- Page 1: MICROFICHEREFERENCELIBFUUWA project
- Page 5 and 6: LIST OF FIGURESFigure1.11.22.12.22.
- Page 7 and 8: FigureLIST OF ;“rGURES (CONT)4.4
- Page 9 and 10: Chapter 1Introduct ion.l .l Objecti
- Page 11 and 12: 3Many references describe Joseph's
- Page 13 and 14: 5the conversion of rotary motion in
- Page 15 and 16: 1--L\ ---Figure 1.1 Pulsometer Figu
- Page 17 and 18: Several other pumps were developed
- Page 19 and 20: the uncertainty of the world's ener
- Page 21 and 22: 14Unfortunately, none of these clas
- Page 23 and 24: Table 2.2b Classification of water
- Page 25 and 26: (c) The static discharge head (HsD)
- Page 27 and 28: 20HDD = H SD + HFD + HP ’ (2.7)(1
- Page 29 and 30: NPSHR is the maximum dynamic suctio
- Page 31 and 32: 24whereyWis the specific weight of
- Page 33 and 34: 26r20 liter BucketIO literBucket46
- Page 35 and 36: Chapter 3PositiveDisplacement Metho
- Page 37 and 38: 30raising the bucket through greate
- Page 39 and 40: Figure 3.1 Self-emptying mot with i
- Page 42 and 43: here, the circular mot is usually l
- Page 44 and 45: COUNTERWEIGHT(b)Figure 3.3 (a) Coun
- Page 46 and 47: PIVOT.KWAYPhiSUPPORT/ WITHLADDERCAN
- Page 48 and 49: 41two ropes, swing the basket back
- Page 50 and 51: 43This device can be quite simple c
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45OUT BOARD ENDWITH FLAP -VALVE NI
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47.,*. /- .. ,‘.r-Figure 3.8 Doub
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HANDRAILIGunER/- )LOWERED ,IPOSITIO
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51and steps off to allow buoyancy t
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AUTOMATlC-am.CONNECTINGKULJSTEAM\VA
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55CONNECTING RODSPOUT/J-bPUMP STAN:
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57SUCTION STROKE DISCHARGE STROKE(N
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WELLPIPEONNECTING -ROD-0ETACHABLHAN
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61materials evaluated for performan
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63The IRRI design has a handle bar
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65The third method of diaphragm pum
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67Figure 3.17 Paddle-wheel operated
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TYPICAL WOODENPADDLE AND CHAINDESIG
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71Figure 3.19 Chain purnl> with man
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CENTRALTROUGHPORTGARLANRWHEF’. \
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Table 3.4Persian wheel performanceL
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77CAPACITY LOSS WHENFlLLED AT ANGLE
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-INLET;,f .----I‘-..-c‘.I ::,-.
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81---------------------------------
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A- ARCHIMEDES’h- LOGARlTHMlCHEAD
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85/TOPRIME MOVERHELIXOF WOODEN PLAN
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87auger pumps can be produced by li
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DRIVE y ----SHAFT400FLEXIBLESTATOR3
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The semi-rotary pump, shown in Figu
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until the air pressure within it ex
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953.4.2 Air-Lift MethodsCompressed
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3.1.2.2 Displacement MethodAs menti
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As that vapor is condensing and ret
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101FLEXIBLE’WATERLINEvFLEXIBLEAIR
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Chapter 4KineticMethods4.1 Introduc
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105velocity of the fluid to pressur
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Another parameter, suction specific
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109speed 1 ines , it can be seen th
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Table 4.1 Typical rotodymmic pimp i
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DISCHARGE\VALVEPUMPDISCHARGELINECON
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I,E
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, _1174.3 Jet PumpsA jet pump is a
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119pump--usually up to a limit of a
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Chapter 5Prime Movers5.1 Introducti
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123an overall gear ratio of 1 to 12
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125In some traditional system where
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Table 5.2Animal power applicationsN
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129
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131Figure 5,2 American-style windmi
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133HALFCYLINDERSAILShlh/GEARLANTERN
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1362500-3500 rpm to deliver 150-200
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138(more than one water lifter is o
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I140SLUICE GATEBREAST WORK’ ’--
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142efficiencies usually range from
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144Although rarely in appropriate s
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1465.4.3 GeothermalLike tidal energ
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and the usually more common availab
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150Table 5.6 Typical energy values
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Chapter 6Selection6.1 IntroductionA
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154can quickly tire man and animal,
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156Such systematic selection is not
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This type analysis can be developed
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160Example 6.2 - Continuedd) Approx
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162of other water ladder designs, w
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164could substantially improve and
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166present prototype size and cost,
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168BHRA Fluid Engineering, ed., "Je
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Engineering Equipment Users Associa
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172Hydraulic Institute, Ilydraulic
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Kristy, 0. M., “Preventive Mainte
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176Schwab, G. 0. et al., Soil and W
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178Weisbach, J., and Herrmann, G.,M
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Table A.1 Length donversions and ab
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Table A.3 ‘Volume conversions and
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Table A.5 Velocity conversions and
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Table A.7 Power conversions and abb
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188Table A.9 Miscellaneous conversi