J˙˙ !‹"  1 Print Area-%''$&ň%ň6'The Cuthbert Hybrid Turbine Patented March 1999/' RATIO OF NUMBER OF VANES TO VANE TRAVEL ‚@ ‚,'Assuming that 1 HP =76.0375 KGfM /sec‚' ‚‚'PRINTED ‚'ONrJŞľŤŞđá@7+'You may alter any cell shaded in red  'VARIABLES 'UNITS ‚^Number of "banks" đ?'========================'========================'========================^========================'========'Eff W of Vane 'MM 'EW^ENTERED 4@˙˙˙˙˙˙đüż€3MM'Eff Ht of Vane 'MM 'EH^ENTERED 4@˙˙˙˙˙˙đüż€3MM 'CM^2''A is the Area in sq Centimeters      ‚ 'Area ‚ 'CM^2‚ 'A‚ ^A=EW*EH/100‚ @€˙ż€ţż d ‚ ˙˙˙˙˙˙đüż€3 ‚ CM^2‚ 'U"‚ 'N is the number of "Plates" ‚ ‚ ‚ € 'MAX No. PLATES € 'Units € 'Nm€ ^PI*D/(RATIO*EH))€ @&€€ €ţż  ?‚ ˙˙˙˙˙˙đüż€3 ‚ Units‚ 'REVS /MING‚ 'R is the rotary speed of the "Turbine" in Revolutions per minute ‚ ‚ ‚  'Actual Number Plates  'Units 'N ^ENTERED  @ ˙˙˙˙˙˙đüż€3  Units  'MM> 'D is the effective diameter of the Turbine "Cylinders"     'R.P.M. 'Revs /min 'R ^ENTERED  @@ ˙˙˙˙˙˙đüż€3 Revs /min 'KG*CM ^-2@ 'M is the Mean Effective pressure of the "Turbine's" cycle     'Diameter  'MM 'D ^ENTERED  i@ ˙˙˙˙˙˙đüż€3 MM 'KG=KG*CM^-2*CM^22 'F is the total force on all at any one time     'MEP'KG /Sq Cm'M^ENTERED @˙˙˙˙˙˙đüż€3KG /Sq Cm'M*SEC ^-1>'S is the speed in Metres per second of the "Cylinders"      ‚ ‚ ‚ ‚ ‚‚'KG*M*SEC ^-1%‚'H is the Horsepower generated ‚ ‚  ‚  ‚  ‚  ‚  ‚ ‚'Calculations'ŽHowys Ltd 1999 ‚ ‚ ‚ ‚'CM ^3T‚'SW is the volume swept by one revolution of the Turbine using the "mean Area" ‚ ‚  ‚  ‚  ‚  ‚  ‚ ‚'===================='===================='====================^===================='========'KG*M*SEC^-1'H=S*F/7603.75      'Force 'KG'F^A * N * M'‚d@€÷ż€ůż €üż €óż ‚˙˙˙˙˙˙đüż€3‚KG‚'M*SEC^-1‚'S=D*PI*R/600 ‚ ‚  ‚  ‚  ‚  ‚  ‚ ‚ 'Speed'Cm /sec'S^D * PI *R /600!€ąbÜJĘ\@€úż& €ůż X ‚˙˙˙˙˙˙đüż€3 ‚Cm /sec‚'KG*CM^-2*CM^2‚'F=A*N*M ‚ ‚  ‚  €  €  €  € €'Horse Power 'HP'H^S*F/76.0375/100/‚#zk 6@ €˙ż€ţż fffffS@ d €ńż ‚˙˙˙˙˙˙đüż€3‚HP‚'KG*M*SEC^-1%‚'H=(D*PI*R/600)*(A*N*M/7603.75) ‚ ‚  ‚  ‚  ‚  ‚  ‚ ‚'Swept Volume? 'Cm ^3 'SW^A*D*3.142*N/10 5€ëQ¸…kŸ@&€đż€ôż €řż ‰A`ĺĐ" @ €öż  ‚˙˙˙˙˙˙đüż€3 ‚Cm ^3 € € € €  €  €  €  €  € €'Swept /plate 'Cm^3 'SP^SW/(n*units)"€ëQ¸…ko@€˙ż€őż€ďż  ‚˙˙˙˙˙˙đüż€3 ‚Cm^3 ‚ ‚ ‚ ‚  ‚  ‚  ‚  ‚  ‚ ‚'Consumptiom'Ltrs/min'C^SW*R/1000€ęQ¸…kŸ@€ţż€őż č ‚˙˙˙˙˙˙đüż€3‚Ltrs/min € € € €  €  €  €  €  € €'Consumption‚'Ltrs/Sec‚'T ^C/60‚[Öę˜ŕÁ@@ €˙ż< ‚˙˙˙˙˙˙đüż€3‚Ltrs/Sec ‚ ‚ ‚ ‚  ‚  ‚  ‚  ‚  ‚ ‚ ‚' ‚ ‚ ‚ ‚ ‚  ‚  ‚ ‚  ‚ ‚  ‚ ‚  ‚ ‚  ‚ ‚  ‚ ‚  ‚ ‚  ‚! ‚! ! ‚" ‚" " ‚# ‚# # ‚$ ‚$ $ ‚% ‚% % ‚& ‚& &‚'' 26'Calculations on the Rotary "Hybrid Turbine".7'RATIO OF NUMBER OF VANES TO VANE TRAVEL 7@,8'Assuming that 1 HP =76.0375 KGfM /sec8' 9'PRINTED 9'ON9JŞľŤŞđá@7:'Variables :'Units:^  :đ?;'Eff W of Vane ;'MM ;'EW;^ENTERED ;D@<'Eff Ht of Vane <'MM <'EH<^ENTERED <@ ='Area ='CM^2='A=^A=EW*EH/100=đ?€˙ż€ţż d >'MAX No. PLATES>^PI*D/(RATIO*EH))>€W@&€€ €ţż  ??'Number Plates ?'Units?'N?^ENTERED ? @ @'R.P.M.@'Revs /min@'R@^ENTERED @@@A'Diameter A'mmA'DA^ENTERED AŔr@ B'MEPB'KG /Sq CmB'MB^ENTERED B @C'Calculations C'@HRJ D'Force D'KGD'FD^A * N * M!DP@€ůż€űż €ţż  E'SpeedE'Cm /secE'SE^D * PI *R /600!E ”Jp/‹˜@€üż& €űż X F'Horse Power F'HPF'HF^S * F / 76.0375/100)F),šłEq*@€˙ż€ţż fffffS@ d G'Swept Volume? G'Cm ^3 G'SWG^A * D * 3.142 * N/10 /Gq= ף‡@ €öż€úż ‰A`ĺĐ" @ €řż  H'Swept /plate H'Cm^3 H'SP H^SW/NHq= ףW@ €˙ż€÷ż I'ConsumptiomI'Ltrs/minI'CI^SW*R/1000Iq= ף‡@€ţż€÷ż č J'ConsumptionJ'Ltrs/SecJ'T J^C/60JŠA`ĺĐ")@ €˙ż< €T-ľ˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙˙qqAChart1T$˙˙ˆ  ˙˙˙˙˙˙˙˙˙˙ P†6r ĆA‚.0T 5T 7T  PŔĆA‚.AT@TD ArialĆA‚.˙˙ Arialˆ  8Tň9TňDTƒT˙˙˙˙‡T ˆ    „TŒ Arial   Arial Arial Arial‚Tt  PŔĆA‚.  PŔĆA‚.…Tl†TT˙˙˙˙˙˙˙˙˙˙˙˙T1TT