...
Definition
WFP – Well Performance Analysis analysis is a comparative Сomparative analysis between:
...
...
...
and
...
...
- called Lift Curves (LC) (also called Vertical Lift Performance (VLP) or Tubing Performance Relation (TPR) )
It is based on correlation between surface flowrate
LaTeX Math Inline | ||
---|---|---|
|
LaTeX Math Inline | ||
---|---|---|
|
LaTeX Math Inline | ||
---|---|---|
|
LaTeX Math Inline | ||
---|---|---|
|
Application
...
- Setting up the required the required production or injection regime for each well upon the current formation pressure, reservoir saturation and production target specified by FDP
Generating WFP – Well Flow Performance tables as input for 3D simulations
Technology
- FDP
- Generating Lift Curves (LC) tables as input for Reservoir Flow Modelling (RFM)
Technology
...
...
Most reservoir engineers exploit material balance thinking which is based on long-term well-by-well surface flowrate targets (whether producers or injectors).
...
This is primary domain of WFP – Well Flow Performance analysis.
WFP – Well Flow Performance is performed on stabilised wellbore and reservoir flow and does not cover transient behavior behaviour which is one of the primary subjects of Well Testing domain.
...
title | More on stabilised reservoir and wellbore flow |
---|
The wellbore flow is called stabilised if the delta pressure across wellbore is not changing over time.
The formation flow is called stabilised if the well productivity index is not changing over time.
It's important to remember the difference between constant rate formation flow and stabilised formation flow.
...
On the other hand, the constant rate formation flow may not represent a stabilised formation flow as the bottom-hole pressure and productivity index maybe still in transition after the last rate change.
The WFP methods are not applicable if the well flow is not stabilised even if the flow rate is maintained constant.
There are two special reservoir flow regimes which are both stabilised and maintain constant flow rate: steady state regime (SS) and pseudo-steady state regime (PSS).
...
The pseudo-steady state (PSS) regime is reached when the flow is stabilised with no pressure support at the external boundary.
...
As for formation and bottom-hole pressure in PSS they will be synchronously varying while in SS they will be staying constant.
The table below is summarizing the major differences between SS and PSS regimes.
...
LaTeX Math Inline | ||
---|---|---|
|
...
constant
...
constant
...
LaTeX Math Inline | ||
---|---|---|
|
...
constant
...
constant
...
Drawdown
...
LaTeX Math Inline | ||
---|---|---|
|
...
constant
...
constant
...
LaTeX Math Inline | ||
---|---|---|
|
...
constant
...
varying
...
LaTeX Math Inline | ||
---|---|---|
|
...
constant
...
varying
It's again important to avoid confusion between the termines stationary conditions (which mean that refered properties are not chaning in time) and stabilised flow conditions which may admit pressure and rate vraition.
In practice, the productivity index is usually not known at all times as there is no routine procedure to assess it.
It is usually accepted that a given formation takes the same time to stabilise the flow after any change in well flow conditions and the stabilisation time is assessed based on the well tests analysis.
Although, this is not strictly true and the flow stabilisation time depends on well-formation contact and reservoir property variation around a given well.
...
.
...
The conventional WFP – Well Performance Analysis is perfomed as the
LaTeX Math Inline | ||
---|---|---|
|
- IPR – Inflow Performance Relation (IPR) – responsible for resevroir reservoir deliverability (see below)
- OPR – Outflow Performance Relation ( also called TPR – Tubing Performance Relation and VFP – Vertical Lift Performance Lift Curves (LC) – responsible for for well deliverability (see below )
Anchor | ||||
---|---|---|---|---|
|
The intersection of WFP – Well Flow Performance and OPR curves represent the stabilized flow IPR and Lift Curves represent the Stabilised wellbore flow (see Fig. 1)
Fig. 1. |
A sample case of stabilised wellbore flow represented by junction point of |
IPR and Lift Curves. | Fig. 2. The dead well scenario. |
Given a tubing head pressure
LaTeX Math Inline | ||
---|---|---|
|
Fig. |
3. A sample case |
of stabilised wellbore flow |
as function of formation pressure. | Fig. |
4.A sample case |
as function of production watercut |
Fig. 5. A bunch of |
IPRs at different formation pressures and Lift Curves at different THPs. |
Workflow
...
- Check the current production rate against the production target from FDP
- If the diffference is big enough to justify the cost of production optimization (see point 8 below) then proceed to the step 3 below
- Assess formation pressure based on well tests
- Simulate IPR /OPR based LC based on the current WOR/GOR
- Calculate the stabilized flow bottom-hole pressure
- Gather the current bottom-hole pressure
LaTeX Math Inline body p_{wf} - Check up the calculation aganst the actual
LaTeX Math Inline body p_{wf} - Recommend the production optimisation activities to adjust bottom-hole pressure
:LaTeX Math Inline body p_{wf} - adjusting the choke at surface
- adjusting the pump settings from surface
- changing the pump depth
- changing the tubing size
- changing the pump
- adjusting the choke at surface
The above workflow is very simplistic and assumes single-layer formation with no cross-flow complications.
