station 3, gas turbine 2 drives natural gas compressor 3 to be compressed natural gas, the high temperature cigarette that gas turbine 2 self produces Gas discharges through chimney 1.Enter in the natural gas via one-level cylinder of natural gas compressor 3 and compressed, after compression Natural gas enters one-level air cooler 4 and carries out refrigerated separation；Natural gas after refrigerated separation is pressed in secondary cylinder again Contracting, the natural gas after compression enters two grades of air coolers 4 and carries out refrigerated separation；Natural gas after separation is again through three-stage cylinder In be compressed, natural gas after compression enters three grades of air coolers 4 and carries out refrigerated separation；Natural gas after separation is outer defeated To downstream pipe network or natural gas gas storage.

Drive the technological process of formula gas compressor set based on combustion, combustion drives formula gas compressor set in the middle temperature of running Degree raise the mainly excessive discharge temperature of natural gas compressor, air cooler chilling temperature too high.Cause natural pressure Reason and harm that contracting machine delivery temperature raises are described in detail the most in embodiment 1, and here is omitted.

Formula gas compressor set natural gas compressor and air cooler temperature, this reality in running is driven in order to reduce combustion Providing a kind of natural gas compressor transport refrigeration system with novel, formula gas compressor set is driven in combustion by this refrigeration system The heat of the substantial amounts of high-temperature flue gas that middle gas turbine produces recycles, and utilizes this heat to carry out heat exchange refrigeration, It is possible not only to reduce the thermal pollution of environment, it is also possible to save substantial amounts of energy consumption.This refrigeration system utilizes absorption refrigeration skill Art can do drive force source with high temperature waste hot, produces low-temperature cold water supply combustion and drives the cooling circulation of formula gas compressor set System uses, and improves combustion and drives the temperature rising phenomenon of natural gas compressor and air cooler in formula gas compressor set, real Energy-conserving and environment-protective, the purpose of Appropriate application high-temperature flue gas are showed.

Fig. 2 is the schematic diagram of the natural gas compressor transport refrigeration system according to this utility model embodiment, such as Fig. 2 institute Showing, this refrigeration system may include that combustion drives formula gas compressor set, flue gas recovery device 6, refrigeration system 11 (i.e. Cold and hot company in embodiment 1 supplies unit) and heat exchanger 9 (i.e. the heat of heat exchange in embodiment 1), specifically, combustion Drive formula gas compressor set as it is shown in figure 1, here is omitted.Flue gas recovery device 6 is serially connected in shown in Fig. 1 Combustion is driven between the gas turbine 2 in formula gas compressor set and chimney 1, for reclaiming the height of gas turbine 2 discharge Temperature flue gas, utilizes flue gas recovery device 6 to absorb combustion and drives the heat of the high-temperature flue gas that formula gas compressor set produces, energy Enough reduce the high-temperature flue gas pollution to environment, decrease the waste of heat energy simultaneously.Refrigeration system 11 and flue gas recovery device 6 are connected, and freeze for absorbing the heat of high-temperature flue gas in flue gas recovery device 6, wherein, and high-temperature flue gas quilt Refrigeration system 11 is changed into low-temperature flue gas and discharges via chimney 1 after absorbing heat, refrigeration system 11 utilizes combustion to drive formula sky The high temperature waste hot that so air compressor group produces carries out refrigeration output cold water.Heat exchanger 9 is connected with refrigeration system 11, and It is connected in parallel on the combustion shown in Fig. 1 and drives the two ends of the air cooler 4 in formula gas compressor set, be used for utilizing refrigeration system 11 The cold water of output replaces air cooler 4 to cool down the high-temperature natural gas after compressing via natural gas compressor 3, refrigeration The cold water of system 11 output drives the cooling recirculation system of formula gas compressor set for combustion, it is possible to reduce compression After the temperature of each inter-stage of natural gas.

It should be noted that formula is driven in the combustion being made up of chimney 1, gas turbine 2, natural gas compressor 3, air cooler 4 The technical process of gas compressor set has been carried out being discussed in detail, and here is omitted.

