Use LEFT and RIGHT arrow keys to navigate between flashcards;
Use UP and DOWN arrow keys to flip the card;
H to show hint;
A reads text to speech;
86 Cards in this Set
- Front
- Back
What is a workover?
|
It is an intervention in a completed well.
|
|
Why are workovers performed?
|
For Data gathering (cased hole logging - production or injection logging)
Integrity monitoring on tubing, casing , and/or packers Well repair To Improve performance (production/injection) |
|
How do workovers imporove production/injection?
|
You can cleanout debris, solids, formation solids, deposited solids.
Flow assurance preventative or remediation. Stimulation artificial lift, and you can change intervals connected to the reservoir. Shutoff flow from/to an interval (plug isolate) Deepen or sidetrack well |
|
What type of surface equipment can be used to do a workover?
|
Through Wireline
Fullbore pumping of fluid/chemicals through well tubing Through Tubing By Pulling tubing |
|
When pumping through tubing intervetion with a coiled tubing cleanout what are the steps to make a wellbore clean?
|
you fill covering perfs and then forward or reverse jetting to remove the excess crap
|
|
How do you plug the bottom interval?
|
Bottom perfs watered out
use coil or work string to lay sand, cement (and/or plug) |
|
How does a cement squeeze operate to seal performations?
|
Protect the oil zone
push cement down to the perfs then remove wellbore cement Then remove the protection for the oil zone and return to service |
|
What are common causes of excess water production?
|
Open water zone
flow behind pipe and casing leaks Channeling from injector or aquifer via fracture/fault coning or cusping |
|
What are the two classes of chemical watershut off?
|
matrix-penetrating gelant
flowing gel (can only enter fractures or other larger features) |
|
How do you design a matrix gel treatment?
|
Treat matrix depth to withstand expected pressure change
Account for voids, uneven penetration, losses Pressure response may dictate volume change Use established zone isolation options |
|
What are the established zone isolation options?
|
bridge plug
sand plug inflatable packer or retainer dual injection with protective fluid |
|
What is a bullhead shutoff?
|
A shutoff to push gel into a fracture to block the water produced from there without damaging the formation
|
|
What are the safety valves used for?
|
To shut off flow if equipment above mud line is damaged.
|
|
Where were safety valves initially developed for?
|
Offshore wells
|
|
What are the different types of valves?
|
Ball Valves
Butterfly valves gate valve flapper valve pneumatic surface safety valve hydraulic surface safety valve |
|
What are the difference between flapper valve vs ball valve?
|
Flapper valve is simpler to operate (sliding sleeve vs rotation)
Flapper valve less affected by scale, paraffin |
|
What are chokes used for?
|
Used to slow flow down
|
|
What are the two types of choke?
|
Fixed (also known as positive)
Adjustable |
|
How do chokes work?
|
They limit production rate by increasing bottom hole flowing pressure
|
|
Why would you use chokes?
|
Regulations
Slugging, problems handling raet at surface Sand Production Water or gas coning Other reservoir management items |
|
What are the typical choke valves
|
Classic adjustable choke
subsea retrievable choke |
|
What are the general pump types?
|
Centrigual pump
Positive Displacement Gas Lift Jet, Eductor |
|
What are the different positive displacement pumps?
|
piston
Diaphragm Progressing cavity |
|
What are centrifugal pumps used for?
|
Large volume
Low Pressure Low Viscosity Generates high shear as fluid passes through vanes. These pumps cannot self-prime It does poorly with liquid + gas combination |
|
What are centrifugal pumps based on?
|
Based on the concept of raising the pressure of a liquid indirectly by increasing the kinetic energy via the centrifugal action of the impeller and converting this kinetic energy to the P/pho term.
They can be used for a wide flowrate range but a narrow pressure range |
|
What are positive displacement pumps based on?
|
It works on the principle of letting fluid flow into a cavity from a low pressure source, trapping the fluid, and forcing it out to a high pressure receiver by decreasing the volume of the cavity
They can be used for a narrow flowrate range, but a high pressure increase range |
|
What are reciprocating piston pumps usually used for?
|
Crude oil
|
|
What are the two types of reciprocating piston pump?
|
Single action (used for pumps with 3 or more pistons, and provides higher pressure)
Double action piston stroke (used for duplex pumps, provide higher flow rates) |
|
What is a Diaphragm Pump used for?
|
Viscous fluid or slurries
Low Rate Low Pressure It is pneumatic operates |
|
What do we separate?
|
Gas (C1-C4, H2S, CO2, N2)
Oil Water Dissolved Solids Solids |
|
What are the key principles are used in separators?
