DE10161607A1 - Determining and influencing crude oil composition during offshore crude oil recovery from different individual sources comprises analyzing online below sea and close to source - Google Patents

Abstract

Determining and influencing the crude oil composition during offshore crude oil recovery from different individual sources comprises analyzing online below the sea and close to the source. An Independent claim is also included for a device for determining and influencing the crude oil composition during offshore crude oil recovery from different individual sources comprising an analyzing unit arranged below the sea close to the source. Preferred Features: Analysis is carried out using gas chromatography or NMR spectroscopy. The analysis results are transferred by cable or radio to a conducting site.

Description

The invention relates to a method and a device for determining and Control of crude oil composition at a drilling site in the submarine area.

Oil reserves are gaining more and more in so-called offshore drilling projects Significance because there are significant oil deposits in the North Atlantic, for example. The development of the same is a well-known and applied Systematics in the exhaustion of different boreholes and thus different ones Sources of crude oil.

So it is known that at a large offshore drilling site several Boreholes are generated. It is also known that each of these is one or several miles from the other well Bring out crude oil compositions. Generally it is the case that one constant crude oil quality or crude oil composition at the ultimate would like to have a centrally managed submarine funding agency. For this For this reason, various boreholes are networked with submarine pipelines, so that all boreholes are brought to a central collection point. This central The collection point is still undersea. From this central collection point then the oil from the undersea sea floor becomes the water surface and a pumping station set up there. To the individual Crude oil components from the individual wells in terms of their contribution to To be able to control the submarine crude oil collection point is every single well a controllable valve device. In known methods and Institutions one proceeds in such a way that one at the conveyor station, which is at the Water surface or above, in correspondingly short time intervals Samples were taken to determine the already mixed crude oil composition determine. If this differs from the desired composition, then corresponding control signals are given to the respective valves of the individual boreholes, so that these then their respective crude oil or their respective crude oil component more or contribute less. The pipelines in the submarine area that the individual Connecting drill holes to the central crude oil collection point is already one or several kilometers long. In addition, the length of the Main pipeline from the subsea oil collection point to the overseas Conveying station runs, can also be a thousand meters or even more.

Multiplying this quantity by the cross-sectional area of the oil pipeline results in an enormous amount when taking samples only in the overseas production area Dead volume. If you consider that after conventional Procedures of known sampling of the extraction process either must be stopped until the laboratory values are available, or during this time is promoted, the result is technically only extremely slow Readjustment of the crude oil composition as such. For the rest, one Stopping the conveying process the same due to the loss of time in the measuring phases accordingly less economical.

The invention is therefore based on the object of a method and a device the generic type in that a quick and effective Controllability of the crude oil composition is given.

The task is in a method of the generic type According to the invention by the characterizing features of claim 1 solved.

Further advantageous embodiments of the method according to the invention are in the dependent claims 2 to 8 specified.

With regard to a device of the generic type, the task is according to the invention by the characterizing features of the claim. , , solved.

Further advantageous embodiments of the device according to the invention are in the indicated other dependent claims.

The basic both procedurally and institutionally The underlying inventive idea is to carry out an online submarine analysis close to the source Perform crude oil composition. This means that at least at the undersea crude oil collection point, possibly even at the individual Drill holes themselves performs an online analysis. That is, no sampling as such more must be done, but that directly on the submarine pipelines corresponding measuring stations are arranged integrated in the pipelines.

A transmission of measured values would either be via cable or radio connection be directed to a central control center. A corresponding application of Valves can therefore be online and within a few seconds Crude oil composition and the corresponding supply from the individual Influence borehole sources through valve position. At the overseas mining station there is no longer any need to take a sample, but the Crude oil composition of the individual pipelines and the oil collection point carried out undersea and immediately transferred to a tax process.

The online analysis results taken directly at the boreholes will be included either by cable, or by radio, or by ultrasound to the funding electronically monitoring control center. It can also be combined Transmission, such as cable transmission from the sea floor, combined with Radio transmission over water, can be used by radio buoys.

Gas chromatographs are advantageously used, but in particular NMR spectrometers are also advantageously used. With an NMR Spectrometer does not require sampling, but analysis on the pipeline or in a bypass is possible. That means, also on site and undersea there will be no more sampling, but the measurement will take place in the flowed through pipeline.

The said measuring device is used for process control on the seabed and then there is a corresponding use of process control technology to the various boreholes, the individual crude oils discharged from there in the Mixing station. The mixing ratio is determined by the admixture or mix of different wells.

The invention is shown in the drawing and described in more detail below.

It shows:

Fig. 1 well network.

Fig. 2 micro gas chromatograph on pipeline.

Fig. 3 NMR spectrometer integrated in the pipeline segment.