The refrigeration system of this embodiment by arranging flue gas recovery device 6, the high temperature cigarette that will discharge from gas turbine 2 Gas first passes through three-way valve 5 (i.e. flue gas three-way valve in embodiment 1) and enters flue gas recovery device 6, passes through High Efficiency Thermal Low-temperature flue gas after exchange emits via chimney 1.This embodiment utilizes flue gas recovery device 6 to reclaim gas turbine The high-temperature flue gas of 2 discharges, carries out heat extraction to it, recycles the heat extracted, so can not only Reduce thermal pollution, and can greatly reduce energy waste, improve resource utilization.Alternatively, as in figure 2 it is shown, The refrigeration system of this embodiment can arrange three-way valve 5 respectively with gas turbine 2, chimney 1, flue gas recovery device 6 Be connected, utilize this three-way valve 5 can by the fume emission path that is made up of gas turbine 2 and chimney 1 with by combustion gas The fume emission path of turbine 2, flue gas recovery device 6 and chimney 1 composition carries out parallel connection, so ensure that Combustion drives the fume emission path being made up of gas turbine 2 and chimney 1 in formula gas compressor set when breaking down, Can switch it to immediately to the fume emission path being made up of gas turbine 2, flue gas recovery device 6 and chimney 1, And then reached to ensure the effect of system safety operation.

Refrigeration system 11 in the refrigeration system of this embodiment can be connected with flue gas recovery device 6, is used for absorbing cigarette In gas recovering device 6, the heat of high-temperature flue gas freezes.Alternatively, refrigeration system 11 can be circulated by conduction oil In Systemic absorption flue gas recovery device 6, the heat of high-temperature flue gas freezes, and wherein, Heat-conduction oil circulation system can be divided It is not connected with flue gas recovery device 6 and refrigeration system 11, is used for utilizing conduction oil to absorb in flue gas recovery device 6 high The heat of temperature flue gas, and the heat absorbed is delivered to refrigeration system 11.The refrigeration system of this embodiment utilizes heat conduction Innage boiling nature can improve the absorption efficiency of high-temperature flue gas heat, it should be noted that the heat conduction in this embodiment Oil circulating system can also be that other fluid circulation systems replace, and such as water circulation system, this utility model is to this not It is specifically limited.Alternatively, as in figure 2 it is shown, Heat-conduction oil circulation system may include that heat conduction oil circulating pump 7 (i.e. Heat-transfer Oil Pump in embodiment 1), it is connected with flue gas recovery device 6, returns for low temperature conduction oil is delivered to flue gas Receiving apparatus 6, wherein, the heat that low temperature conduction oil absorbs high-temperature flue gas via flue gas recovery device 6 becomes high-temperature heat-conductive Oil transmission is to refrigeration system 11, and refrigeration system 11 absorbs the heat that high temperature heat conductive oil carries and freezes, high-temperature heat-conductive Oil becomes low temperature conduction oil after absorbing heat, is again delivered to flue gas recovery device 6 via heat conduction oil circulating pump 7 The heat of middle absorption high-temperature flue gas, so constitutes the circulation of conduction oil, utilizes the circulation of conduction oil can realize uninterruptedly The heat of high-temperature flue gas is passed to refrigeration system 11 by ground, makes refrigeration system 11 maintain refrigeration work.Alternatively, lead Circulation and Hot Oil Spray system can also include: conduction oil expansion tank 8, is arranged on heat conducting oil pipe, follows with conduction oil respectively Ring pump 7 is connected with refrigeration system 11, for housing or compensate the breathing amount of conduction oil in Heat-conduction oil circulation system.When After the heat of conduction oil absorption high-temperature flue gas becomes high temperature heat conductive oil, volumetric expansion, unnecessary in Heat-conduction oil circulation system Conduction oil then can flow into conduction oil expansion tank 8, leads when the heat of high temperature heat conductive oil is become low temperature by refrigeration system 11 absorption After deep fat, volume-diminished, internal conduction oil then can be delivered in Heat-conduction oil circulation system by conduction oil expansion tank 8. Refrigeration system 11 is for utilizing the heat of high temperature heat conductive oil to freeze, and high temperature heat conductive oil becomes via after refrigeration system 11 Heat conduction oil circulating pump 7 is flowed into via conduction oil expansion tank 8 for low temperature conduction oil.

