FR2510718A1 - GAS SUPPLY STATION - Google Patents

Abstract

IN THIS SUPPLY STATION, THE POTENTIAL ENERGY OF THE GAS CAN BE TRANSFORMED INTO REFRIGERANT ENERGY AND OR IN MECHANICAL WORK WITH THE HELP OF A REGULATOR 6. THE REFRIGERANT ENERGY IS USED FOR COOLING REFRIGERANT SYSTEMS 11, AND THE MECHANICAL WORK CAN BE USED FOR DRIVING THE REFRIGERATION COMPRESSOR 12 OF A REFRIGERATION CIRCUIT KNOWN IN ITSELF AND ALSO FOR THE RECOMPRESSION OF THE GAS LEAVING FROM THE REGULATOR 6, SO THAT THE COOLING POWER PRODUCED BY THE DEVICE 6 CAN BE USED THUS BE RAISED TO A SIGNIFICANT EXTENT, REDUCING RELAXATION BELOW DELIVERY PRESSURE.

Description

The subject of the invention is a gas withdrawal station which comprises a

  high pressure side connected to the long distance pipeline, a low pressure side connected to the consumer distribution network and a pressure reducing member interposed between these two sides. In the natural gas industry,

  to a large extent the transport of gas by pipelines.

  The transport of the required quantity of gas by pipeline

  tions can only be achieved with the use of energy.

  Potential energy must be transmitted to the gas

  kinetic energy so that the gas can circulate in the pipeline from one station to another and also to the following ones The energy necessary for the

  gas transport is generated by the use of cortipres-

  pressure boosters The potential energy of the gas acts on the medium to be transported in the form of a pressure The value of the pressure brought into play at this moment, which is the starting pressure, is determined by

  the final pressure required at the end point of the canali-

  long distance, by the pressure loss allowed-

  as well as by the diameter of the tubes.

  The inlet pressure of gas transported over long distances is much greater than the pressure

  maximum allowable for consumers who are connected

  long-distance pipe dice along the length of this pipe and even for those at the end of this long-distance pipe The value of the inlet pressure generally oscillates between 20 and 35 atm of absolute pressure, while the allowable pressure for consumers is between 3 and

atm of absolute pressure.

  The inlet pressure is reduced to the value of

  the pressure necessary for consumers through

  ductors and by pressure regulators.

  The pressure is lowered in the

  gas withdrawal stations In technological solutions

  giques which are currently used, this pressure reduction is obtained in the gas withdrawal stations by the use of throttle regulators In cos regulators, the gas which yields its potential energy does not provide any work It results that the quantity

  energy invested is lost to a significant extent.

  The object of the invention is to create a gas withdrawal station in which the potential energy

  the gas inlet pressure is taken advantage of.

  The subject of the invention is therefore a

  gas withdrawal which has a high pressure side

  strung to long distance pipeline, one side low

  pressure connected to the distribution network for consumption

  torers as well as an interposed pressure reducing member

between these two sides.

  The essence of the invention is that

  the pressure reducing member consists of a

  china working by relaxation, which we will call a dispo-

  sitive regulator in the suite, the output of which

  ment is connected to the drive input of machines using mechanical work, while its tubing

  output is connected to an installation using energy

  refrigeration unit at least one element of which is produced in the form of a heat exchanger used to cool the

  high pressure gas and placed upstream of the machine

  valiant by expansion, and a second element of which is, on the contrary, produced in the form of a heat exchanger which cools the heat transmission medium by a

battery of refrigerants.

  The station according to the invention therefore transforms the potential energy of the gas into refrigerating energy and / or into mechanical work by excluding the throttle expander which has been used until now The refrigerating energy of the enthalpy linked to the isentropic process, that is to say the decrease in temperature, is exploited in applications of the refrigeration industry This is how, for example, the needs in refrigerating energy

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  a cold store with refrigeration capacity

  300,000 kcal / h or a deep-freezing workshop can be covered by a gas filling station according to the invention in which consumers' gas needs reach, if twelve - hours of consumption are taken into account per day, the consumption of 20,000 Nm 3 / h, and o the amplitude of the pressure decrease for the same time interval reaches the relaxation ratio

1: 3.

  In fact, at an expansion ratio of 1: 3, there is generally no condensation of liquid hydrocarbon at the outlet of the gas from the long-distance pipeline, which would disturb the working mode of the machine working by relaxation This results from the fact that

  gas from the long-distance pipeline is already pre-

  adorned at the injection site and contains 94 to 98% methane, the condensation temperature of which in this pressure range is approximately -1000 C, and which, on the contrary, counts

  given the preparation, the gas does not contain any

heavy hydrocarbons.

  The cooling energy produced in the racking station can be economically transported in a

  radius of 5 to 10 km, that is to say, in practice, the sta-

  gas withdrawal and the cold store do not necessarily have to be built one nearby

the other.