|
Density and Gravity
|
|
What can be done to increase the efficency of separators?
|
Add mist extractor
Add baffles and diverters and residence time Use centrifugal force to increase gravity |
|
Vertical Two Phase Separator are meant for what?
|
A low GOR and a low total output.
|
|
What problem can be caused by low flowrate in a Vertical Two Phase Separator?
|
Gas blowby, because the fluid level is not high enough
|
|
What are the two constraints in picking a separator?
|
It must be able to contain gas and liquid. The liquid must be able to stay long enough so that the gas can separate from the liquid.
|
|
What is the retention time needed for a liquid droplet to attain gas-liquid equilibrium?
|
.5 -3 mins
|
|
What is the controling parameter for low pressure with low GOR in a separator?
|
Liquid Capacity Constraint
|
|
When is artificial lift needed?
|
When there is insufficient reservoir energy to produce reservoir fluids to surface at adeguate rates
|
|
What are the two different flowing pressure regimes that need improvement?
|
Low Pwf - Better IPR, poor VLP
High Pwf - Better VLP, poor IPR |
|
What is artifical lift designed to help?
|
Intake side for low pressure (for IPR)
and Discharage side for high pressure (for VLP) |
|
What percent of wells need Artifical Lift?
|
50%
|
|
What are the two main methods for artificial lift?
|
Gas Lift (add natural gas to tubing via annulus)
Bottom Hole Pumping (Sucker Rod Pump, ESP, ect) |
|
How does Gas lift work?
|
By injecting gas into the lower part of production tubing, the gas aerates the flowing fluid, reducing the fluid comlumn hydrostatic pressure. This lowers bottom hole pressure
|
|
How does Bottom Hole pumping work?
|
It boosts transfer of liquid to wellhead by increasing pressure at turbing inlet. This decreases Pwf by transferring fluid more rapidly to tubing at higher pressure
|
|
When is gas lift chosen for artifical lift?
|
When there is gas available in moderate to deep wells with high fluid rates. There can be a low or high GOR as long as the oil is not heavy. Solids are okay, but may increase maintenance cost. They are low to moderate expensivily when first put in place, but have a lot of maintenance required.
|
|
When are rod pumps used for artifcial lift?
|
When there is low or no free gas in a low pressure well that has a low to fairly high flowrate. There can be any type of oil as long as the hole is straight.
|
|
When are ESP's used for artificial lift?
|
When there is a moderate to deep well with high flow rate. The well can be any type of deviation but it requires a low GOR and a light oil because it can't handle high viscosity. They are very expesnive to put in and to maintain.
|
|
Why don't gas lift or pumps have to be set at the bottom?
|
The depth must just be deep enough to give you the Pwf you need for the rate desired.
|
|
What are the two types of gas lift operations?
|
Continuous (steady state flow to surface)
Intermittent (start and stop flow to surface) |
|
How does a suck rod pump move oil?
|
Rotary motion of crank
translated to reciprocating motion of polished rod Sucker rod transmits reciprocating motion of rod to down-hole pump The pump with barrel (with standing valve) and plunger (with traveling valve) When plunger moves up, standing valve opens to fill barrel with fluid On down stroke, traveling valve opens so fluid in barrel is displaced into tubin |
|
How do you determine the pressure increase needed for a sucker rod pump?
|
Input pressure to pump:
• From IPR, determine bottom-hole flowing pressure (Pwf ) at the given reservoir pressure and desired production rate • Subtract pressure drop in wellbore from bottomhole location to location of pump to bottom-hole flowing pressure Output pressure from pump: • From VLP (pressure drop in wellbore), determine the pressure above the pump for the given surface tubing pressure at the desired production rate |
|
What are some common ESP issues with C-PUmps?
|
There are cavitation problems (gas and heavy oil or any vicous fluid)
Erosion or efficiency decerase by solids |
|
What are some common ESP issues with their motors?
|
The heat (when placed above fluid inflow)and when the ESP is placed deep in the well the running temp will be much higher.
|
|
What are some common ESP issues with cost?
|
Very expensive to install and repair (because you need to pull tubing)
|
|
How do you design a ESP?
|
pick the flowrate desired, then choose the pump that can produce that flowrate. From that pump determine the pwf that it will produce. With that pwf find the depth needed to produce, and then find the required discharge pressure. Then determine the Pump pressure and head requirements. Form this find the total power requirement.
|
|
Why meter flow in the industry?
|
b/c you need to know what is going where accurately
|
|
Where is measurement needed?
|
at each major step (from separator to treating facilties to storage/transport lines)
|
|
What can metering be used for?