Alternatively, refrigeration system 11 can include being sequentially connected the circulating pump, solution heat exchanger, generator, cold connect Condenser, expansion valve, vaporizer and absorber, wherein, cold-producing medium is entered solution heat exchanger by circulating pump and changes Heat, the refrigerator after heat exchange enters the heat of generator absorption high temperature heat conductive oil and becomes high temperature and high pressure steam, High Temperature High Pressure Steam becomes low temperature and low pressure steam inflow absorber via condenser, expansion valve and vaporizer, and wherein, low-temp low-pressure steams Vapour is changed into liquid in absorber and again flows into solution heat exchanger via circulating pump.Cold-producing medium in refrigeration system 11 (such as lithium bromide) carries out states of matter change (including gaseous state, liquid) in system, reaches to provide continuously and stably cold. Heat exchanger 9 can be connected with condenser in refrigeration system 11 and absorber, and wherein, the cold water of condenser output passes through Cold water circulation pump inflow heat exchanger 9, heat exchanger 9 is for utilizing the cold water of inflow to compress via natural gas compressor 3 After high-temperature natural gas cool down, wherein, cold water via becoming hot water inflow absorber after heat exchanger 9, with realize Combustion is driven and is replaced air cooler 4 to compress via natural gas compressor 3 when formula gas compressor set runs in high temperature environments After natural gas cool down, to reduce the purpose of the temperature of each inter-stage of natural gas after compression, and then realize carrying Gao Ran drives the effect of the stability that formula gas compressor set runs in high temperature environments.

It should be noted that the cooling medium in condenser becomes high-temperature medium after absorbing heat, in order to reduce the waste of the energy, This embodiment is preferably provided with reuse means and recycles the heat in high-temperature medium, wherein, and recycling dress Put and can be connected with the condenser in refrigeration system 11, in the condenser of discharge in refrigeration system process of refrigerastion Cooling medium heat absorption after the high-temperature medium that becomes recycle.

In order to ensure the refrigerating efficiency of refrigeration system 11, as in figure 2 it is shown, the refrigeration system of this embodiment is preferably set up There is auxiliary cooling device for the cold-producing medium in refrigeration system 11 is carried out supplement heat rejecter.Wherein, auxiliary cooling device can To be connected with refrigeration system 11, for the cold-producing medium in refrigeration system 11 is cooled down.Specifically, assist cold But equipment may include that cooling tower 13, is connected with the vaporizer in refrigeration system 11, for refrigeration system 11 In cold-producing medium (such as lithium bromide) cool down；Refrigerant cycle pump 12 (i.e. circulating pump in embodiment 1), It is connected with cooling tower 13 and vaporizer respectively, for the cold-producing medium after cooling tower 13 cools down being delivered to evaporation Device.Cold-producing medium in refrigeration system 11 is assisted cold by arranging auxiliary cooling device by the refrigeration system of this embodiment But, it is possible to be greatly enhanced the refrigerating efficiency of refrigeration system 11.

As in figure 2 it is shown, the heat exchanger 9 in the refrigeration system of this embodiment can be connected with refrigeration system 11, utilize The cold of refrigeration system 11 output carries out heat exchange.Heat exchanger 9 can by the first input duct and the first drain pipe road with Refrigeration system is connected, and wherein, in refrigeration system 11, the cold water of condenser output is by being arranged in the first input duct Cold water circulation pump 10 inflow heat exchanger 9, heat exchanger 9 replaces air cooler 4 to via sky for utilizing the cold water of inflow So the high-temperature natural gas after air compressor 3 compression cools down, and wherein, cold water leads to via becoming hot water after heat exchanger 9 Cross the first drain pipe road and flow into the absorber in refrigeration system 11.Heat exchanger 9 can be connected in parallel on combustion and drive formula natural gas compressing The two ends of the air cooler 4 in unit, it is possible to use the cold water of refrigeration system 11 output replaces air cooler 4 to via natural Air compressor 3 compression after high-temperature natural gas cool down, and then reduce combustion drive formula gas compressor set fortune Natural gas compressor 3 and the temperature of air cooler 4 during row, it is ensured that formula gas compressor set stable operation is driven in combustion Effect.It should be noted that this refrigeration system drives the sky in formula gas compressor set by arranging heat exchanger 9 with combustion Cooler 4 is in parallel, it is possible to ensure to be immediately switched to another technique maintenance work when a technique breaks down, to reach To ensureing that the effect of formula gas compressor set stable operation is driven in combustion.Alternatively, heat exchanger 9 two ends are respectively arranged with valve Door, utilizes the valve at heat exchanger 9 two ends can control the start and stop of heat exchanger 9, to realize controlling flexibly heat exchanger 9 Purpose.