  According to the invention, the machine which operates the

  mechanical work is a compressor whose inlet manifold

  trée is connected to the outlet pipe of the pressure reducing device through the installation using energy

  while the outlet pipe of the

  presser is connected via a distributor body, partly to the consumer distribution network, and partly to the inlet manifold of the

  expansion device In this solution according to the invention

  tion, using the mechanical work developed by the expansion device to perform a recompression, we

  can increase the expansion ratio of the working machine-

  lant by trigger, because the trigger in the device

  regulator is reduced below the delivery pressure

  sound This technical measure increases the cooling power

  development developed by the regulator. According to another characteristic of the invention,

  the compressor connected to the outlet of the expansion device

  This can also be done in the form of a compress.

  sor of a refrigeration circuit known per se to expand

  Deur à throttling -This variant offers in practice a possibility of making two independent refrigeration circuits. Within the framework of the invention, the machine connected to the pressure reducing device and which develops mechanical work can also be an electric generator, which represents security, especially

  in the event of a power supply failure.

  Another characteristic of the invention, according to

  which the pressure reducing device forming the reducing member

  pressure regulator is fitted with a bypass line containing a throttle valve, is desirable

  for safety reasons In the event of a function failure-

  related to the pressure reducing device, or in any case

  o the cold store does not require cooling energy

  the regulator can then be switched off

circuit.

  A great advantage of the gas withdrawal station according to the invention is that it transforms

  the potential energy of the gas arriving in refrigerated energy

  mechanical energy using a simple and easy to operate pressure reducing device

  time, it ensures in the simplest way the use

  tion of the developed cooling energy.

  A particular advantage lies in the fact that the construction of cold stores and deep-freezing workshops is made much simpler and much less expensive in this way, since these warehouses and workshops do not require very expensive compressor rooms or compressors In practice , we don't have to go up

  in the cold store that the pump that circulates

  the coolant and the coolant bank.

  Other features and advantages of the

  vention will appear during the description which goes

  follow In the accompanying drawings, given only as

example,

  Figure 1 shows a block diagram of a gas withdrawal station according to the invention; Figure 2 is a block diagram of a

  another gas withdrawal station according to the invention.

  In the exemplary embodiment according to FIG. 1, the gas which arrives from the network of high pressure gas pipes, not shown, via the bypass pipe 1, is introduced, through the

  two dust separators 2 a and 2 b connected in parallel

  lele, in the heat exchanger 3 which forms one of the

  elements of the installation using refrigerated energy

  The heat exchanger 3 is essentially

  read in the form of a gas-gas heat exchanger, in

  which the incoming high pressure gas is cooled.

  The condensate that forms in the high pressure gas as a result of cooling is separated in the separator

  of drops 4 placed downstream of the heat exchanger 3 -

  Then, the gas under high pressure is freed of its water vapor in the dryers 5 a, 5 b, which are

  also connected in parallel with each other

  tre The high pressure gas thus prepared is sent from desiccators Sa and 5b into the pressure reducing device 6, which constitutes the machine working by expansion, and it is expanded to a pressure lower than the withdrawal pressure. During the expansion, it there is a significant decrease in the enthalpy of the gas and, as a result

  fact, also a significant decrease in temperature

  ture of this gas In the droplet separator 7, the conden-

  sat which possibly separates from the gas which leaves through the outlet pipe of the pressure reducing device 6 is eliminated

  gas, which already has a low pressure

  ser the cold gas at low pressure in the primary side of the heat exchanger 8 which forms one of the elements

  of the refrigeration energy installation.

  The refrigerant battery 10 is connected to the secondary side of the heat exchanger by means of a closed loop pipe transporting the heat transmission medium, which is equipped with the circulation pump 9 The refrigerant battery 10 is placed in the refrigerated enclosure 11-of the warehouse

refrigerator not shown.

  In the heat exchanger 8, the gas, by

  heating, transmits part of its cooling energy to the heat transmission medium and cools the latter The circulation of the heat transmission medium by the pump 9 guarantees the continuity of the

  supply of refrigerant battery cold.

  The low pressure gas leaving the heat exchanger 8 is then returned via a tubular pipe

  at the primary side of the heat exchanger 3, where it cools

  says the high pressure gas sent through the sepa-

  dust generators 2 a and 2 b The low pressure gas which passes through the primary side of the heat exchanger 3 is then recompressed to the withdrawal pressure (or outlet pressure) by means of the compressor 12, which is

  connected (coupled) to the outlet of the pressure reducing device 6.

  Part of the gas reheated during the com-

  pressure and which exits through the outlet pipe of the compressor

  sor 12 is returned to the inlet manifold of the pressure reducing device 6 by means of the distributor member, while

  the other part of this gas is sent to the distribution network

  bution 14 through the dryer 5 a or 5 b, which works

  periodically, as well as through the

measure 13.