Fig. 1 here shows the network described above, various holes, which are connected to a central mixing station via pipelines. Coming from different individual drilling sources a, b, c, pipelines lead to a central mixing station 3 . On the way, that is to say in these pipelines, flow meters 1 and 7 are arranged at corresponding locations marked here, which are used to control the flow through the pipelines and monitor them. Starting from the central mixing station 3 , conveyance is then carried out via a collecting pipeline 4 from the mixing station 3 arranged below the sea to the conveyor platform arranged above the sea. There, the crude oil mixed in this way is loaded into appropriate tanks, which are then loaded onto ships again, or extracted directly ashore via large production pipelines.

FIG. 2 shows a partial section of a pipeline on which the composition of the crude oil passed through the pipeline is determined using a correspondingly small, so-called micro-gas chromatograph. As an alternative, two systems are presented here. In the upper area there is a sampling system 2 , which takes a sample on site, analyzes it and then delivers the corresponding value as an electrical signal to the central process control station. A second version with a bypass is shown in the lower area of the pipeline. Via a bypass 5 , a current quantity of the required crude oil is branched off parallel to the pipeline flow direction and valve-controlled and is fed into the corresponding analysis unit. Here, the petroleum from various sources, a, b, c, is passed through the micro-chromatograph 1 and measured for its composition.

The measurement results are sent to a mixing station 3 via data line 5 . This regulates the mixing ratio of the crude oil either automatically or through intervention by the platform personnel. It is also possible to use the measurements of the composition of the crude oil to take suitable measures that prevent deposits, for example methanol injections. The chromatography measurement would then be used to, if a threshold value of higher hydrocarbons, which form organic deposits such as wax or asphalt, solvents, z. B. methanol to inject into the pipeline 2 . In FIG. 2, the micro-gas chromatograph is shown in two different configurations in an undersea pipeline. 3 As already described above, the upper half shows the chromatography device 1 on a flange 2 with direct contact to the sampling device for the crude oil. In the lower half of the picture, the micro gas chromatography device 1 is accommodated in an alternative installation on a bypass 5 .

The online measurement of the composition of the crude oil at or at the source can can also be used to determine process and state variables improve. For example, from the chemical composition of the crude oil can be concluded from process variables such as viscosity. Evaluations based on Process models are based, e.g. B. the multi-phase flow measurement, so be significantly improved.

Furthermore, conclusions can be drawn from the measurement of the composition from which zone of the reservoir crude oil is currently being extracted. The enables better reservoir management and can help increase yield optimize and deliver a constant crude oil composition.

Overall, the present method can be used to do all of those Optimize process steps by measuring the composition online benefit from crude oil.

Fig. 3 shows this the most elegant method of measurement in terms of a trouble-free easy and fast data evaluation. This is the so-called nuclear magnetic resonance measurement, namely the NMR method. A magnetic resonance is measured under exposure to a high magnetic field, which is dependent on the binding conditions and thus on the chemical composition of the individual molecules. Here, spectroscopic patterns are evaluated that correspond to the individual crude oil qualities.

Claims (16)

1. A method for determining and influencing the crude oil composition in offshore crude oil production, in which production is carried out from various individual sources, and an analysis of the composition is carried out, characterized in that the analysis is carried out online and close to the source. 2. The method according to claim 1, characterized, that gas chromatography is used for submarine analysis. 3. The method according to claim 1, characterized, that NMR spectroscopy is used for undersea analysis. 4. The method according to any one of claims 1 to 3, characterized, that the analysis results data, by cable transmission to a control center be transmitted. 5. The method according to any one of claims 1 to 3, characterized, that the analysis results data, by radio transmission to a control center be transmitted. 6. The method according to any one of claims 1 to 3, characterized, that the analysis results data, through combined cable and radio transmission transferred to a control center. 7. The method according to any one of claims 1 to 3, characterized, that the analysis result data, by sound wave signal transmission to a Control center to be transferred. 8. The method according to any one of the preceding claims, characterized, that after automatic analysis of the analysis signals an automatic Control of the individual source-related valves is made. 9. Device for determining and influencing the crude oil composition the offshore crude oil production, in which from different boreholes a central crude oil collection point, and an analysis of the Crude oil composition is carried out characterized, that the analysis device in the subsea area near the source near the borehole is arranged. 10. Device according to claim 9, characterized, that the analysis device is a gas chromatograph. 11. The device according to claim 9, characterized, that the analysis device is an NMR spectrometer. 12. Device according to one of the preceding claims 9 to 11, characterized, that the analysis facility with a control center via cable transmission is connected by signal technology. 13. Device according to one of the preceding claims 9 to 11, characterized, that the analysis device with a control center via radio transmission is connected by signal technology. 14. Device according to one of the preceding claims 9 to 11, characterized, that the analysis device with a control center via combined radio and Cable transmission is connected for signaling purposes. 15. Device according to one of the preceding claims 9 to 11, characterized, that the analysis device is modulated with a control center Sound wave transmission is signal-related. 16. Device according to one of the preceding claims 9 to 15, characterized, that the control center with the individual valves close to the source in terms of control technology connected is.