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Progressing cavity pumps

02-12-2023 at 10:43:31 PM

Progressing cavity pumps

Progressing cavity pumps



Multiphase pumps transport a mixture of oil, water, gas and sand, which has been pumped out of the Sudanese desert soil from the remote sources over large distances to the processing siteTo get more news about magnetic drive pumps accessories, you can visit brysonpump.com official website.

Sudan produces around 500,000 barrels of crude oil every day, about 200,000 of which come from the fields in the Melut Basin in the south of the country. Before it can be used or exported, the mixture of oil, water, gas and sand which has been pumped out of the desert soil must however first be transported from the remote sources over large distances to the processing site. Multiphase pumps are being used to do this.
These progressing cavity pumps are specially designed for changes in the consistency of the medium and a high solid content, so that they provide reliable pumping performances over long periods of time, without any failures or high levels of wear. Since temperatures of up to 50°C are reached in the Melut Basin and sandstorms and downpours alternate through the year, the pumps used there are exposed to an extraordinary strain, which must be catered for when the pumps are designed.

An estimated 900 million barrels lie under the Palogue Oilfield, the largest in the rift valley area, south of the Sudanese capital, Khartoum. 2005 saw the start of PetroDar, an international consortium of various oil companies, with the conveyance of the black gold, which is distributed across different deposits. The oil, still in its untreated state, was to be taken from these to central treatment facilities (CTFs) and then around 1,300 km further to Port Sudan via a pipeline with six conveying stations. Certainly, bridging the first transport section from the borehole to the CTF is problematic, since the composition of the crude medium being conveyed is constantly changing. Above all, high proportions of gas and sand can lead to conveyance failures, pressure losses and equipment damage on various types of pump in the process. The NEMO progressing cavity pumps manufactured by NETZSCH can cope with these difficult conditions without suffering any damage. At the request of the operating consortium, the company’s oil & gas special pumps team developed a solution which was tailored to the specific starting point.

Firstly, 20 multiphase pumps were divided up into several blocks, each of which is designed to take up the output from up to 24 oil wells and to convey it to the nearest treatment plant. The stretches which had to be negotiated in the process are sometimes 15 km long with an ambient temperature of up to 50°C and surface temperatures of up to 70°C. In order to reduce the risk of damage and the maintenance workload as far as possible in view of the remoteness of the location, the pumps were mounted on skids, so that they are not standing in water when it rains. A simple sunroof provides protection from too much heat. In addition, out of the wide range of available joint options, the choice was made to use Z pivot joints, as these stand out due to their being particularly robust.

The pump system itself is based on progressing cavity technology. A helix rotor rotates within a helix stator, so as to form conveying chambers which move from the inlet to the discharge side with the rotation. In this way, hardly any shear forces or pulsation arise and the unwanted emulsion formation with oil-water mixtures is avoided. In addition, the flow rate for this process remains stable, even with high proportions of sand or gas – an important aspect for the fields in the Melut Basin, as the gas-oil ratio (GOR) here can be 50 SCFD per barrel. In order to be able to cope with pumping capacities which are sometimes very high, one of the largest multiphase pumps in the range was used, with an output of 250m³ per hour.

Poetry comes nearer to vital truth than history.

Plato (BC 427-BC 347) Greek philosopher.