DE3505320A1 - Installation for regulating the amount of gas to be fed into a secondary distribution system from a high-pressure gas line - Google Patents

Abstract

The invention relates to an installation for regulating the amount of gas to be drawn from a high-pressure gas line and to be fed into a secondary distribution system which is at medium or low pressure. In this installation, a buffer accumulator is provided for equalising fluctuations of gas consumption. In order to enable essentially even off-take of gas from the high-pressure gas line, the object being to avoid exceeding the permitted maximum gas off-take amount per time unit, while employing the buffer accumulator which has a comparatively small volume, keeping investment costs low, and trying to minimise the amount of energy required for operating the installation, it is proposed that the buffer accumulator be connected to a pressure-boosting installation which is fitted with equipment as set forth in the claims. <IMAGE>

Description

The invention relates to a system for regulating the from a high

Pressurized gas line to be removed, in a medium or low pressure having The amount of gas to be fed into the consumer network with a buffer storage tank to compensate of fluctuations in gas consumption according to the preamble of claim 1.

About the gas pressure in the medium or low pressure network of a gas supply system to keep it constant even with fluctuating gas consumption, and to keep it even To effect extraction from the high pressure gas line is according to the prior art either the pressure level in the consumer network changed or it is between high pressure network and low or medium pressure network a buffer storage (e.g. in spherical or cylindrical shape) used. The use of a buffer memory is the more effective of the two possibilities. To effectively balance the fluctuations in gas consumption and to be able to keep the gas pressure in the consumer network constant, the buffer storage must have a sufficiently large volume. In practical use this is required volume often very large, so that the investment costs for a such buffers are considerable. These investment costs are available Provision fees that the operators of the high-pressure gas pipeline according to the maximum Set consumption of the gas supply system, opposite. To the commitment fee To reduce, therefore, the withdrawal from the high pressure gas line must as possible over be constant all day.

The object of the invention is to provide a system of the generic type to the effect that with a comparatively small volume of the buffer memory and thus low investment costs, an essentially uniform gas extraction from the high pressure gas line and exceeding the maximum permissible Gas withdrawal amount per unit of time is avoided, the energy expenditure for the Operation of the system should be as low as possible.

This object is achieved according to the invention by a system with the Features of claim 1. Preferably, embodiments of the invention result from the subclaims 2-7.

The invention is to be explained in more detail below.

The figure shows the transition area between a high pressure gas line and a consumer network arranged buffer storage with a pressure booster system, which is equipped in terms of equipment within the meaning of the invention.

The amount of gas withdrawn from the high pressure gas line 2 is by means of a Quantity measuring device 16, which at the same time in addition to the volume flow also the pressure and the temperature of the gas is determined, determined and reported to the control device. This control device for the control of the entire system is in this case as a network system of the two electronic computers 20 and 21 executed. When the buffer tank is full 1 and a gas consumption in the consumer network 7 that is below the agreed maximum Withdrawal is, gas flows from the high pressure gas line 2 directly over the corresponding throttled direct withdrawal valve 13 in the consumer network 7, the central or low pressure. The pressure in the consumer network 7 is measured on the pressure measuring device 17 is determined and also continuously reported to the computer 20. Now reaches the Gas consumption, the direct withdrawal valve 13 so throttled that the maximum withdrawal is not exceeded, and the pressure at the pressure measuring device 17 initially drops. This pressure loss is recorded by the computer 20 by actuating the accumulator emptying valve 14, through which the line 8 gas from the buffer storage 1 can be fed into the consumer network 7, balanced. The valves 10, 11 and 12, which will be explained later, are included closed.

