RU2004108959A

RU2004108959A - GAS PIPELINE COMPRESSOR STATION

Info

Publication number: RU2004108959A
Application number: RU2004108959/06A
Authority: RU
Inventors: Николай Павлович Селиванов (RU); Николай Павлович Селиванов
Original assignee: Николай Павлович Селиванов (RU); Николай Павлович Селиванов
Priority date: 2004-03-26
Filing date: 2004-03-26
Publication date: 2005-09-20
Also published as: RU2277671C2

Claims

1. Compressor station of a gas pipeline, characterized in that it contains a system of gas pumping units, mainly with full-pressure blowers, connected by process piping piping with the possibility of sequential and parallel inclusion in the work of at least some of them, a training system for at least a technological gas, a process gas cooling unit equipped with at least one, mainly consisting of at least two heat-exchange sections, air gas cooling, inlet and at least two outlet pipelines connected to the main gas pipeline with a cross-sectional area constituting 0.28-0.46 of the cross-sectional area of the main gas pipeline, the supply pipeline being connected by a branched jumper to the outlet pipelines, and to each outlet pipeline the jumper is connected with the possibility of gas bypass from the outlet pipelines to the inlet and duplicated for the possibility of working in the mode of filling with gas technological of pipelines and units of the station, as well as in the "station ring" mode, with each heat-exchange section of the gas air-cooling apparatus includes a pressure vessel for gas made in the form of a multi-row single-pass bundle of finned tubes located in the bundle with an offset in each row relative to the tubes in adjacent rows, and the rows of pipes are separated from each other by spacing elements made in the form of folded plates with convex and concave sections alternating along the length of the plate forming supporting plates pads under the pipes of rows adjacent to the height of the beam, and the configuration of the folded spacing element is adopted such that the extreme transverse lines of the upper concave sections are placed relative to the conditional plane passing through the corresponding extreme transverse lines of the lower concave sections of the element in the altitude range: from an excess of γ ₁ above this plane to a part of the thickness A of the spacing element, component γ ₁ = Δ-A, where A is the amplitude of the fold, to a location below this plane by the value of γ ₂ ≤0.11d, and the step n of folds along the length of the spacing element is n = (1.01 ÷ 1.75) d, where d is the diameter of the fins along the outer contour of the pipe ribs.

2. The compressor station according to claim 1, characterized in that the system of gas pumping units contains at least one group consisting of two series-connected gas pumping units.

3. The compressor station according to claim 2, characterized in that at least one group of two series-connected units is connected by piping piping with subsequent gas pumping units and / or their groups connected in series or with the possibility of switching from serial to parallel or vice versa through security cranes.

4. The compressor station according to claim 1, characterized in that at least part of the gas pumping units is made with a centrifugal supercharger driven by a gas turbine.

5. The compressor station according to claim 4, characterized in that industrial stationary engines, such as GTN-6U, or GTNP-16, or GTN-25-1, or reconstructed aircraft gas turbine engines, are used as gas pumping units with centrifugal blowers. type D-336, or NK-14ST, or NK-36ST, or NK-38ST, or PS-90, or AL-31ST, or marine gas turbine engines, for example, type DT-71, or DN-70, or DN-80 , or DG-90.

6. The compressor station according to claim 1, characterized in that as the centrifugal blowers in the gas pumping units used blowers, for example, type 370-14-1, or 370-18-1, or H-16-56, or H-16 -75, or H-300-1.23.

7. The compressor station according to claim 1, characterized in that the strapping is equipped with a comprehensive gas-dynamic protection made in the form of a system of check valves and candle taps, and check valves are installed on the outlet gas pipelines of each gas pumping unit and additionally on the outlet loop of the process gas pipeline of the compressor station, and Candle taps are installed in an amount exceeding at least one number of check valves and placed along the gas flow, the first in the installation area of the inlet tap with the possibility of the operation of the candle for any combination of the positions of the inlet and / or backup inlet taps, and the remaining candle taps are connected to the piping process pipelines mainly before the check valves along the gas flow.

8. Compressor station according to claim 3, characterized in that at least a part of the gas pumping units is equipped with a recuperator installed predominantly directly behind the gas turbine installation in the exhaust gas outlet area to recover the heat of the exhaust gases with heating of the air supplied to the turbine.

9. The compressor station according to claim 7, characterized in that the recuperator is made in the form of a regenerative air heater, mainly in the form of a monoblock with a cylinder-conical body, at least within most of its length.

10. The compressor station according to claim 7, characterized in that the recuperator is made in the form of a block type regenerative air heater, preferably sectional block and is in communication with the outlet of the gas turbine unit and with the atmosphere through a gas duct with a diffuser at the hot gas supply section of the regenerative air heater heat exchanger and a confuser at the exit of it.

11. The compressor station according to claim 1, characterized in that the system for the preparation of process gas, as well as starting, and / or fuel, and / or pulsed gas contains at least one cyclone type dust collector.

12. The compressor station according to claim 11, characterized in that the preparation system of the process, as well as starting, and / or fuel, and / or pulsed gas contains at least one filter separator installed sequentially along the gas after the cyclone dust collector or a system of cyclone dust collectors, the filter separator comprising at least two process sections having replaceable filters - a filter section designed to coagulate liquid and retain mechanical particles, and a separation section designed to complete gas purification from moisture, and also contains a condensate collector, a heating system, mainly electric, at least the lower part of the filter separator and is equipped with instrumentation.

13. The compressor station according to claim 1, characterized in that each heat exchange section of the gas air-cooling apparatus is made of a horizontal type.

14. The compressor station according to claim 1, characterized in that the heat exchange sections of the gas air-cooling apparatus are installed with the formation of slopes.

15. The compressor station according to claim 1, characterized in that the multi-row bundle of finned tubes of each heat exchange section of the gas air cooling apparatus is communicated through the gas inlet and outlet chambers and gas supply and exhaust manifolds with the plant technological pipelines, wherein the multi-row tube bundle of the heat exchange section contains from two to fourteen rows.

16. The compressor station according to claim 1, characterized in that each heat exchange section of the body of the gas air cooling apparatus includes a vessel for external cooling medium with longitudinal side walls, transverse end walls formed by inlet and outlet chambers of the in-pipe medium and a bottom formed by fan diffuser bodies which are installed under the heat-exchange sections, while under each section from one to six fans are installed, and each fan is placed in an aerodynamic protective skin an ear containing a diffuser and a smooth entry collector, while the smooth entry collector is made in a longitudinal section of variable curvature with a configuration at least from the side of the inner surface, for example, along the lemniscate, and mainly round in plan, the mouth of the casing in the transition zone of the collector the diffuser is made with a diameter of 0.6-0.95 of the width of the heat exchange section, and the diffuser of the casing of each fan is made in its upper part in the area adjacent to the frame elements of the heat exchange section with the configuration the contour of the output edge, which allows connecting to the corresponding elements of the contour of the frame of the section, and the fans are made predominantly two- or three-bladed and with an adjustable change in the angle of rotation of the blades, with the drive of the fan wheel mainly direct, gearless from a low-speed electric motor, preferably with a power of 2.5 -12.0 kW and a nominal speed of preferably 290-620 min ^-1 .

17. The compressor station according to claim 1, characterized in that it is equipped with a system of gas air-cooling apparatuses, forming a structural complex combined, at least in one field of gas air-cooling apparatuses - "field ABO".

18. The compressor station according to claim 17, characterized in that it is made with supporting structures integrated into a common space unit within the "air-conditioning field", including with the possibility of partial support of the supporting structure of each subsequent gas air cooling apparatus to the supporting structure of the previous one .