DE8300130U1 - WATER POT FOR GAS PIPES - Google Patents

Description

The innovation relates to a watering pot for gas lines, in particular for suction lines from gas Landfill, which is connected upstream of the gas processing and a gas inlet and outlet as well as a condensate drain having.

In gas pipes, especially in gas suction pipes from landfills, gas is transported that has more or less has less water content. Gas that accumulates and is extracted in landfills is, for example, at a medium level Temperature of 3o water saturated. The water content at 3o ° is approx. 3o gr / Nm. During the cold season the gas cools down considerably in the pipeline system, some of which is laid on the landfill. This will decrease the water storage capacity of the gas so that a considerable part of the absorbed water as condensate in the suction lines accrues. For this reason, especially in front of the gas treatment plant, water pots, i.e. Container in Use in which the flow rate is considerably reduced by increasing the volume, so that the Condensate can form. The condensate is then withdrawn discontinuously via the condensate drain. The disadvantage is that the actual suction line is not relieved and that condensate from the suction lines is not discharged or discharged in unsuitable places.

The innovation is based on the task of creating a largely location-independent, which does not affect the gas extraction To create watering pot, which is to be used in particular for landfill degassing.

The object is achieved according to the invention in that the Gas inlet and outlet designed as a flange connection and assigned to a tubular housing .sind, which is about the double cross-section of the suction line laid with a slope

having.

Such a watering pot can be switched on at any point in the suction line Condensate is safely deposited through the volume increase in the housing and through the existing condensate drain can be discharged. In particular, it is possible to place such dewatering pots directly on the landfill to arrange, with the condensate withdrawn from the gas is fed directly to the landfill again, where it is the favors further gas development.

According to an embodiment of the innovation, the housing, the flange connection and the condensate drain are made of plastic parts, preferably composed of polyethylene. Such a watering pot is advantageous both against the in summer sometimes very high temperatures on the landfills as well as against the low temperatures in winter insensitive. In addition, they are corrosion-resistant, so that they can also be used with aggressive gases "can without fear that external air will be sucked into the suction line as a result of the corrosion will.

An inexpensive watering pot is characterized by a plastic injection-molded part with flange connection and Condensate drain. Such parts can be manufactured inexpensively and in said way also be laid on or in the landfill.

to ensure the precipitation of the condensate in the housing of the watering pot, it is advantageous if the gas inlet in the area of the housing bottom and the gas outlet in the area of the upper part of the housing are set. Included the side of the system opposite to the gas inlet acts

housing as a kind of baffle plate, on which the gas is initially stopped and brought in a different direction. here the condensate is safely deposited there, especially because it then flows upwards into the gas outlet got to.

It is advantageous to arrange a baffle plate approximately in the middle of the housing. This baffle plate, for example is arranged in the vicinity of the condensate outlet, forces the inflowing gases to change direction and to precipitate the condensate carried along. The downstream space in the housing then acts as an additional one Fuse, where condensate may still be deposited there through a corresponding opening in the baffle plate drain and can be fed to the condensate drain.

A direct gas flow from the gas inlet to the gas outlet is reliably prevented when the baffle plate reaches the middle Flange connector of the gas outlet is formed pulled up. An increase in speed then advantageously occurs above the baffle plate on, which is then followed by a speed reduction in the downstream space in the housing.

A uniform and the accumulation of condensate appropriate discharge into the landfill is given by the condensate drain located between the gas inlet and the baffle plate merges into a drain line. It is there expedient to design the condensate drain as a siphon and to run in the drain line so as to Avoid entry of false air into the pipe network.

Around the watering pot also for different applications To make it usable, the downpipe of the siphon is designed to be extendable. This allows the siphon to remove the created Suppress accordingly deep in the drain line

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be arranged running.

The siphon and drain line are also expediently plastic parts, preferably polyethylene parts. So is the entire watering pot is insensitive to temperature fluctuations and aggressive gases.

Further details and advantages of the subject of the innovation emerge from the following description the accompanying drawing, in which a preferred embodiment with the necessary details and individual parts is shown. Show it:

Fig. 1 is a side view of the soaking pot

and
Fig. 2 is a front view of the soaking pot.

The soaking pot shown in Fig. 1 is, as indicated, switched into a suction line 2.

The watering pot consists of the gas inlet 4, the Gas outlet 5 and the condensate drain 6 having housing 7. In order to enable the connection to the suction line 2 at any point, gas inlet 4 and gas outlet 5 are provided with flange connections 8, 9. The watering pot 1 is largely independent of location.

The gas is supplied from the suction line 2 and the flange connection 8 through the gas inlet 4 into the housing 7 in the area of the housing bottom 1o. The gas outlet 5, on the other hand, is in the area of the upper housing part 11 arranged so that the gas can only get out of the housing 7 again after a corresponding deflection. Around Forcing the gas flow to be diverted at an early stage and deliberately precipitating the condensate carried along is an example

A baffle plate 12 is arranged in the middle of the housing. As can be seen from FIG. 1 and FIG. 2, the upper edge is sufficient 19 of the baffle plate 12 is pulled up approximately to the middle of the flange connection 9.

The condensate drain is let into the bottom of the housing 1o 6 in a drainage line 14 leading sufficiently deep into the respective landfill Condensate drain 6 into a siphon 15 over which the applied Suppress is designed correspondingly deep. It is useful for the downpipe 16 of the siphon 15 to be adjustable in length train so that a corresponding adjustment to existing negative pressures is possible. The position of the riser pipe 17 inevitably changes according to the length of the downpipe 16. In the deepest of the drain line 14 is an opening 18 is provided through which the condensate is continuously fed into the landfill or into a sewer or the like is derived.

Claims (9)

"Kustan" Kunststoff-Industrieanlagen GmbH, Wilhelm-Beckmann-Straße 18 / 43oo Essen 13 Watering pot for gas pipes Protection requirements 1. Watering pot for gas pipes, especially for Suction lines for gas from landfills, which is connected upstream of the gas treatment and a gas train and outlet and a condensate drain, characterized in that the gas cable (4) and outlet (5) as a flange connector (8, 9) are formed and assigned to a tubular housing (7) which has approximately twice the cross section of the Has a sloping suction line (2). 2. Watering pot according to claim 1, characterized in that that the housing (7), the flange connection (8, 9) and the condensate drain (6) made of plastic parts, preferably Polyethylene are composed. 3. Soaking pot according to claim 1, characterized by a plastic injection-molded part with flange connections (8, 9) and Condensate drain (6). 4. Watering pot according to claim 1 to claim 3, characterized in that that the gas inlet (4) in the area of the housing bottom (1o) and the gas outlet (5) are attached in the area of the upper housing part (11). 5- watering pot according to claim 1 to claim 4, characterized in that that approximately in the middle of the housing (7) a baffle plate (12.) is arranged. 6. Watering pot according to claim 5, characterized in that that the baffle plate (12) is raised to the middle of the flange connector (9) of the gas outlet (5). 7. watering pot according to claim 1 to claim 3 and 5, characterized in that that between the gas inlet (5) and baffle plate (12) arranged Condensate drain (6) merges into a drain line (14). 8. Wässerüngstopf according to claim 7, characterized in that the condensate drain (6) is designed as a siphon (15) and is arranged to run in the drain line (14). 9. watering pot according to claim 8, characterized in that that the downpipe (16) of the siphon (15) is designed to be extendable is. 4 · Λ « • ·. «Al - 3 - 1o. Watering pot according to claim 7 to claim 9, characterized in that that siphon (15) and drain line (14) are plastic parts, are preferably polyethylene parts.