Question

Calculate the flow rate in a reservoir 2,000 ft lo

0 0
Add a comment Improve this question Transcribed image text
Answer #1

Answer:

Flow rate:

Q = \pir4(P-P0)/8\etal

Where:

Q = Flow rate

r = radius of pipe = 15 ft

P0 = pressure at the end of pipe = 3200 psia

P = pressure of the fluid = 1500 psia

l = Length of pipe = 2000 ft

\eta = Viscosity of fluid = 3 cp

Flow rate (Q) can be calculated by substituting the required values in the given equation.

Add a comment
Know the answer?
Add Answer to:
Calculate the flow rate in a reservoir 2,000 ft long, having a permeability of 70 md....
Your Answer:

Post as a guest

Your Name:

What's your source?

Earn Coins

Coins can be redeemed for fabulous gifts.

Not the answer you're looking for? Ask your own homework help question. Our experts will answer your question WITHIN MINUTES for Free.
Similar Homework Help Questions
  • Calculate the required reservoir pressure for the well to provide 500 STB/D of flowrate. flowing ...

    Calculate the required reservoir pressure for the well to provide 500 STB/D of flowrate. flowing pressure is 3,000 psia. Assume the fluid behaves as an incompressible hiund flow. Other fluid and reservoir properties are as given below: external radius, 2,000 ft wellbore radius, 0.5 ft average permeability is 100 mD Average reservoir thickness is 10 ft Oil formation volumetric factor is 1.2 bbl/STB Oil viscosity is the last digit of your student ID in cP. If your student ID ends...

  • 4. A radial flow system has an outer boundary of radius 330 ft, and a well...

    4. A radial flow system has an outer boundary of radius 330 ft, and a well of diameter 7 inches.  The pressure at the outer boundary is 3000 psia, and the well pressure is550 psia.  If the flow system has a permeability of 200 mD and thickness of 35 ft, and if the flowing fluid viscosity is 7 cp, calculate the production rate in B/D.

  • PROBLEM No. 4: A 2-mile wide reservoir consists of several layers as shown below. An incompressible...

    PROBLEM No. 4: A 2-mile wide reservoir consists of several layers as shown below. An incompressible liquid with 1.5 cp viscosity flows through the reservoir at steady-state. Compute the flowrate (bbl/day) of the liquid through the layers P- 750 psia h- 50 ft h-30 f k-120 md P-2300 psia 140 md 200 md k-70 md h- 10 ft L-2.4 miles L-3.6 miles PROBLEM No. 5: A 3000-ft diameter unit in a reservoir has a permeability of 320 md, and is...

  • 2. For the 1D reservoir described in the figure below, the reservoir left boundary is kept...

    2. For the 1D reservoir described in the figure below, the reservoir left boundary is kept at a constant pressure gradient of -0.1 psi/ft (note the negative sign) and the reservoir right boundary is supplied with fluid at a rate of 50 STBD. There is a producing well in grid 4 with a rate of 150 STBD. Write the flow equations for grids 1,4, and 5. (20 points) OF 1- E Ins (only the flow equations, NO solving). Given: Tim...

  • 4,.1 In an experiment similar to that of Darcy's, the flow rate of water was observed...

    4,.1 In an experiment similar to that of Darcy's, the flow rate of water was observed be 5.0 cm3/min. If the experiment were repeated with oil, what would be the to flow rate for oil? The difference between the upstream and downstream hydrau- lic gradients Ah is the sa water experiment and with oil for oil experiment). Additional data: oil viscosity 2.5 cP, water viscosity 0.85 g/cm3, and water density 1.0 g/cm 3. 0.8 cP, oil density 3.1 A petroleum...

  • Exercise 3 An oil well in the X Field is producing at a stabilized rate of...

    Exercise 3 An oil well in the X Field is producing at a stabilized rate of 600 STB/day at a stabilized bottom-hole flowing pressure of 1800 psi. Analysis of the pressure buildup test data indicates that the pay zone is characterized by a permeability of 120 md and a uniform thickness of 25 ft. The well drains an area of approximately 40 acres. The following additional data is available: r.= 0.25 ft B. = 1.25 bbl/STB A = 40 acres...

  • (100 points) Water at 25°C is pumped at a rate of 0.075m'/s from a reservoir 20m above a pump to a free di...

    (100 points) Water at 25°C is pumped at a rate of 0.075m'/s from a reservoir 20m above a pump to a free discharge (this means discharged to atmosphere) 35m above the pump. The pressure on the intake side of the pump is 150kPa and the pressure on the discharge side of the pump is 450kPa. The pipe between the reservoir and the pump is 3 meters of 5in diameter cast iron. From the pump to the discharge the pipe is...

  • (100 points) Water at 25°C is pumped at a rate of 0.075m's from a reservoir 20m above a pump to a free 1....

    (100 points) Water at 25°C is pumped at a rate of 0.075m's from a reservoir 20m above a pump to a free 1. discharge (this means discharged to atmosphere) 35m above the pump. The pressure on the intake side of the pump is 150kPa and the pressure on the discharge side of the pump is 450kPa. The pipe between the reservoir and the pump is 3 meters of Sin diameter cast iron. From the pump to the discharge the pipe...

  • The system below uses a centrifugal pump to circulate water at 19°C, having a vapor pressure...

    The system below uses a centrifugal pump to circulate water at 19°C, having a vapor pressure of 2320 Pa, from a low reservoir to a higher one through a cast iron pipe with a diameter of 35 cm and surface roughness of 0.25 mm. The minor head losses upstream of the pump are represented by EK1 = 0,6 and downstream by & K2 = 7. After several months of usage, it is noticed that the installation is noisy and consumes...

  • Value for transmissivity is 185,location is B,flow rate is 20 Question 1: No-flow boundary conditions are implemented by: Question 2: Flow Calculation with no abstraction or rech...

    Value for transmissivity is 185,location is B,flow rate is 20 Question 1: No-flow boundary conditions are implemented by: Question 2: Flow Calculation with no abstraction or recharge m2/day m/day Condition 1 flow is Condition 2 flow is Question 3: Recharge or abstraction at a node is calculated by: Question 4: Water Level and Flows for Condition 1 are: Water level at pumping/recharge node Flow accross boundary AB Flow accross boundary CD ..,..) is m3/dayFlow accross boundary BC m/dayFlow accross boundary...

ADVERTISEMENT
Free Homework Help App
Download From Google Play
Scan Your Homework
to Get Instant Free Answers
Need Online Homework Help?
Ask a Question
Get Answers For Free
Most questions answered within 3 hours.
ADVERTISEMENT
ADVERTISEMENT
ADVERTISEMENT