  In the embodiment, and as also indicated by the block diagram, the gas can

  be sent to consumers by traditional conduct-

  equipped with the throttle regulator 15, in anticipation

  in the event of a failure in the installation

  technology as well as in case the refrigerated warehouse

  fique would not require cooling energy.

  In the exemplary embodiment shown in FIG. 2, the gas arriving through line 1 stuck on the

  network of high pressure gas pipes, not shown

  smelled, is sent, in the same way as in the example

  cente, through the dust separators 2 a or 2 b as well as through the heat exchanger 3, the drop separator 4 and the desiccators 5 a, 5 b and the high gas

  pressure thus prepared is relaxed in the device

  tensioner 6 then pass, crossing the drop separator

  tes 7, in the primary side of the heat exchanger 8 of the cold gas cooling energy installation The secondary side of the heat exchanger

  8 is equipped, in the same way as in the example of a

  previous reading, of a battery of refrigerants which transports the medium of transmission of heat and is

  equipped with a circulation pump 9

  refrigerants 10 is arranged in the refrigeration chamber 11,

  consisting of a freezing installation,

  refrigeration tank not shown The heated low pressure gas which serves on the primary side of the heat exchanger 8 passes, in the same way as in the example of

  previous achievement, through the primary side of the é-

  heat changer 3, where it transfers another part of its cooling energy to the high pressure gas supplied, which

  is already free of dust Gas at low pressure

  cold ion passing through the heat exchanger 3 then passes through the primary side of a heat exchanger

  16 which, on its secondary side, is connected by a connector

  picks up on the outlet pipe of compressor 12 and which

  also forms part of the operating installation

  tion of the cooling energy Then, part of the low pressure gas which is now reheated is * sent to the inlet pipe of the pressure reducing device 6,

2510718-

  while the other part is sent to the distribution network.

  bution 14 through desiccators 5 a, 5 b which work-

  slow periodically, and through the measuring device 13. The compressor 12 connected to the expansion device is produced in the form of the compressor of a refrigeration circuit provided with the throttle expansion valve 17 and which

  includes the refrigerant battery 18 The cooling medium

  heated gaseous cooling which exits through the outlet pipe of the compressor 12 is condensed in the heat exchanger 16 The battery of refrigerants 18 covers the cold requirements of the cold storage chamber 19

  of the cold store not shown.

  The embodiment shown in Figure 1 can advantageously be used at lower

  long-distance pipeline tapping pressures.

  The embodiment shown in FIG. 2 is generally to be recommended in the case of pressures greater than 25 atm of absolute pressure of long-distance pipelines, and also in the case where there is a need

freezing.

Claims (6)

  1 gas withdrawal station which has a high pressure side connected to the long-distance gas pipeline, a low pressure side connected to the consumer distribution network, as well as a pressure reducing member inserted between these two   sides, characterized in that the pressure reducing member   sion is a machine working pa 2 trigger, hereinafter called a pressure reducing device (6), whose drive output is connected to the ent-4 e drive one or more machines (12) operating a job mechanical, while its outlet pipe is connected   to an installation (3, 8, 16) exploiting the refrigerated energy   at least one element of which is produced in the form of a heat exchanger (3) used to cool the gas   at high pressure and placed upstream of the working machine-   lant by expansion and at least one other element of which is produced in the form of a heat exchanger (8) which cools the heat-transmitting medium of a refrigerant battery (10).   2 Gas filling station according to resale   dication 1, characterized in that the machine operating   mechanical work which is connected to the device   tensioner (6) is a compressor (12) whose intake manifold   trée is connected to the outlet pipe of the device   regulator (6) through the installation (3, 8, 16) operating   both the refrigeration energy, the outlet pipe of the compressor (12) being connected via a distributor, partly to the distribution network   to consumers (14), and in part to the manifold   inlet of the pressure reducing device (6).   3 Gas filling station according to one of the   claim 1 and 2, characterized in that the compress   sor (12) connected (coupled) to the outlet of the expansion device   (5) is produced in the form of the compressor of a   refrigeration circuit known per se equipped with a deten-   choke valve (17) and a refrigeration battery rants (18).   4 Gas filling station according to resale   dications 1 and 3 taken together, characterized in   that it has two independent refrigeration circuits   dants from each other, one of which includes the heat exchanger (8) connected to the outlet pipe of the expansion valve device (6) while the other includes the compressor   (12) connected to the output shaft of the expansion device (6).   Gas filling station according to one   conch of claims 1 to 4, characterized in that   the machine connected to the output shaft of the expansion device   deur (6) and who provides mechanical work is a general electric generator.   6 Gas filling station according to one   any of claims 1 to 5, characterized in that   that the pressure reducing device (6) forming the reducing member   pressure valve is fitted with a bypass line   a throttle regulator (15).   7 Gas filling station according to one   conch of claims 1 to 6, characterized in that   the station is fitted, as required, with filters   dust collectors (2 a, 2 b), drop separators (4, 7), desiccators (Sa, 5 b) and a circulation pump (9).