It should be noted that in actual application scenarios, utilize heat exchanger 9 to can substitute for air cooler 4 and natural gas entered Row cooling, can be by arranging valve at air cooler 4 two ends, when needs utilize heat exchanger 9 to cool down natural gas Time close air cooler 4 two ends valve, through natural gas compressor 3 compress after high-temperature natural gas enter heat exchanger 9 Carry out heat exchange, outside the natural gas after cooling, transport to gas storage or downstream pipe network.Meanwhile, refrigeration system 11 exports Cold water enters heat exchanger 9 by cold water circulation pump 10 and carries out cold and hot exchange, and the hot water after heat exchange returns to refrigeration system 11 Middle continuation is freezed.

The refrigeration system of this utility model embodiment, drives, by reclaiming combustion, the high-temperature flue gas that formula gas compressor set produces Heat, utilize this heat carry out refrigeration replace air cooler to combustion drive the natural gas compressor in formula gas compressor set Natural gas after compression cools down, and has reached to reduce combustion during natural gas transmission and has driven in formula gas compressor set Natural gas compressor and the purpose of air cooler temperature, and then solve in correlation technique combustion and drive formula gas compressor set When running in high temperature environments, owing to compressor exhaust temperature and the rising of air cooler chilling temperature cause the skill of frequent shutdown Art problem, it is achieved thereby that improve combustion to drive the technique effect of formula gas compressor set operation stability.

It should be noted that structure and this utility model of formula gas compressor set is driven in combustion in natural gas course of conveying Refrigeration system in embodiment uses parallel way, so ensure that and breaks down once certain process unit, control Medium can be switched on another process pipe by device processed automatically, and then has reached safeguards system safe and stable operation Effect.

Natural gas compressor transport refrigeration system in this utility model embodiment, utilizes flue gas recovery device to reclaim combustion gas The heat of high-temperature flue gas that turbine produces, and the heat being recovered to is delivered to refrigeration system freezes, utilize refrigeration High-temperature natural gas after the cold of system output replaces air cooler to compress natural gas compressor cools down, it is ensured that combustion is driven The stable operation under the higher environment of summer temp of formula gas compressor set.By the cold generation utilizing refrigeration system to export For air cooler, natural gas is cooled, it is possible to ensure that timely more switching heat-exchanger is to sky when air cooler breaks down So gas carries out the process that cools, it is possible to greatly proposes combustion and drives the stable operation of formula gas compressor set.This practicality is new Type is ensureing that can also reduce thermal pollution while formula gas compressor set stable operation is driven in combustion discharges, and improves the energy Comprehensive utilization ratio.

Above-mentioned this utility model embodiment sequence number, just to describing, does not represent the quality of embodiment.

In above-described embodiment of the present utility model, the description to each embodiment all emphasizes particularly on different fields, in certain embodiment There is no the part described in detail, may refer to the associated description of other embodiments.In several embodiments provided herein, It should be appreciated that disclosed technology contents, can realize by another way.

The above is only preferred implementation of the present utility model, it is noted that for the common skill of the art For art personnel, on the premise of without departing from this utility model principle, it is also possible to make some improvements and modifications, these Improvements and modifications also should be regarded as protection domain of the present utility model.

Claims (15)

1. a natural gas compressor transport refrigeration system, it is characterised in that driven more than formula compressor unit system, flue gas by combustion Heat recovery system, cold and heat combined supply unit, natural gas cooling system form.

Refrigeration system the most according to claim 1, it is characterised in that gas turbine exhaust gas discharge tube and chimney it Between flue gas recovery device is set, wherein, gas turbine exhaust gas pipeline is connected with flue gas three-way valve, flue gas three-way valve Being connected with chimney, flue gas recovery device pipeline, flue gas recovery device is connected with chimney, collectively constitutes high-temperature flue gas Residual neat recovering system.

Refrigeration system the most according to claim 2, it is characterised in that flue gas recovery device and cold and heat combined supply unit, Between Heat-transfer Oil Pump, conduction oil expansion tank, pipeline connects, and forms Heat-conduction oil circulation system.

Refrigeration system the most according to claim 3, it is characterised in that cold and heat combined supply unit and heat exchanger, circulation Pump line road connects, and heat exchanger is in parallel with air cooler pipeline, forms natural gas cooling system.

Refrigeration system the most according to claim 3, it is characterised in that cooling water circulating pump and cooling tower belong to cold and hot The auxiliary equipment of alliance unit.

