Successfully reported this slideshow.
We use your LinkedIn profile and activity data to personalize ads and to show you more relevant ads. You can change your ad preferences anytime.

Lecture 10


Published on

Published in: Business, Technology
  • Be the first to comment

Lecture 10

  1. 1. Fluid Mechanics II Lecture 10 Muhammad Usman
  2. 2. Example 4• A single acting reciprocating pump has a stroke of length 150 mm. The suction pipe is 7.5 meters long and the ratio of plunger diameter to the suction diameter is 4/3. The water level in the pump is 2.5 meters below the axis of the pump cylinder, and the pipe connecting the sump and pump cylinder is 75 mm diameter. If the crank is running at 75 r.p.m. Find the pressure head on the piston• In the begining of the suction stroke.• In the middle of the suction stroke.• In the end of the suction stroke.• Take coefficient of friction as 0.01.
  3. 3. Example 5• A double acting reciprocating pump has a cylinder of 200 mm diameter and stroke of 400 mm. The pump delivers water toa height of 10 meters througha pipe 36 meters lond and 150 mm diameter at 40 r.p.m. Find the pressure in the cylinder at the begining of the delivery stroke, if a large air vessel is fitted in the delivery pipe at teh same level of the pump, but 3 meters from the cylinder. Take coefficient of friction to be 0.008.
  4. 4. Manometeric Efficiency• It is the ratio of manometric head to the energy supplied by the impeller/kN of water.
  5. 5. Example 6• A centrifugal pump delivers 30 litres of water per second against a head od 12 meters and runninng at 1200 r.p.m. requires 6 kW power. Determine the discharge, head of teh pump and power required, if the pump runs at 1500 r.p.m.
  6. 6. Example 7• A centrifugal pump was built to supply water against a head of 22.5 mters. But later on it was required to supply the required quantity of water against a head of 20 meters. Find teh necessary reduction in the impeller diamter, if it planned to reduce the original diameter of 300 mm without reducing the speed of impeller.
  7. 7. Example 8• Find the specific speed of a centrifula pump, delivering 750 litres of water per second against a head of 15 meters at 725 r.p.m.
  8. 8. Example 9• A multistage centrifugal pump is required to lift 9000 litres of water per minute from a mine, the total head including friction being 75 meters. If the speed of the pump is 1200 r.p.m. Find the least number of stages, if teh specific speed per stage is not to be less than 60 r.p.m.
  9. 9. Example 10• A single stage centrifugal pump with impeller diameter of 300 mm rorates at 2000 r.p.m and lifts 3 m3 of water per minute to a height of 30 meters. Find the number of stages and teh diameter of each impeller of a similar multistage pump to lift 4.5 m3 of water per minute toa height of 130 m when rotating at 1500 r.p.m.
  10. 10. Problem 1• A single acting reciprocating pump has plunger of diameter 150 mm and stroke of length 400 mm. It draws water fram a depth of 4.5 m through a pipe 8 m long and 80 mm diameter at 25 r.p.m. If the atmospheric pressure head is 10.3 find the pressure head on teh piston at the begining and end of the suciton stroke.
  11. 11. Problem 2• A single acting reciprocating pump has plunger of diameter 150 mm and stroke of 300 mm. The lengths of suction and delivery pipes are 6.5 m and 39 m respectively and both the pipes are of teh same diameter of 75 mm. The axis of the pump is 5 m above the level of the water in the sump and 33 m below the delivery water level. If the atmospheric pressure head is 10.3 m of water and coefficient of friction of both pipes is 0.01. Find the pressure head of the piston at the beginning, middle and end of the suction strokes. Take speed of crank as 30 r.p.m.