In practise, the WFP analysis analysis is often very tentative and production technologists spend some time experimenting with well regimes on well-by-well basis.
...
IPR – Inflow Performance Relationship
IPR – Inflow Performance Relation represents the relation between the bottom-hole pressure
LaTeX Math Inline | ||
---|---|---|
|
LaTeX Math Inline | ||
---|---|---|
|
LaTeX Math Block | ||||
---|---|---|---|---|
| ||||
p_{wf} = p_{wf}(q) |
which may be non-linear.
...
The IPR analysis is closely related to well PI – Productivity Index
LaTeX Math Inline | ||
---|---|---|
|
...
LaTeX Math Block | ||||
---|---|---|---|---|
| ||||
J_s(q_{\rm liq}) = \frac{q_{\rm liq}}{p_R-p_{wf}} |
for oil producer with liquid flowrate
LaTeX Math Inline | ||
---|---|---|
|
See Also
...
Petroleum Industry / Upstream / Production / Subsurface Production / Well & Reservoir Management
Subsurface E&P Disciplines / Production Technology
[ Inflow Performance Relation (IPR) ] [ Lift Curves (LC) ]
Anchor | ||||
---|---|---|---|---|
|
...
LaTeX Math Block | ||||
---|---|---|---|---|
| ||||
J_s(q_G) = \frac{q_G}{p_R-p_{wf}} |
for gas producer with gas flowrate
LaTeX Math Inline | ||
---|---|---|
|
...
LaTeX Math Block | ||||
---|---|---|---|---|
| ||||
J_s(q_g) = \frac{q_{GI}}{p_{wf}-p_R} |
for gas injector with gas flowrate
at surface conditions LaTeX Math Inline body q_{GI}
...
LaTeX Math Block | ||||
---|---|---|---|---|
| ||||
J_s(q_w) = \frac{q_{WI}}{p_R-p_{wf}} |
for water injector with water flowrate
LaTeX Math Inline | ||
---|---|---|
|
where
...
LaTeX Math Inline | ||
---|---|---|
|
...
field-average formation pressure within the drainage area
LaTeX Math Inline | ||
---|---|---|
|
LaTeX Math Inline | ||
---|---|---|
|
Based on these notions the general WFP – Well Flow Performance can be wirtten in universal form:
LaTeX Math Block | ||||
---|---|---|---|---|
| ||||
p_{wf} = p_R - \frac{q}{J_s} |
providing that
LaTeX Math Inline | ||
---|---|---|
|
...
LaTeX Math Inline | ||
---|---|---|
|
...
LaTeX Math Inline | ||
---|---|---|
|
...
LaTeX Math Inline | ||
---|---|---|
|
...
LaTeX Math Inline | ||
---|---|---|
|
...
LaTeX Math Inline | ||
---|---|---|
|
...
For a single layer formation with low-compressibility fluid (like water) the PI does not depend on drwadown (or flowrate)
LaTeX Math Inline | ||
---|---|---|
|
...
...
This is a typical WFP – Well Flow Performance plot for water supply wells, water injectors and oil producers above bubble point.
The PI can be estimated using the Darcy equation:
LaTeX Math Block | ||||
---|---|---|---|---|
| ||||
J_s = \frac{2 \pi \sigma}{ \ln \frac{r_e}{r_w} + \epsilon+ S} |
where
LaTeX Math Inline | ||
---|---|---|
|
LaTeX Math Block Reference | ||||
---|---|---|---|---|
|
LaTeX Math Inline | ||
---|---|---|
|
LaTeX Math Inline | ||
---|---|---|
|
For gas wells, condensate producers, light-oil producers, and oil producers below bubble point
LaTeX Math Inline | ||
---|---|---|
|
It can be interpreted as deterioration of near-reservoir zone permeability with fluid velocity is growing.
...
...
Fig.2. WFP – Well Flow Performance for compressible fluid production (gas, light oil, saturated oil)
In general case of saturated oil, the PI
LaTeX Math Inline | ||
---|---|---|
|
LaTeX Math Inline | ||
---|---|---|
|
LaTeX Math Inline | ||
---|---|---|
|
But when field-average formation pressure is above bubble-point
LaTeX Math Inline | ||
---|---|---|
|
...
OPR – Outflow Performance Relationship
OPR – Outflow Performance Relation also called TPR – Tubing Performance Relation and VLP – Vertical Lift Performance represents the relation between the bottom-hole pressure
LaTeX Math Inline | ||
---|---|---|
|
LaTeX Math Inline | ||
---|---|---|
|
LaTeX Math Block | ||||
---|---|---|---|---|
| ||||
p_{wf} = p_{wf}(q) |
which may be non-linear.
...
...
...
Sample Case 1 – Oil Producer Analysis
...
...
...
Sample Case 2 – Water Injector Analysis
...
References
...
Joe Dunn Clegg, Petroleum Engineering Handbook, Vol. IV – Production Operations Engineering, SPE, 2007
...