chapter 14: well-performance tests

24
Chapter 14: Well- Performance Tests Analysis and Evaluation of Pumping Test Data Revised Second Edition Kruseman & de Ridder

Upload: hafwen

Post on 24-Feb-2016

77 views

Category:

Documents


0 download

DESCRIPTION

Chapter 14: Well-Performance Tests. Analysis and Evaluation of Pumping Test Data Revised Second Edition Kruseman & de Ridder. Introduction. A well-performance test is conducted to determine aquifer losses and well losses. - PowerPoint PPT Presentation

TRANSCRIPT

Page 1: Chapter 14: Well-Performance  Tests

Chapter 14: Well-Performance Tests

Analysis and Evaluation of Pumping Test DataRevised Second Edition

Kruseman & de Ridder

Page 2: Chapter 14: Well-Performance  Tests

IntroductionA well-performance test is conducted to determine aquifer losses and well losses.

Aquifer losses are the head losses that occur in the aquifer where the flow is laminar.

Well losses are divided into linear and non-linear head losses.- Linear well losses are caused by damaging of the aquifer during drilling and completion of the well. - Non-linear well losses are the friction losses that occur inside the well screen and in the suction pipe where the flow is turbulent.

“Skin effect” concept of head losses in vicinity of well due to varying hydraulic conductivities.

Page 3: Chapter 14: Well-Performance  Tests

Head Losses in a Pumped Well

Page 4: Chapter 14: Well-Performance  Tests

Step-Drawdown TestA single-well test process consisting of pumping the well at increasing constant discharge rates (Q) until the drawdown becomes stable at each Q.

This process is repeated through at least three steps of equal duration.

Jacob equation:

It is not possible to determine rew from the data of a step-drawdown test because you must know the storativity of the aquifer, which can only be obtained from piezometer observations.

Page 5: Chapter 14: Well-Performance  Tests

Variation to Jacob’s EquationOther researchers have suggested variations to Jacob’s equation based on differences found between the flows inside and outside the well.

The value of P = 2 is widely accepted.

We can predict the drawdown inside the well for any realistic discharge (Q) at a certain time (t), then…

Find the relationship between drawdown and discharge to choose an optimum yield for the well or to evaluate the well’s efficiency and/or condition.

Page 6: Chapter 14: Well-Performance  Tests

Well EfficiencyThe specific capacity of a well (Q/sw ) describes the productivity of the aquifer and the well.

- decreases as pumping continues- decreases as discharge increases

Well effiency (Ew ):

However, the true degree of a well’s imperfections cannot be determined due to the difficulty of separating linear aquifer-losses and linear well-losses.

Page 7: Chapter 14: Well-Performance  Tests

Total Drawdown Inside a Well due to Well Losses

The concepts of linear and non-linear head loss components relate to the concepts of skin effect and non-Darcy, turbulent flow.

The total drawdown inside a well due to well losses can be expressed as:

Page 8: Chapter 14: Well-Performance  Tests

Hantush-Bierschenk’s MethodTo determine values of B and C (aquifer losses and linear and non-linear well losses).

Hantush expresses the drawdown sw(n) in a well during the n-th step of a step-drawdown test as:

Page 9: Chapter 14: Well-Performance  Tests

Hantush-Bierschenk’s Method (cont’d)

After summing the increments of drawdown taken at a fixed interval of time from the beginning of each step, we can write the equation as follows:

This method can only be applied when:• the assumptions listed at the beginning of Chapter 3 except the 1st and 5th are

met • the aquifer is confined, leaky, or unconfined• the aquifer is pumped step-wise at increased discharge rates• the flow to the well is in an unsteady state• the non-linear well losses are appreciable.

Page 10: Chapter 14: Well-Performance  Tests

Hantush-Bierschenk’s Method (cont’d)

Determination of the drawdown difference for each step:

Page 11: Chapter 14: Well-Performance  Tests

Hantush-Bierschenk’s Method (cont’d)

Determination of parameters B and C (aquifer losses and well losses):

Page 12: Chapter 14: Well-Performance  Tests

Eden-Hazel’s MethodFrom step-drawdown tests in a fully penetrating well that taps a confined aquifer, this method can determine the well losses and transmissivity of the aquifer.