When the gas consumption falls, the storage emptying valve 14 is again throttled accordingly. If the gas consumption falls below the set maximum Withdrawal amount per unit of time, the accumulator emptying valve 14 is closed. The computer 20 then transmits the difference, i.e. the under-consumption in relation to it the maximum purchase amount per unit of time to the computer 21. This then checks the differential pressure (at the accumulator filling valve 10) in the feed line 4 from the high pressure gas line 2 to buffer storage 1. The differential pressure measuring device 19 is provided for this purpose. is the pressure downstream of the storage tank filling valve 10 and thus in the buffer storage tank 1 is lower than that in the high pressure gas line 2, gas is supplied via the Spelcher filling valve 10 fed directly into the buffer tank 1.

If the buffer store 1 has almost the pressure of the high pressure gas line 2 reached, the memory filling valve 10 is completely closed by the computer 21 while the expansion engine inlet valve 11 and the compressor outlet valve 12 are opened will. When the expansion engine inlet valve 11 is open by the high pressure gas line Device 2 connected gas line 6 high pressure gas flow through the expansion engine 5 and taken over into the consumer network 7 in the relaxed state (medium or low pressure) will. The expansion motor 5 drives a compressor 3, which is in a line 4 'lying parallel to the line 4 with a storage filling valve 10 located, which is also connected to the high pressure gas line 2 and in the buffer tank 1 leads (in the figure the line 4 'opens into the last section of the supply line 4).

Gas therefore passes through the compressor inlet valve 12 from the high-pressure gas line 2 in the compressor 3, is compressed and fed into the buffer storage 1 until this is filled to the maximum. The valves 11 and 12 can also be behind the expansion motor 5 or the compressor 3 can be arranged.

The expansion engine 5, which is a turbine or a piston engine may be, drives the compressor 3. Piston engines are used for small gas throughputs to be preferred for both the compressor 3 and the expansion motor 5, since their functionality and their efficiency practically do not depend on the flow velocity depend.

With the help of a speed or number of strokes measuring device 22, the speed / number of strokes of the compressor 3 or expansion motor 5 are continuously monitored by the computer 21. To ensure that gas is extracted from the high-pressure gas line as evenly as possible and also not to exceed the maximum permissible speed / number of strokes, the Speed / number of strokes adjusted to an optimal value. For this purpose, the computer provides 21 the opening ratio of the valves 11 and 12 via corresponding actuators to a suitable value.

So that the gas does not cool down too much during the expansion, which leads to freezing of the valves, the heat of compression from the compressor 3 can result Gas withdrawn via a heat exchanger 9 and to heat the expansion engine 5 can be used for th gas. Likewise, the relaxation motor 5 with the The cooling water of the compressor 3 is warmed up.

If additionally through the expansion engine inlet valve 11 gas into the Consumer network 7 is fed, the pressure at the pressure gauge 17 increases, whereupon the computer 20 causes a throttling of the gas supply via the direct withdrawal valve 13. If the gas consumption continues to fall, then the pressure on the pressure measuring device 17 is only reduced regulated by the expansion motor inlet valve 11, i.e. the direct extraction valve 13 is closed. As soon as the maximum storage pressure for buffer storage tank 1 is reached is, the computer 20 via the computer 21 closes the valves 11 and 12 caused, the then falling pressure in the consumer network 7 via the direct extraction valve 13 is balanced again.

If the gas consumption increases again, the remains connected to the computer 21 Valves 10, 11 and 12 are closed and the entire gas withdrawal continues directly from the high pressure gas line 2 via the Dlrektentnahmeventll 13. As soon as the consumption rises to the value of the fixed maximum withdrawal amount, that will Direct extraction valve 13 is throttled accordingly and pressure equalization takes place again via the memory emptying valve 14 from the buffer memory 1, with which the already described rule cycle starts again.

In order to decouple the regulation from the inertia of the consumer network 7, it is advisable to install a pressure control valve in the feed area of the consumer network 15 to be provided.

The advantage of the system according to the invention is that the volume of the Buffer 1 can be kept comparatively low because the fed Gas is compressed beyond the pressure of the high pressure gas line and thus more gas can be recorded by the buffer memory 1. Operation of this facility requires no great effort because with suitable dimensioning of all units the Energy for the compressor 3 by the expansion motor 5 when the gas is fed in can be delivered into the consumer network 7.

