CN204827549U - System is utilized to high efficiency that pipe network natural gas pressure energy and cold energy were retrieved - Google Patents

Abstract

The utility model relates to a system is utilized to high efficiency that pipe network natural gas pressure energy and cold energy were retrieved for retrieve the natural gas pressure energy in the high -pressure natural gas pipeline electricity generation and retrieve system ice with pipe network natural gas cold energy, the system include pressure energy recycle device and cold energy recycle device, pressure energy recycle device respectively with cold energy recycle device and high -pressure natural gas tube coupling, cold energy recycle device be connected with low reaches natural gas pipeline and municipal water pipe net respectively, high -pressure natural gas pipeline and pressure energy recycle device between be equipped with the surge damping valve. Compared with the prior art, the utility model has the advantages of energy utilization rate height, safe and reliable, the multiple protection of rising again, energy -efficient, the structure clear, it is convenient to reform transform.

Description

A kind of pipe network pressure energy of natural gas and cold recoverable effective utilization system

Technical field

The utility model relates to pressure energy and cold energy recycle field in natural gas pressure regulating process, especially relates to a kind of pipe network pressure energy of natural gas and cold recoverable effective utilization system.

Background technique

Rock gas is as a kind of clean energy resource, and along with national energy structural adjustment, the consumption proportion of rock gas constantly increases, to the year two thousand twenty rock gas primary energy consumption in ratio bring up to more than 10%, China's natural gas gas pipeline will be rapidly developed.

Long-distance Transmission Pipeline generally adopts high-pressure delivery, that is: rock gas is in delivery technology process, needs to rise to high-pressure delivery through compressor station, then needs step-down to use to user side.Current China be constructed and put into operation successively " West-east Gas I line pipeline pressure is about 10MPa, year gas supply capacity exceeded 16,000,000,000 cubes." West-east Gas II linear pressure is about 12MPa, year gas supply capacity exceed 300 billion cubic meters.Each point of defeated website of transferring natural gas from the west to the east has three or four users usually, general all through pressure regulation when flowing to these downstream user, this pressure regulation is elementary pressure regulation, user accepts gas needs pressure regulation again for during enterprise's pipe network, this time pressure regulation is referred to as secondary pressure regulation, also some user such as China Resources, newly difficult to understand, the pressure regulation when city gas companies such as the Kunlun flow to terminal use is again three pressure regulation.

Therefore, at present in the long defeated process of rock gas, need consumption of power to drive to calm the anger unit to improve distribution pressure; And the mode adopting the step-down of pressure regulator valve group is needed in user side, reduce distribution pressure.When adopting pressure regulator valve pressure regulation (step-down), the pressure energy of high-quality consumes completely in the local resistance overcoming valve, cannot be utilized effectively; And after the step-down of pressure regulator valve group, natural gas temperature reduces (joule-Thomson effect), also need additionally to provide heat lift rock gas to suitable temperature, could use for user.Namely rock gas length is defeated needs pressure-increasing unit, step-down and use of rising again.

As can be seen here, in natural gas transport process, contain huge energy efficient utilization and the energy saving space.Under the national conditions that energy resources day is becoming tight, how to adopt efficient system and device, suitable energy utilization mode, effectively obtaining pressure energy of natural gas is a proposition being worth research.

Rock gas overbottom pressure utilizes technology to be the emerging technology that China rises in recent years, at present, has developed multiple surplus energy utility technology, comprises pressure energy gas storage and peak-shaving, pressure energy generating, natural gas liquefaction, refrigeration etc.From the angle analysis of obtainable energy products, these Land use systems can be divided into: the cold energy utilize pressure energy of natural gas to generate electricity, utilizing the rear rock gas of expansion to have freezes, and the cold energy utilizing the rear rock gas that expands to have while utilizing pressure energy of natural gas to generate electricity freezes etc.Under the requirement of cascaded utilization of energy, utilize cold energy while utilizing pressure energy of natural gas to generate electricity, the distributed energy resource system realizing the comprehensive utilization of electric cold energy is China's present stage efficient energy regenerating mode.

