Power Plant Engineering
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Power-Plant-Engineering
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- Fig. 11.31 EXERCISES 1.
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4. Part Load Efficiency. Full load is defined as the load under which a turbine develops its
maximum efficiency anything above that is known as overload and anything below that is known as part load. The part load efficiency differs greatly for different specific speed and types of turbines. Fig. 11.31 shows the variations in part load efficiencies with different types of wheels. Fig. 11.30 384 POWER PLANT ENGINEERING In case of Pelton wheel, only the jet diameter through which the water flows is reduced by the governing mechanism when the load on the turbine is reduced below full load. The velocity diagrams at inlet and outlet remain practically unaltered in shape at all loads except for very low and very high loads. Thus the absolute velocity at inlet does not change and discharge loss remains same. Therefore, the part load efficiency curve is more flat in case of Pelton turbine. 100 90 80 70 60 50 40 30 20 10 0 10 20 30 40 50 60 70 80 90 100 Percentage of full load P er c en tage of E ff ic ienc y Im pu ls e N = 2 5 S Kaplan Turbine Fr an cis N = 8 0 S Fra nc is N = 40 0 S Fix ed Pro pel ler N = 9 00 S Fig. 11.31 EXERCISES 1. Draw a neat sketch of a power house and describe the main features of sub-structure and superstructure. 2. Describe the advantages and disadvantages of underground power stations compared with overground power stations. 3. What topographical and other conditions decide the setting of turbine either vertical or hori- zontal (a) in case of reaction turbine (b) in case of Pelton wheel ? 4. What do you understand by open flume setting ? Draw the neat sketches of horizontal and vertical open flume setting for reaction turbines. When the open flume setting is more prefer- able ? What are its disadvantages ? Which factors are considered in deciding the setting of Pelton wheel (a) in horizontal plane (b) in vertical plane. Discuss the advantages of one over the other. 5. Discuss the differences between Pelton, Francis and Kaplan turbines and type of power plants they are suitable . Why the inward flow reaction turbines have superseeded the outward flow turbines ? 6. What do you understand by the term specific speed of a water turbine ? What information does it give and how it is made use in practice ? Indicate how the form of a reaction turbine depends upon “specific speed”. 7. Find out the expression for the specific speed of a water turbine in terms of H.P. developed, the speed and the head available. Further show that the specific speed of a Pelton wheel is 2450 d/D, where d and D are the diameter of jet and diameter of mean circle bucket of Pelton wheel in meters respectively. Assume that mean bucket speed = 0.46. Maximum efficiency = 0.88% and coefficient of velocity of jet = 1. HYDRO-ELECTRIC POWER PLANTS 385 8. Explain why the discharge conditions for a high specific speed runner are less favourable than those for a low specific speed runner both being assumed to be running at their points of maximum efficiency 4.18. Explain why the discharge conditions at part load are less favour- able for the high specific speed runner than for the low specific speed runner. 9. For a given head and stream flow available at a certain power plant, what quantities may be changed so as to permit the use of various types of turbines ? Which type of turbine will give the smallest number of units in the plant ? Which type will run at the lowest speed ? 10. How does the maximum efficiency of a reaction turbine vary with the type of the turbine ? For what type it is the highest ? Why ? For what type it is lowest ? Why ? 11. What are the disadvantages of a very low specific speed reaction turbine ? What are its ad- vantages ? How does the efficiency of the Pelton wheel vary with its speed ? Why ? Download 3.45 Mb. Do'stlaringiz bilan baham: 
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