6. a natural gas compressor transport refrigeration system, it is characterised in that including:

Flue gas recovery device, is serially connected between gas turbine and chimney, for reclaiming described discharge of gas turbine High-temperature flue gas, wherein, described gas turbine is used for driving natural gas compressor to be compressed natural gas；

Refrigeration system, is connected with described flue gas recovery device, is used for absorbing high temperature in described flue gas recovery device The heat of flue gas freezes, and wherein, described high-temperature flue gas is changed into low after being absorbed heat by described refrigeration system Temperature flue gas is via described smoke stack emission；And

Heat exchanger, is connected with described refrigeration system, and is connected in parallel on the two ends of air cooler, is used for utilizing described system The cold of cooling system output replaces described air cooler to the high-temperature natural gas after compressing via described natural gas compressor Cooling down, wherein, described air cooler is connected with described natural gas compressor, for via described natural High-temperature natural gas after air compressor compression cools down.

Refrigeration system the most according to claim 6, it is characterised in that also include:

Heat-conduction oil circulation system, is connected with described flue gas recovery device and described refrigeration system respectively, for profit Absorb the heat of high-temperature flue gas in described flue gas recovery device with conduction oil, and the heat absorbed is delivered to institute State refrigeration system.

Refrigeration system the most according to claim 7, it is characterised in that described Heat-conduction oil circulation system includes:

Heat conduction oil circulating pump, is connected with described flue gas recovery device, described for being delivered to by low temperature conduction oil Flue gas recovery device, wherein, described low temperature conduction oil absorbs described high-temperature flue gas via described flue gas recovery device Heat become high temperature heat conductive oil transmission to described refrigeration system；

Conduction oil expansion tank, is connected with described refrigeration system with described heat conduction oil circulating pump respectively, is used for housing Or compensate the breathing amount of conduction oil in described Heat-conduction oil circulation system, wherein, described refrigeration system is used for utilizing institute The heat stating high temperature heat conductive oil freezes, and described high temperature heat conductive oil is via becoming described low after described refrigeration system Temperature conduction oil flows into described heat conduction oil circulating pump.

Refrigeration system the most according to claim 8, it is characterised in that described refrigeration system includes being sequentially connected and connects Circulating pump, solution heat exchanger, generator, condenser, expansion valve, vaporizer and absorber, wherein, Cold-producing medium is entered described solution heat exchanger by described circulating pump and carries out heat exchange, and the refrigerator after heat exchange enters described Generator absorbs the heat of described high temperature heat conductive oil and becomes high temperature and high pressure steam, and described high temperature and high pressure steam is via institute State condenser, described expansion valve and described vaporizer become low temperature and low pressure steam flow into described absorber, wherein, Described low temperature and low pressure steam is changed into liquid in described absorber and again flows into described solution via described circulating pump Heat exchanger.

Refrigeration system the most according to claim 9, it is characterised in that

Described heat exchanger is connected with described absorber and described condenser respectively,

Wherein, the cold water of described condenser output flows into described heat exchanger, described heat exchanger by cold water circulation pump For utilizing the cold water of inflow that the high-temperature natural gas after compressing via described natural gas compressor is cooled down, its In, described cold water flows into described absorber via becoming hot water after described heat exchanger.

11. refrigeration systems according to claim 10, it is characterised in that also include:

Auxiliary cooling device, is connected with described refrigeration system, for entering the cold-producing medium in described refrigeration system Row cooling.

12. refrigeration systems according to claim 11, it is characterised in that described auxiliary cooling device includes:

Cooling tower, is connected with described vaporizer, for cooling down the cold-producing medium in described refrigeration system；

Refrigerant cycle pump, is connected with described cooling tower and described vaporizer respectively, and being used for will be through described cold But the cold-producing medium after tower cooler is delivered to described vaporizer.

13. refrigeration systems according to claim 10, it is characterised in that also include:

Reuse means, is connected with the condenser in described refrigeration system, for freezing described refrigeration system During discharge described condenser in cooling medium heat absorption after the high-temperature medium that becomes recycle.

14. refrigeration systems according to claim 6, it is characterised in that also include:

Three-way valve, is connected with described gas turbine, described chimney, described flue gas recovery device respectively, is used for By the fume emission path being made up of described gas turbine and described chimney and by described gas turbine, described flue gas The fume emission path of retracting device and described chimney composition carries out parallel connection.

15. according to the refrigeration system according to any one of claim 6 to 14, it is characterised in that described heat exchanger two ends are divided It is not provided with valve.