Shenzhen Gas Corporation Ltd. Xu Wen east, Shen Hongping, limit naval, Liu Jianhui, Fan's bolt lion, Chen Qiuxiong, Chen Yunwen, Lu Han, peace model utility a kind of such as to become famous utilizes pipe network pressure energy of natural gas to generate electricity and the method and apparatus of ice making, and China's patent No. is CN102563958A.What the content of this model utility mainly solved is when utilizing pressure energy of natural gas, obtains the monotony of form of energy and the industrial actual application problem of pressure energy of natural gas technology.Although this model utility can fully utilize pressure energy of natural gas (freezing while generating), but the product electric energy in this model utility is mainly used in for pressure regulation door station office building and worker's household electricity, remainder then directly drives compression refrigeration circulation ice-making, and the electric energy namely consuming high-quality is used for ice making.

The high-pressure natural gas loine pressure of the model utilitys such as North China Electric Power University's human relations are stood bravely, Xie Yingbai can at the recoverying and utilizing method of gas turbine working domain, and China's patent No. is CN101280723A.This model utility is mainly used for overcoming prior art defect and provides a kind of high-pressure natural gas loine pressure can at the recoverying and utilizing method of gas turbine working domain.Be utilize high-pressure natural gas loine pressure energy equally, the waste heat of the cold energy Gas Generator Set produced here is risen again, and the cold energy that after expanding, rock gas has is not utilized effectively yet.In addition, this model utility is only suitable for gas turbine working domain, and applicable situation is limited.

The generating regulator being applicable to high-pressure natural gas pipeline of the model utility such as Bihaizhou (Beijing) Petrochemical Equipment Co., Ltd. Lou generation pine, Di Jianjun, Shen Yitong, Hu Chuanfen, the patent No. be CN203962047U solve the cryogenic natural gas after to step-down heating time, heat exchanger needs to install driving cable, cause needing voltage regulating station to build the technological deficiency in power station, and consume rock gas in the process of employing oven heating cryogenic natural gas, cause the technological deficiency that energy consumption is high.The cold energy that after but this patent does not still fundamentally utilize step-down, rock gas has, but utilize pressure energy of natural gas electricity that air cooling device can be driven to rise again to cryogenic natural gas, consume the electric energy that system produces.

Model utility content

The purpose of this utility model is exactly providing high, safe and reliable, the multiple protection of rising again of a kind of energy utilization rate, energy-efficient, clear in structure to overcome defect that above-mentioned prior art exists, transforming pipe network pressure energy of natural gas and cold recoverable effective utilization system easily.

The purpose of this utility model can be achieved through the following technical solutions:

A kind of pipe network pressure energy of natural gas and cold recoverable effective utilization system, in order to the pressure energy of natural gas in high-pressure natural gas pipeline is reclaimed generating and pipe network natural gas cold energy is reclaimed ice making, described system comprises pressure energy recycle device and cold energy recycle device, described pressure energy recycle device is connected with cold energy recycle device and high-pressure natural gas pipeline respectively, described cold energy recycle device is connected with downstream gas pipeline and municipal grid respectively, pressure maintaining valve is provided with between described high-pressure natural gas pipeline and pressure energy recycle device.

Described pressure energy recycle device comprises water separator, decompressor, transmitting assemblies, generator, blowdown piping and gas-liquid separator, described high-pressure natural gas pipeline, water separator, decompressor, blowdown piping, gas-liquid separator are connected successively with cold energy recycle device, and described decompressor is also connected with generator by transmitting assemblies.

Described cold energy recycle device comprises brine pit, water reservoir, electric heater and solar thermal collector, described gas-liquid separator, brine pit, water reservoir, electric heater are connected successively with downstream gas pipeline, ice bucket is provided with in described brine pit, described ice bucket provides ice making water by water reservoir, and described water reservoir is connected with municipal grid by solar thermal collector.

First Heat Exchanger is provided with in described brine pit, the second heat exchanger is provided with in described water reservoir, the gas pipeline of described First Heat Exchanger, the gas pipeline of the second heat exchanger, the gas pipeline of electric heater are connected successively with downstream gas pipeline, and the water loop of described First Heat Exchanger, the water loop of the second heat exchanger, solar thermal collector are connected successively with municipal grid.