|
reservoir management, prdouction optimization, history matching, well testing, production allocation, custody transfer, fiscal metering, downhole metering and allocation.
|
|
Why is metering accuracy required?
|
With large flowrates, small inaccuracies can cost companies large amount money.
|
|
What is linearity when dealing with a meter?
|
the deviation of the meter's response is within a certain percent of an ideal relationship between flow rate variations and output
|
|
What is error when considering meters?
|
the difference between the meter output and the true value of the flow rate at the time of the mesaurement.
|
|
What are some types of flow measurement devices?
|
turbine meter
orifice plate meter venturi meter coriolis meter ultrasonic meter |
|
What are the basic flow metering concepts?
|
conservation of mass, energy and momentum
friction reynolds number gas laws liquid expansion |
|
What are the two different types of pressure measurements for a flow meter?
|
Hydrostatic pressure and dynamic pressure
|
|
What are common causes of sand production?
|
Poorly Consolidated formation
Decrease in reservoir pressure Drag Forces (high flow rate and/or water breakthrough) |
|
What are common sand production problems?
|
solid buildup in wellbore
additional pressure drop voids behind pipe (loss of zone isolation and/or casing or hole collapse) erosion of turbulars solids fill surface vessels |
|
What are common sand control methods?
|
Live with it
Control production rate (drop it) Put a screen in the wellbore Gravel Pack Frac and Pack Chemical consolidation |
|
Slotted liners are used where?
|
Because they are simple and inexpensive, they are used in many horizontal open holes to prevent hole collapse. However they are not very effective at filtering small grains.
|
|
What are classic wire-wrapped screens used as?
|
They are used alone b/c the wrapped wire is usually keystone shaped and the material that passes through the outer constiction continues to flow through the screen.
It can also be used inside the gravel pack. |
|
What is a pre packed screen?
|
A screen that filters sand, however since it is pre packed with uniformly sized sand, it allows for better filtration with minimum flow restriction.
|
|
What is a premium stainless mesh filtration screen? Why do they fail?
|
It has a small mesh to filter solids and fines, however they fail due to plugging or erosion
|
|
What are expandable screens used for?
|
To hold the formation in place and to filter sands and fines
|
|
How do expandable screens expand?
|
Either a fixed cone is pushed down the drillstring to expand it. or pressure cycling from a hydraulic expansion tool causes it to expand
|
|
What is important for a gravel pack?
|
Formation grain size distribution
|
|
What is a gravel pack made of?
|
Sized particles placed in the annular space between an unconsolidated formation and a centralized screen
|
|
How is a gravel pack placed?
|
First a screen is placed, then gravel is filled in the hole to stabilize the hole and sands formation.
|
|
What is insitu consolidation?
|
A resin or other "glue" is pumped down the well to the formation to cement the formation sand grains together.
|
|
What is resin coated gravel?
|
heat or chemicall set material pre coated on properly sized gravel pack grains. They are put in place, cured, and then drilled out to keep formation in place and act as a screen.
|
|
What are common production problems?
|
low productivity
excessive gas production excessive water production sand production liquid loading (only in gas wells) |
|
How do you diagnosis what the causes of a production problem is?
|
By doing pressure transient testing to determine factors affecting reservoir inflow perfomrnane
Production logging to determine actual production profile and pressure profile in wellbore Production and pressure history - acutal data |
|
What are causes of low productivity?
|
Reservoir issues (lower than expected reservoir properties, low relative permeability, heterogeneity)
Flow restictions near wellbore (formation damage, plugged completions) wellbore restictions |
|
How do you diagnosis low productivity?
|
Meaure reservior (kH) and skin from pressure transient testing
Caliper log (identify any wellbore restiction) production logging - identify location and vertical extent of impairment |
|
What are the causes of gas or water production?
|
casing leaks or channeling behind casing
preferential flow though high permeability zones coning (gas from top/ water from bottom) connecting fracture systems for water |
|
How do you diagnosis gas or water production?
|
For casing leaks
cement bond or ultrasonic logs production lgos for flow behind casing remedial action - cement squeeze For preferential flow through high permeability zones production logs - determine flow profile and entry location run a cement squeeze Coning Run production logs - determine flow profile and entry location. Vary production rate or drawdown to determine if conning issues is rate senstive Cement Squeeze or plug perfs |
|
What are causes for liquid loading?
|
droping reservoir pressure and gas flow rate
increasing bottom hole pressure with liquid accumulation flow going from annular flow to slug to bubble flow |
|
How do you remediate liquid loading?
|
foaming liquid flow
smaller tubing or lower surface pressure gas-lift or pumping liquid heating the wellbore downhole liquid injection |