The drawdown in the well is given by the Jacob equation:

Page 13: Chapter 14: Well-Performance  Tests

Eden-Hazel’s Method (cont’d)We can derive the drawdown at time t during the n-th step from:

This equation accounts for the influence of non-linear well losses:

Page 14: Chapter 14: Well-Performance  Tests

Eden-Hazel’s Method (cont’d)The Eden-Hazel procedure can be used if:• all the assumptions at the beginning of chapter 3 except for the 5th are

met• the aquifer is pumped step-wise at increased discharge rates• the flow to the well is in an unsteady state• u (r2S/4KDt) < 0.01• the non-linear well losses are appreciable

Page 15: Chapter 14: Well-Performance  Tests

Eden-Hazel’s Method (cont’d)Plot of s(w)n (drawdown at time t) versus Hn (discharge increment at time t)

Page 16: Chapter 14: Well-Performance  Tests

Rorabaugh’s MethodGives values of B (linear aquifer losses and linear well losses), C (non-linear well losses), and P (discharge coefficient).

This method can be applied when:• all the assumptions listed at the beginning of chapter 3 except for the 1st and 5th

are met • the aquifer is confined, leaky, or unconfined• the aquifer is pumped step-wise at increased discharge rates• the flow to the well is in an unsteady state • the non-linear well losses are appreciable.

Page 17: Chapter 14: Well-Performance  Tests

Rorabaugh’s Method (cont’d)A plot of drawdown at time t minus linear losses versus constant discharge during

the n-th step: (trial-and-error straight line method)

Page 18: Chapter 14: Well-Performance  Tests

Sheahan’s MethodIt gives values of B (linear aquifer losses and linear well losses), C (non-linear well losses), and P (discharge coefficient).

Assuming that B = 1, C = 1, P > 1, and that Qi is given for all values of P, we can calculate the ratio s(w)n/Qn for selected values of Qn and P using the equation from the Rorabaugh method.

This method can be applied when:• All the assumptions listed at the beginning of chapter 3 except for the 1st and 5th

are met• The aquifer is confined, leaky, or unconfined• The aquifer is pumped step-wise at increased discharge rates• The flow to the well is in an unsteady state• The non-linear well losses are appreciable

Page 19: Chapter 14: Well-Performance  Tests

Sheahan’s Method (cont’d)The values can be plotted as a family of type curves:

Page 20: Chapter 14: Well-Performance  Tests

Sheahan’s Method (cont’d)When we plot drawdown-discharge (s(w)n/Qn and Qn) data, we find that the best match with Sheahan’s type curves is with the curve for P = 2.8, as seen in this plot:

Page 21: Chapter 14: Well-Performance  Tests

Determination of the Skin FactorThe skin effect is defined as the difference between the total drawdown observed in a well and the aquifer loss component, assuming the non-linear well losses are negligible.

• If the effective radius of the well rew is larger than the real radius of the bore hole rw, it is a positive skin effect.

• If rew < rw, the well is usually poorly developed or its screen is clogged, and it’s a negative skin effect.

The procedure for determining the skin factor is applicable under these conditions:• All the assumptions listed at the beginning of chapter 3 are adjusted for recovery

tests• The aquifer is confined, leaky, or unconfined• The flow to the well is in an unsteady state• u < 0.01• u’ < 0.01• The linear well losses (the skin effect) are appreciable and the non-linear well losses

are negligible.

Page 22: Chapter 14: Well-Performance  Tests

Determination of the Skin Factor (cont’d)

Adding the skin effect to Jacob’s equation, we obtain the following equation for the drawdown in a well that fully penetrates a confined aquifer and is pumped at a constant rate:

Page 23: Chapter 14: Well-Performance  Tests

Determination of the Skin Factor (cont’d)

After the pump has been shut down, we measure the residual drawdown s’w in the well with:

Page 24: Chapter 14: Well-Performance  Tests

AQTESOLVStep-drawdown test in a confined aquifer, Saudi Arabia

- Uses Theis step-drawdown solution