TuS&TJbT?#! T  VT&Times New RomanT VT&Times New RomanT VT&Times New RomanT VT&Times New RomanT VT&Arial BlackmanT VT&Arial BlackmanT VT& Times New RomanT VT&aTimes New RomanT ZT & ZT @ ZT @ ZT  ZT  ZT @ ZT @ ZT @ ZT @ ZT  ZT  ZT @b ZT @b ZT b ZT @ ZT  ZT @ ZT @b ZT b ZT @ ZT @ ZT @ ZT @ ZT @ ZT @   (\T"  kT kT kTkT kTWkTGkTfT eTheTeTeTeTeTeTeTeTeT eT eT eT eT eTeTeTeTeT,eT,eT,eT,eT,eT,eT,eTeTeTeTeTeTeTeT eT!eT"eT#eT$eT%eT&eT'eT6eT7eT8eT9eT:eT;eT<eT=eT>eT?eT@eTAeTBeTCeTDeTEeTFeTGeTHeTIeTJ1]T^T P^T ^T p^T p^Tp^Tp^Tp Print Area-''$oTPTgTvPA.PA.dtu#TPA.d&%6The Cuthbert Hybrid Turbine Patented March 1999/ RATIO OF NUMBER OF VANES TO VANE TRAVEL[T   ,Assuming that 1 HP =76.0375 KGfM /sec PRINTED ONn@7+You may alter any cell shaded in red  VARIABLES UNITS Number of "banks"[T ?========================================================================================================Eff W of Vane MM EWENTERED[T 4@3 MMEff Ht of Vane MM EHENTERED[T R3 MM CM^2'A is the Area in sq Centimeters      Area  CM^2 A A=EW*EH/100  @ d  3  CM^2 U" N is the number of "Plates"       MAX No. PLATES  Units  Nm PI*D/(RATIO*EH)* @&   ? 3  Units REVS /MING R is the rotary speed of the "Turbine" in Revolutions per minute       Actual Number Plates  Units N ENTERED[T   @ 3  Units  MM> D is the effective diameter of the Turbine "Cylinders"       R.P.M. Revs /min R ENTERED[T  @@ 3 Revs /min KG*CM ^-2@ M is the Mean Effective pressure of the "Turbine's" cycle       Diameter  MM D ENTERED[T  " 3  MM KG=KG*CM^-2*CM^22 F is the total force on all at any one time       MEPKG /Sq CmMENTERED[T 3KG /Sq CmM*SEC ^-1>S is the speed in Metres per second of the "Cylinders"          KG*M*SEC ^-1%H is the Horsepower generated             CalculationsHowys Ltd 1999    CM ^3TSW is the volume swept by one revolution of the Turbine using the "mean Area"             ========================================================================================KG*M*SEC^-1H=S*F/7603.75      Force KGFA * N * M(d@   3 KGM*SEC^-1S=D*PI*R/600              SpeedCm /secS D * PI *R /600"bJ\@&  X 3Cm /secKG*CM^-2*CM^2F=A*N*M             Horse Power HPHS*F/76.0375/1000#zk 6@  fffffS@ d  3 HPKG*M*SEC^-1%H=(D*PI*R/600)*(A*N*M/7603.75)             Swept Volume? Cm ^3 SW A*D*3.142*N/10 6Qk@&  A`" @   3 Cm ^3               Swept /plate Cm^3 SPSW/(n*units)#Qko@  3 Cm^3               ConsumptiomLtrs/minC SW*R/1000 Qk@  3Ltrs/min               ConsumptionLtrs/SecT C/60[@@ < 3Ltrs/Sec                                                 ! ! ! " " " # # # $ $ $ % % % & & &' 26Calculations on the Rotary "Hybrid Turbine".7RATIO OF NUMBER OF VANES TO VANE TRAVEL[T 7,8Assuming that 1 HP =76.0375 KGfM /sec8 9PRINTED 9ON9n@7:Variables :Units: [T :;Eff W of Vane ;MM ;EW;ENTERED[T ;<Eff Ht of Vane <MM <EH<ENTERED[T <@ =Area =CM^2=A=A=EW*EH/100 =? d >MAX No. PLATES>PI*D/(RATIO*EH)*>W@&   ??Number Plates ?Units?N?ENTERED[T ?" @R.P.M.@Revs /min@R@ENTERED[T @ADiameter AmmADAENTERED[T A BMEPBKG /Sq CmBMBENTERED[T B"CCalculations C@HRJ DForce DKGDFDA * N * M"DP@   ESpeedECm /secESED * PI *R /600"E Jp/@&  X FHorse Power FHPFHFS * F / 76.0375/100*F),Eq*@ fffffS@ d GSwept Volume? GCm ^3 GSWGA * D * 3.142 * N/10 0Gq= ף@  A`" @   HSwept /plate HCm^3 HSP HSW/NHq= ףW@  IConsumptiomILtrs/minICISW*R/1000 Iq= ף@  JConsumptionJLtrs/SecJT JC/60JA`")@ < T-qqAChart1T$  P6r A.0T 5T 7TPA.AT@TD ArialA. Arial  8T9TDTTT    T Arial   Arial Arial ArialTtPA.PA.TlTTT1TT