Claims (7)

System for regulating the from a high pressure gas line in a consumer network Amount of gas to be fed Patent claims: 1. System for regulating the gas from a high-pressure gas line to be taken, to be fed into a medium or low pressure consumer network Gas quantity, with a buffer storage to compensate for fluctuations in gas consumption, a quantity measuring device for ongoing determination - taking pressure into account and temperature - the amount of gas withdrawn from the high pressure gas line, an in Direction of flow behind the flow meter arranged direct extraction valve to Control of the overflowing directly from the high pressure gas line into the consumer network Gas quantity, one branching off between the quantity measuring device and the direct extraction valve, a storage filling valve having supply line to the buffer storage, one of the Buffer memory leading to the consumer network, having a memory discharge valve Sampling line, one pressure measuring device each for the pressure of the consumer network and the pressure of the buffer storage and with a control device that is with the Quantity measuring device, the pressure measuring devices and the actuators for the direct extraction, the accumulator filling valve and the accumulator emptying valve are connected in terms of control technology is, the valves depending on the respective amount of gas consumption are controlled in the consumer network with regard to compliance with one per unit of time maximum permissible gas withdrawal rate from the high-pressure gas line, d a d u r c h g e k e n n n n e i c h n e t that parallel to the supply line (4) with the Speicherfüllventll (10) one also in front of the Direktentnahmeventll (13) with the high pressure gas line (2) connected supply line (4 ') to the buffer memory (1) is arranged, which is through ei n a Verdlchterelnlaßventll (12) can be opened and used to increase the Pressure in the buffer storage (1) above the pressure in the high pressure gas line (2) a compressor (3) is switched on, which can be driven by an expansion motor (5) is that one with the high pressure gas line (2) connected and with an expansion motor inlet valve (11) to be opened gas line (6) is provided, with the high pressure gas on the expansion engine (5) given and introduced into the consumer network (7) in the relaxed state can and that the actuators of the relaxation motor nl aßventil 5 (11) and des Compressor outlet valve 5 (12) and a tachometer (22) for detecting the Speed of expansion motor (5) and compressor (3) with the control device are connected in terms of control technology. 2. Plant according to claim 1, d a d u r c h g e k e n n z e 1 c h n e t that in the direction of flow behind the compressor (3) a heat exchanger (9) for the preheating of the gas in the gas line (6) to the expansion engine (5) with the heat of the compression from the compressor (3) into the buffer storage (1) Gas is provided. 3. Plant according to claim 1 or 2, d a d u r c h g e k e n n z e i c h n e t that the cooling water of the compressor (3) can be directed to the expansion motor (5) is. 4. Plant according to one of claims 1-3, d a d u r c h g e k e n n z e 1 c h n e t that the compressor (3) and the expansion motor (5) as piston engines are trained. 5. Plant according to one of claims 1 - 4, d a d u r c h g e k e n n z e 1 c h n e t that on the Spelcher filling valve (10) a differential pressure measuring device (19) is provided, which is connected to the control device in terms of control technology. 6. Installation according to one of claims 1-5, d a d u r c h g e k e n n z e 1 c h n e t that the control device is designed as an electronic computer system is. 7. Plant according to claims 5 and 6, d a d u r c h g e k e n n z e i c h n e t that the control device as a network system of two electronic Computer (20, 21) is designed, the computer (20) with the quantity measuring device (16), the pressure gauges (17, 18) for the consumer network (7) and the buffer storage (1) and with the actuators of the direct extraction valve (13) and the Spelcher emptying valve (14) is connected in terms of control technology and that the computer (21) with the actuators the compressor inlet valve (12), the expansion engine inlet valve (11) and the Storage filling valve (10) as well as with the speed measuring device (22) and the differential pressure measuring device (19) is connected in terms of control technology.