Solid Waste Engineering
3rd Edition
ISBN: 9781305888357
Author: Worrell
Publisher: Cengage
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Chapter 9, Problem 9.11P
To determine
The amount of money that the agency needs to put into a sinking fund annually to buy the land.
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Q3. In a water flood operation in reservoir A, water is being distributed to severalinjection wells from a common injection system; that is, water is supplied to all thewells at approximately the same well head pressure. Routine measurement of theindividual well injection rates by the team of field operators showed that one well wasreceiving approximately 45% more than its neighbours. The sum of the kh productsfor all of the injection wells were approximately the same depth. As a member of theteam, explain:What are the possible causes of the abnormally high injection rate in this well, andwhat production logs or other tests might be run to further diagnose the problem andplan remedial action?
Question 1
20 pts
Test data on the bending strength of construction wood poles of various diameter are
presented below assuming the same length. Kip- 1000 lbf. Using the following data with 2nd
order Newton polynomial interpolation, we want to determine the strength of the material for
x=4.5 in. Which data point will be used as x? After you found x0, enter the value of x-xo in
the solution. Answer shall be in one decimal place.
Distance (in) 2.6
1.5
8.3
2.8
5.7
Strength (kips) 100
200
300
400
500
Solve please
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- solve all of the last names from A-K to please for example use k=100k/in , m =1000lb/g . use el centro (2nd picture ) to solve the questions. Thank you for your help! for the following questions ignore that last name and just solve it pleae: Verify the modes that are orthogonal Normalize the first mode uisng electro with 2%damping, Determine Sa&Sd only for the first modearrow_forwardFor question 2 do 2% please. Use El centro spectrum to answer the secon question please. Thank you for your help!arrow_forwardsolve pleasearrow_forward
- A mechanism for pushing small boxes from an assembly line onto a conveyor belt is shown with arm OD and crank CB in their vertical positions. For the configuration shown, crank CB has a constant clockwise angular velocity of 0.6π rad/s. Determine the acceleration QE of E (positive if to the right, negative if down). 450 mm 215 mm 565 mm A 185 mm 105 mm 110185. mm mm Answer: a = i B 40 mm E m/s²arrow_forwardPlease answer the following questions in the picture, use the second picture to answer some of the questions. I appreciate your help! Explain step by step, thank you!arrow_forwardQuestion 5. Three pipes A, B, and C are interconnected as in Fig. 2. The pipe characteristics are given below. Find the rate at which water will flow in each pipe. Find also the pressure at point P. (Neglect minor losses) Pipe D (in) L (ft) f A 6 2000 0.020 B 4 1600 0.032 C 8 3000 0.02 -El. 200 ft P -El. 120 ft B Fig. 2 -El. 50 ft.arrow_forward
- calculate all nodal displacementts and all the member forces of the trussarrow_forwardNOTE: Use areal methods only for V,M,N diagrams(Do NOT use the equations) (also draw the N diagram(s) for the entire structure)arrow_forwardThe figure below shows a foundation of 10 ft x 6.25 ft resting on a sand deposit. The net load per unit area at the level of the foundation, qo, is 2100 lb/ft². For the sand, μs = 0.3, E, = 3200 lb/in.², Dƒ = 2.5 ft, and H = 32 ft. Foundation BX L Rigid foundation settlement Flexible foundation settlement H μ, Poisson's ratio E, = Modulus of elasticity Soil Rock Elastic settlement of flexible and rigid foundations Table 1 Variation of F₁ with m' and n' m' n' 1.0 1.2 1.4 1.6 1.8 2.0 2.5 3.0 0.25 0.014 0.013 0.012 0.011 0.011 0.011 0.010 0.010 0.50 0.049 0.046 0.044 0.042 0.041 0.040 0.038 0.038 1.00 0.142 0.138 0.134 0.130 0.127 0.125 0.121 0.118 2.00 0.285 0.290 0.292 0.292 0.291 0.289 0.284 0.279 5.00 0.437 0.465 0.487 0.503 0.516 0.526 0.543 0.551 10.00 0.498 0.537 0.570 0.597 0.621 0.641 0.679 0.707 20.00 0.529 0.575 0.614 0.647 0.677 0.702 0.756 0.797 50.00 0.548 0.598 0.640 0.678 0.711 0.740 0.803 0.853 100.00 0.555 0.605 0.649 0.688 0.722 0.753 0.819 0.872 Table 2 Variation of F2…arrow_forward
- = == An 8 m high retaining wall supports a 5.5 m deep sand (Ya 18.5 kN/m³, q = 34°) overlying a saturated sandy clay (y_sat = 20.3 kN/m³, q = 28°, c = 17 kPa). The groundwater level is located at the interface of two layers. Sketch the lateral stress distribution up to a depth of 8 m for an active condition. Also, determine the line of action of the resultant. 5.5 m Sand |Y=18.5 kN/m³ |₁ =34° Sandy : clay 2.5 m |c=17 kPa Ysat 20.3 kN/m³ 2=28°arrow_forward3. What is the maximum allowable load that can be applied to the pile shown below? : Qall = ? G.W.T. 45' Soft Clay: Ysat 100 pcf Cu = 500 psf, ou = 0° Clay Shale: Qu(lab) 24,000 psi o' = 15° Driven Steel H-Pile: 1/2" thick steel web & flanges (soil plugged) -10". I Note: Pile & soil profile are not drawn to scale Please use the approach outlined in Das 12.16 and an Allowable Stress Design (ASD) approach for your analysis. Use a factor of safety = 3 for design, neglect any effect that shaft resistance has on pile capacity, and neglect the effect of the weight of the pile in your analysis.arrow_forward2. Calculate the ultimate load carrying capacity of the pile tip driven into the soil profile shown below: G.W.T. Qapp 40' Soft Clay: Ysat 100 pcf Cu 500 psf, ₁ = 0° 4c+4 Poorly Graded Sand (SP): Ysat = 125 pcf Q₁ = ? c' = 0, ' = 35° Driven Steel Pipe Pile: Outside Diameter = 2' Inside Diameter = 1'11" Hollow (soil plugged) Note: Pile & soil profile are not drawn to scale For this problem, please calculate N₁* using both the bearing capacity theory approach and using standard design charts. Compare the values that result from these two approaches. Please use only the Nq* from bearing capacity theory for the remainder of your calculations.arrow_forward
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