Wells Operation

CHAIN DRIVE OF DOWNHOLE SUCKER ROD PUMPS TSP 60-3-0.5/2.5

The chain drive of downhole sucker rod pumps tsp 60-3-0.5/2.5 is designed to drive the downhole sucker rod pumps.
Patent No. 2200876.

FEATURES:

  • Low oscillation frequency
  • Fixed stroke length
  • Favorable law of rod motion (with a uniform speed throughout the most part of the stroke length)
  • Maximum speed of the rods is 1.7 times lower than that of a beam type analogue
  • Reduction of the metal content by 9 ... 30% versus the beam type analogue.


ADVANTAGES:

  • Reduction of hydrodynamic resistance forces in the downhole part of the sucker rod pump (USSHN) by 1.7 times
  • Possibility of operating low production wells in a continuous mode
  • Reduction of specific energy consumption for lifting the production by 10-20%. Improving Cos value (at the rated motor loads by 10-15%)
  • Reduction of dynamic loads, increasing the life of the downhole equipment
  • Reduction of overall dimensions of the drive
  • Reduction of transportation, installation and maintenance costs.

Improvement of the Downhole Equipment Working Conditions

  • Reducing the number of well workovers due to emulsification by 4.3 times
  • Reducing the number of well workovers due to rod breakage and unscrewing by 2.1 times
  • Reducing the total number of workovers of the well stock analyzed and appropriate increase of MTBF periods of the wells by 1.4 times
  • Increase of the wells MTBF period versus the average value for PJSC TATNEFT by 364 days

CHAIN DRIVE OF DOWNHOLE SUCKER ROD PUMPS TSP 80 6 1/4

The chain drive of downhole sucker rod pumps tsp 80 6 1/4 is designed to drive the downhole sucker rod pumps.
Patent No. 2283969.

FEATURES:

  • Stroke length of 6 m (fixed)
  • Favorable law of rod motion (with a uniform speed throughout the most part of the stroke length)
  • Maximum speed of the rods is 1.7 times lower than that of a beam type analogue
  • Multiple metal content reduction versus the beam type long stroke analogues.


ADVANTAGES:

  • Possibility of deep wells production with application of sucker rod pumps
  • Possibility of producing high-flow-rate wells with application of sucker rod pumps, including production of extra viscous oil
  • Possibility of producing wells with additional production strings of small diameter without loss of productivity
  • Reduction of dynamic loads, increasing the life of the downhole equipment in the operation of high-flow-rate wells with application of sucker rod pumps
  • Reduction of specific energy consumption for lifting the production up to 50% versus the application of electrical submersible pump
  • As opposed to the electrical submersible pumps, it provides an opportunity to regulate the mode of the well production within the technical characteristics of the drive without any loss of efficiency and any need to bring in crews of remedial well servicing to replace the unit with the one of a different standard size.

DUAL COMPLETION PRODUCTION OF TWO INDIVIDUAL LAYERS IN ONE WELL

The method of dual completion production is designed for simultaneous production of two or more layers in one well.

APPLICATION:

  • Wells having significant differences between the reservoir properties and characteristics of oil in the penetrated section
  • Watered well with high pressure drop
  • Bringing into production the low productivity layer adding it to the already producing formation, since production operation by a single well is unprofitable
  • Wells with a large interval between producing layers.

TECHNOLOGICAL EFFICIENCY:

  • Increasing the profitability of individual wells by involving other layers into production or the layers of the same reservoir with differing properties
  • Reducing the total volume of drilling opearions by means of using the wellbore of one well and arranging simultaneous (joint) production of hydrocarbon reserves from different layers with application of a single well spacing pattern.

Cost-Effective Implementation
As of January 1, 2016, there were 1,641 wells in operation with application of the equipment for dual completion/production (DCP). The ultimate additional production of the DCP equipped wells amounted to 10,442 thousand tonnes, while the average growth of the oil production rate per one well amounted to 3.1. t/day since the beginning of the equipment operation. The DCP equipment units were implemented at 222 wells in 2015.

DUAL COMPLETION FOR INJECTION INTO TWO LAYERS THROUGH A SINGLE WELL

The technology of dual completion for injection (DCI) presumes injection of the process liquid separately through a single well into different layers (or sequence of layers) differentiating the pressure with due regard to the reservoir properties of each layer in order to provide for more uniform oil recovery from the layers penetrated by the well.

APPLICATION:

  • Wells having essential variances of the layers' reservoir properties
  • To bring into production the low productivity layer adding it to the already producing formation, since production operation by a single well is unprofitable
  • Wells with a large interval in depth between producing layers.

TECHNOLOGICAL EFFICIENCY:

  • Reducing the total volume of drilling operations by means of using the wellbore of one well
  • Possibility of simultaneous production of a number of layers with different reservoir properties
  • Increasing profitability of individual wells through involvement of other production targets or layers with varying reservoir properties of within one and the same production target.

Cost-Effective Implementation
As of June 01,.2015, the technology of dual completion for injection DCI} was implemented in 673 injection wells. The ultimate additional production of the influenced produce wells amounted to 1,605.7 thousand since the beginning of the technology introduction.