Described cold energy recycle device also comprises dip tank and freezer, and described dip tank is in order to be separated the ice in ice bucket with staving, and described freezer is in order to deposit the ice separated.

Also be provided with water temperature detection device in described water reservoir, described water temperature detection device is by the temperature of Real-Time Monitoring water reservoir water, thus control solar thermal collector heats.

Described water separator is molecular sieve dehydrator, and described decompressor is turbo-expander, and described transmitting assemblies is gearbox.

This system also comprises the natural gas branch pipe road in parallel with water reservoir, and when water reservoir is not enough to rock gas to rise again to when requiring temperature, rock gas is risen again to electric heater heating by natural gas branch pipe road.

Native system comprises:

1, pressure energy recycle device: in this part, high-pressure natural gas is after pressure maintaining valve voltage stabilizing and water separator dehydration, enter expander step-down, the pressure reduction driven rotary machinery of rock gas in inflation process, and then drive electrical generators generates electricity, the electric energy obtained directly is surfed the Net, and the cryogenic natural gas after simultaneously expanding, after gas-liquid separator separates heavy hydrocarbon, is delivered to cold energy recycle system.

2, cold energy recycle device: the cold energy recycle device in the utility model refers to that cryogenic natural gas that devices such as comprising brine pit, water reservoir, electric heater, dip tank, freezer, solar thermal collector, ice bucket forms is risen again process, the cold energy that after this part utilizes and expands, cryogenic natural gas has carries out ice making, and detailed process is divided into two flow processs to carry out:

Rock gas flow process: the cryogenic natural gas after the water and heavy hydrocarbon of gas-liquid separator separates liquefaction, entering brine pit for salt solution provides cold environment, thus make the water freezing in brine pit in ice bucket, rock gas after heating up in brine pit enters water reservoir to be continued to heat up, and can be supplied to ice making water carries out precooling simultaneously.Rock gas after heating up in water reservoir enters downstream pipe network through electric heater, under normal circumstances, electric heater is in off working state, only play through-flow effect, only have the temperature of tank outlet place rock gas can not reach the requirement of downstream gas pipeline, electric heater just can start heated natural gas.

Ice making raw material Water flow-path: supplied water by municipal grid, after solar thermal collector heating, sends into precooling in water reservoir, in water reservoir, load ice bucket after precooling, start ice-making process, after ice making completes, ice is separated in dip tank with ice bucket, is finally stored in freezer with the form of ice.

This model utility is a kind of pipe network pressure energy of natural gas and cold energy recycle system and device, in pressure energy recycling system, electricity can directly be surfed the Net, in cold energy recycle system, according to the theory of energy cascade utilization, the cryogenic natural gas of expander outlet is first after brine pit heats up, enter water reservoir to continue to utilize cold energy, ensure to reclaim cold energy to greatest extent; Solar thermal collector and electric heating is utilized to ensure effectively rising again of rock gas.

During work, first high-pressure natural gas enters pressure energy recycle device, rock gas enters decompressor successively and carries out expansion step-down after water separator dehydration, and utilize decompressor inlet outlet pressure differential drive electrical generators to generate electricity, cryogenic natural gas after expansion enters cold energy recycle device after the heavy hydrocarbon that gas-liquid separator separates liquefies, in the process, while utilizing the recycling pressure energy of natural gas that expands, achieve the pressure regulation process of high pressure pipe network rock gas, then, cryogenic natural gas after removing heavy hydrocarbon is successively through brine pit and water reservoir, fully carry out heat exchange, thus reclaim the cold energy of pipe network rock gas, ensure that cryogenic natural gas is normally risen again finally by electric heater.

Compared with prior art, the utility model has the following advantages:

One, energy utilization rate is high: the utility model replaces original pressure regulator valve group and the work of heating temperature back system, and realize the pressure regulation at door station and task of rising again, pipe network pressure energy of natural gas and cold energy obtain effective recycling, improve system energy comprehensive utilization ratio.

