design of pelton turbines - fakultet for ingeniørvitenskap - … · ppt file · web...
TRANSCRIPT
Energy conversion in a Pelton turbine
Outlet Outlet of the runner
Inlet of the runner
Outlet of the needle
Inlet of the needle
2
2c
The ideal Pelton runnerAbsolute velocity from nozzle:
n1 Hg2c 1Hg2
ccn
11
Circumferential speed:
nu1
1 Hg221
2cu 5.0u1
Euler`s turbine equation:
)cucu(2 u22u11h
1)05,00.15,0(2)(2 2211 uuh cucu
1c u1 0c 2u
The real Pelton runner For a real Pelton runner there will always be losses.We will therefore set the hydraulic efficiency to:
96.0h
The absolute velocity from the nozzle will be:
995.0c99.0 u1
C1u can be set to 1,0 when dimensioning the turbine.This gives us:
)cucu(2 u22u11h
48,00,12
96,0c2
uu1
n1
From continuity equation:
u1
2s c
4dzQ
u1s cz
Q4d
Where:Z = number of nozzlesQ = flow rateC1u = nHg2
The size of the bucket and number of nozzles
4.3dB1.3
s
Rules of thumb:B = 3,1 · ds 1 nozzleB = 3,2 · ds 2 nozzlesB = 3,3 · ds 4-5 nozzlesB > 3,3 · ds 6 nozzles
Runner diameter Rules of thumb:
D = 10 · ds Hn < 500 mD = 15 · ds Hn = 1300 m
D < 9,5 · ds must be avoided because waterwill be lost
D > 15 · ds is for very high head Pelton
For the diameter: D = 10 · ds and one nozzle: z = 1
09,04
1101
4z
Dds
For the diameter: D = 10 · ds and six nozzle: z = 6
22,04
6101
4z
Dds
The maximum speed number for a Pelton turbine today is = 0,22
The maximum speed number for a Pelton turbine with one nozzle is = 0,09
Dimensioning of a Pelton turbine
1. The flow rate and head are given*H = 1130 m*Q = 28,5 m3/s*P = 288 MW
2. Choose reduced valuesc1u = 1 c1u = 149 m/su1 = 0,48 u1 = 71 m/s
3. Choose the number of nozzlesz = 5
4. Calculate ds from continuity for one nozzle
m22,0cz
Q4du1
s
7. Calculate the speed:
8. Choose the number of poles on the generator:
The speed of the runner is given by the generator and the net frequency:
where Zp=number of poles on the generator
The number of poles will be:
rpm452D60un
2D
60n2
2Du
1
1
]rpm[Z
3000np
764,6n
3000Zp
]rpm[6,428Z
3000np
m16,3n60uD
2D
60n2
2Du 1
1
9. Recalculate the speed:
10. Recalculate the diameter:
11. Choose the number of buckets
z = 22
12. Diameter of the turbine housing (for vertical turbines)
13. Calculate the height from the runner to the water level at the outlet (for vertical turbines)
m4,9BKDD gsinHou
K
z
8
9
1 64
m1,3DB5.3Height
Given values:
*Q = 28,5 m3/s*H = 1130 m
Chosen values:
c1u = 1u1 = 0,48z = 5B = 0,73 mz = 22Zp = 7
Calculated values:
ds = 0,22 mn = 428,6 rpmD = 3, 16 mHeight = 3,1 mDhousing= 9,4 m*P = 288 MW
ExampleKhimti Power Plant
1. The flow rate and head are given*H = 660 m*Q = 2,15 m3/s*P = 12 MW
2. Choose reduced valuesc1u = 1 c1u = 114 m/su1 = 0,48 u1 = 54,6 m/s
3. Choose the number of nozzlesz = 1
ExampleKhimti Power Plant
4. Calculate ds from continuity for one nozzle
5. Choose the bucket width B = 3,2 · ds= 0, 5 m
mczQd
us 15,04
1
7. Calculate the speed:
8. Choose the number of poles on the generator: The speed of the runner is given by the generator and the net frequency:
where Zp=number of poles on the generator
The number of poles will be:
rpmD
un
DnDu
61360
2602
2
1
1
]rpm[Z
3000np
59,43000
nZ p