Well test (oil and gas)
In the Petroleum Industry, a well test is the execution of a set of planned data acquisition activities to broaden the knowledge and understanding of hydrocarbons properties and characteristics of the underground reservoir where hydrocarbons are trapped. The test will also provide information about the state of the particular well used to collect data. The overall objective is identifying the reservoir's capacity to produce hydrocarbons, such as oil, natural gas and condensate.
Data gathered during the test period includes volumetric flow rate and pressure observed in the selected well. Outcomes of a well test, for instance flow rate data and gas oil ratio data, may support the well allocation process for an ongoing production phase, while other data about the reservoir capabilities will support reservoir management.
Scope and definitions
There are many flavours of well tests and various ways to categorize test types by its objectives, however two main categories only by objectives, these are productivity tests and descriptive tests.[1] According to The Lease Pumper’s Handbook of Oklahoma Commission on Marginally Producing Oil and Gas Wells, there are four basic well test types: potential tests, daily tests, productivity tests, and gas oil ratio tests,[2] the latter three in the broader productivity test category.
Test objectives will change throughout the different phases of a reservoir or oil field, from the exploration phase of wildcat and appraisal wells, through the field development phase and finally through the production phase, which may also have variations from the initial period of production to improved recovery by the end of the field lifecycle time.[1]
Exploration phase
Professionals working with reservoir modelling may get information about the rock permeability from core samples. Other sources of information to the model are well log data and seismic data, but such data are complementary only, and for example, seismic data is insufficient to interpret whether a structural trap has been sealed. Information from well tests will supplement the amount of information with flow rate data, pressure data, and other, which is needed to build a rich reservoir model. The main objective in the exploration phase is to assess the size of a reservoir and state with a given certainty whether it has the properties for commercial exploitation and shall contribute to accounting for available reserves.[1]
Well testing taking place before permanent well completion is referred to as drill stem testing.
Field development phase
The reservoir model is further developed to support the field development planning and to advise for the optimal location for extra production wells to be drilled. Descriptive well tests are designed and performed in the new wells.
Field production phase
Flow test
This test has also been called daily test[2] and may have various other namings. Often, and especially at offshore fields, a number of wells produce to a common separator, and flows from several separators or facilities may be headed into a commingled flow in pipeline that transports oil or gas for sale (export).
The total flow rate of all wells in total are measured, but the contributions of the individual wells are unknown. It is important to know the individual contributions to account hydrocarbon material balance and for well monitoring and reservoir management.
To obtain individual well flow rates, it is common to use a smaller test separator. This is an isolated and down-scaled processing system in parallel with the normal flows. Regularly, for example once a month per well, the flow from one and only one selected well is led into the test separator for determining well flow rate for the selected well.[3] The separator divides the flow from the well into the streams of individual products which typically are oil, gas and water, but may include natural-gas condensate. Contamination may also be removed and fluid samples collected.
This helps to allocate individual flow rate contributions, but the method has uncertainties. Flow rate, water cut, GOR and other parameters for the test system can deviate from production separators.[4] This is generally taken into account by the allocation of products back to individual wells based on the field total, and by using data from the individual well tests.
Multiphase flow meters have to some degree reduced the need for flow tests and test separators, hence reducing production loss during testing.[5]
References
- Aghar, Hani; M. Caire; H. Elshahawi; J. R. Gomez; J. Saeedi; C. Young; B. Pinguet; K. Swainson; E. Takla; B. Theuveny (Spring 2007). "The Expanding Scope of Well Testing". Oilfield Review (a Schlumberger magazine). 19 (1): 44–59. Retrieved 2013-05-23.
- 1 2 3 Aghar, H et al (2007)
- 1 2 Langston, Leslie Vernon (2003). The lease pumper's handbook (PDF). Norman, Okla.: Oklahoma Commission on Marginally Producing Oil and Gas Wells.
- ↑ I. Atkinson, B. Theuveny et al. (Spring 2005). "A New Horizon in Multiphase Flow Measurement" (PDF). Oilfield Review (a Schlumberger magazine). 16 (4): 52–63. Retrieved 2013-05-23.
- ↑ Ron Cramer, Dave Schotanus, Kolin Ibrahim, and Nick Colbeck (21 Dec 2009). "Continuous well-flow estimates improve production allocation". Retrieved 2013-05-23.
- ↑ Thorn, R.; G. A. Johansen; B. T. Hjertaker (2013-01-01). "Three-phase flow measurement in the petroleum industry". Measurement Science and Technology. 24 (1): 012003. doi:10.1088/0957-0233/24/1/012003. ISSN 0957-0233. Retrieved 2013-05-23.