Two, it is safe and reliable: before water separator is arranged on decompressor by the utility model, after preventing step-down cryogenic natural gas occur in follow-up flow process ice block up, and after decompressor, before brine pit, gas-liquid separator is set, the temperature drop that rock gas step-down can be utilized to cause directly is separated the heavy hydrocarbon of liquefaction, prevent the equipment in follow-up flow process from blocking, and then safeguards system can safe and reliablely be run.

Three, multiple protection of rising again: the utility model devises the temperature back system fully recycling cryogenic natural gas cold energy after step-down, this system comprises quadruple and to rise again protection:

The utility model devises brine pit in cold energy recycle device, returns temperature protection, not only effectively can improve the temperature of cryogenic natural gas, and the cold energy can recycling cryogenic natural gas carries out ice making as first;

The utility model brine pit rear end in cold energy recycle device devises water reservoir, this be second return temperature protection, on the one hand, the cold energy of further recovery cryogenic natural gas, precooling is carried out to the water for ice making, improve this system cold energy use efficiency, on the other hand, reduce the required energy consumed of heating of rising again further;

The utility model makes full use of factory roof between municipal grid and water reservoir in cold energy recycle device, increase design solar energy collector system, as the triple protection of temperature back system, utilize solar thermal collection system to ensure that rising again under extreme weather conditions, thus reduce power consumption;

The natural gas line of the utility model water reservoir rear end in cold energy recycle device is provided with the quadruple guarantee of electric heater as temperature back system, the Security of rising again of increase system, this heating equipment, according to tempering temperature and downstream tube network users demand temperature value, regulates.Under normal operation, electric heater without the need to opening, system first three return temperature design can safeguards system when as far as possible not opening electric heating (not consuming high-quality energy), the normal pressure regulation of pipe network system is risen again course of conveying.

Four, energy-efficient: the utility model is considered according to operating conditions different, take different energy-efficient operating schemes: utilize expansion work to generate electricity throughout the year and directly surf the Net, summer, make full use of cold energy ice making, in winter, utilize cold energy ice making to greatest extent, simultaneously according to the temperature requirement of water reservoir, suitably add solar energy heating energy, the electric heater started under extreme case in main system ensures to rise again; Conditioning in Transition Season, abundant cold energy reclaims, and the runnability according to actual conditions adjustment electric heater, solar thermal collection system ensures to rise again, while the pressure energy realizing system and cold energy efficiency utilization, the Security of safeguards system operation.

Five, clear in structure, transformation convenience: pressure energy recycle device distinguishes skid with cold energy recycle device respectively, native system directly can carry out reasonable reformation to existing pipe network natural gas pressure regulating door station, there is the structural advantages such as easy installation, quick detachable, easy care, ensure that the stable operation of original equipment and new equipment.

Accompanying drawing explanation

Fig. 1 is system architecture schematic diagram of the present utility model.

Wherein, 1, pressure maintaining valve, 2, water separator, 3, decompressor, 4, transmitting assemblies, 5, generator, 6, blowdown piping, 7, gas-liquid separator, 8, brine pit, 9, water reservoir, 10, dip tank, 11, freezer, 12, ice bucket, 13, electric heater, 14, solar thermal collector.

Embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is described in detail.

Embodiment:

Be described to the pipe network pressure energy of natural gas of 2MPa and cold recoverable effective utilization system to be applicable to 5MPa pressure regulation below, as shown in Figure 1, device mainly comprises: pressure maintaining valve 1, water separator 2, decompressor 3, transmitting assemblies 4, generator 5, blowdown piping 6, gas-liquid separator 7, brine pit 8, water reservoir 9, dip tank 10, freezer 11, ice bucket 12, electric heater 13 and solar thermal collector 14.

