13.10: Questions

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1. Describe the benefits and limitations of mechanized sprinkler irrigation systems.

2. A center pivot will be installed with 6 5/8-inch outside diameter pipe. The system will include 7 towers (178-ft spans), with a system length of 1,280 ft (including overhang). The flow rate of the entire system is 700 gpm. Determine the pressure loss due to friction (psi) in the pivot lateral without the end gun operating (Table 13.3).

3. For the center pivot in the previous question, determine the pressure required at the bottom of the pivot riser considering the nozzle pressure (10 psi), minor losses in regulator (assume 5 psi), pressure loss due to friction in pivot lateral, height of nozzle above ground (8 ft), and elevation change along the pivot lateral. The height of the pivot riser is 12 ft. The highest elevation in the field is at the north edge of the field, 14 feet higher than the elevation at the pivot point.

4. Calculate the nozzle flow rates and specify the nozzle sizes at the mid-point and at the outside end of the pivot lateral described in the previous questions. The sprinkler spacing (S) is 10 ft. Assume straight-bore nozzles.

5. For the irrigation system in the previous questions, determine the well pump total dynamic head, pump motor horsepower, and the number of pump stages required. The pump will be a Flowserve 12SKL (32.60) semi-open impeller (Figure 8.11). Choose the impeller diameter with the best efficiency. Assume that the well is located at the pivot point.

6. The predominate soil texture in the field is a Holdrege silt loam. What is the NRCS Intake Family?

7. The diameter of coverage for the sprinklers is 25 ft. The typical slopes in the field are 1- 2%. Using the nozzle flow rates calculated in Question 4, determine the peak application rate and the maximum application depth that can be applied (in) without causing runoff. Is this acceptable?

8. Find the pivot speed (timer setting) for the application depth determined in the previous question. The maximum tower speed is 6 ft/min. Use the system characteristics provided in Question 2.

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