Be provided with First Heat Exchanger in brine pit, in water reservoir, be provided with the second heat exchanger.Wherein, be cryogenic natural gas in First Heat Exchanger pipe, pipe is outer is salt solution (about-10 DEG C), is cryogenic natural gas in the second Tube Sheet of Heat Exchanger, is the water-bath of about 5 DEG C outside pipe; Electric heater 13 normal condition is in closed condition electric heater and does not work, tank outlet temperature do not reach rise again require time, open electric heater 13 heated natural gas, the import of decompressor 3 is the high-pressure natural gas after water separator 2 dewaters, its outlet is connected with electric heater 13 with the rock gas passage of gas-liquid separator 7, brine pit 8 and water reservoir 9 successively, and electric heater 13 rock gas channel outlet connects downstream natural gas transport pipe network again; In water reservoir 9, water is from municipal grid, adjust after temperature through solar thermal collector device 14 and enter water reservoir 9, water is in water reservoir 9 after precooling, by being pumped into ice bucket water filling place, be distributed in ice bucket 12, subsequently, inserted in brine pit 8 by the ice bucket 12 after water filling and carry out ice making, after ice making completes, water is deposited into freezer 11 with the form of ice; The heat exchange of rock gas in salt solution only need stir and strengthen salt solution and manage in brine pit 8, without the need to other course of conveying.

Here water separator 2 adopts molecular sieve dehydration device, and turbo-expander selected by decompressor 3, and transmitting assemblies 4 adopts gearbox.

Pressure energy recycle device: the high-pressure natural gas of 5.1MPa, 52000Nm3/h is through pressure maintaining valve 1, after adjustment pressure enters the dehydration of dehydration gas 2 to 5.0MPa, enter decompressor 3 and be depressurized to 2MPa, the mechanical energy drive electrical generators 5 that pressure reduction in this process produces generates electricity, and after step-down, natural gas temperature is reduced to-37.4 DEG C.

Cold energy recycle device: the cryogenic natural gas of-37.4 DEG C, after gas-liquid separator 7, is cooled to about-10 DEG C after entering brine pit 8 heat exchange.Subsequently, the cryogenic natural gas of about-10 DEG C enters water reservoir 9 heat-exchange temperature and rises to more than 0 DEG C, and electric heater 13 is as subsequent use, once First Heat Exchanger and the second heat exchanger cisco unity malfunction, opening electric heater 13 pairs of cryogenic natural gas are risen again.

After municipal water and solar thermal collector device 14 regulate 49 DEG C, 4.23 tons/time water pass into water reservoir 9 and carry out precooling, ice bucket 12 water filling place is pumped to when water is chilled to 5 DEG C in advance, the ice bucket 12 noting water is placed in the salt solution of about-10 DEG C and carries out ice making, after ice making completes, utilize dip tank 10 to take out ice cube, put into freezer 11.

In this process, the generated energy of high pressure pipe network natural gas via turbo-expander is 810.4kW, and ice-making capacity is 101.49 tons/day, and through calculating, the result of calculation of above-mentioned example mesohigh pipe network pressure energy of natural gas recovery and cold energy recycle system is in table 1:

The result of calculation table of table 1 pipe network pressure energy of natural gas and cold recoverable effective utilization system

As a kind of new pipe network pressure energy of natural gas, through theory analysis and practical proof, think that native system is practicable, mainly contain the following aspects as Theory and applications foundation:

First, the decompressor that native system adopts obtains application, technology maturation in related industries, and equipment is stablized, and coincidence theory designing requirement, is therefore applied to pressure energy of natural gas and utilizes the stable operation that can ensure system in system; Secondly, native system principle is simple, and Be very effective, meets the precondition of energy-saving application Technique Popularizing, and under the prerequisite of assurance device stable operation, discarded pressure energy of natural gas and cold energy are fully used originally, have remarkable result to raising efficiency of energy utilization; Meanwhile, independently design and reasonably collocation, run without impact original equipment, and be almost applicable to whole operating mode; In addition, in this model utility, the recycling process of pressure energy and cold energy consumes rock gas itself hardly, and the benefit brought economically is also considerable.Therefore, this device has the potentiality well popularized and promote.

In sum, the utility model meets the requirement of the adjustment of pipe network gas pressure and temperature recovery.This device obtains promotion and application widely, effectively can utilize the complementary energy (pressure energy and cold energy) of high-pressure natural gas pipeline pressure regulation process, promoting overbottom pressure in pipe network natural gas transport process and utilize the development of technology in China's power-saving technology, is the important means of the development tactics adapting to China's high efficiency of energy cascade utilization.And through deep measuring and calculating with consider to analyze, after adopting project of the present utility model payoff period, annual earnings are higher, contribute to the use value better embodying overbottom pressure in high-pressure natural gas Pipeline transport process, have fine impetus to the fundamental state policy of China's energy-saving and emission-reduction.

Claims (8)

1. a pipe network pressure energy of natural gas and cold recoverable effective utilization system, in order to the pressure energy of natural gas in high-pressure natural gas pipeline is reclaimed generating and pipe network natural gas cold energy is reclaimed ice making, it is characterized in that, described system comprises pressure energy recycle device and cold energy recycle device, described pressure energy recycle device is connected with cold energy recycle device and high-pressure natural gas pipeline respectively, described cold energy recycle device is connected with downstream gas pipeline and municipal grid respectively, pressure maintaining valve (1) is provided with between described high-pressure natural gas pipeline and pressure energy recycle device.

2. a kind of pipe network pressure energy of natural gas according to claim 1 and cold recoverable effective utilization system, it is characterized in that, described pressure energy recycle device comprises water separator (2), decompressor (3), transmitting assemblies (4), generator (5), blowdown piping (6) and gas-liquid separator (7), described high-pressure natural gas pipeline, water separator (2), decompressor (3), blowdown piping (6), gas-liquid separator (7) is connected successively with cold energy recycle device, described decompressor (3) is also connected with generator (5) by transmitting assemblies (4).

3. a kind of pipe network pressure energy of natural gas according to claim 2 and cold recoverable effective utilization system, it is characterized in that, described cold energy recycle device comprises brine pit (8), water reservoir (9), electric heater (13) and solar thermal collector (14), described gas-liquid separator (7), brine pit (8), water reservoir (9), electric heater (13) is connected successively with downstream gas pipeline, ice bucket (12) is provided with in described brine pit (8), described ice bucket (12) provides ice making water by water reservoir (9), described water reservoir (9) is connected by the municipal grid of solar thermal collector (14).

4. a kind of pipe network pressure energy of natural gas according to claim 3 and cold recoverable effective utilization system, it is characterized in that, First Heat Exchanger is provided with in described brine pit (8), the second heat exchanger is provided with in described water reservoir (9), the gas pipeline of the gas pipeline of described First Heat Exchanger, the gas pipeline of the second heat exchanger, electric heater (13) is connected successively with downstream gas pipeline, and the water loop of described First Heat Exchanger, the water loop of the second heat exchanger, solar thermal collector (14) are connected successively with municipal grid.

5. a kind of pipe network pressure energy of natural gas according to claim 3 and cold recoverable effective utilization system, it is characterized in that, described cold energy recycle device also comprises dip tank (10) and freezer (11), described dip tank (10) is in order to be separated the ice in ice bucket (12) with staving, and described freezer (11) is in order to deposit the ice separated.

6. a kind of pipe network pressure energy of natural gas according to claim 3 and cold recoverable effective utilization system, it is characterized in that, water temperature detection device is also provided with in described water reservoir (9), described water temperature detection device is by the temperature of Real-Time Monitoring water reservoir (9) water, thus control solar thermal collector (14) is heated.

7. a kind of pipe network pressure energy of natural gas according to claim 2 and cold recoverable effective utilization system, it is characterized in that, described water separator (2) is molecular sieve dehydrator, described decompressor (3) is turbo-expander, and described transmitting assemblies (4) is gearbox.

8. a kind of pipe network pressure energy of natural gas according to claim 3 and cold recoverable effective utilization system, it is characterized in that, this system also comprises the natural gas branch pipe road in parallel with water reservoir (9), when water reservoir (9) is not enough to rock gas to rise again to when requiring temperature, rock gas is risen again to electric heater (13) heating by natural gas branch pipe road.