Open Day 26 - 27 luglio 2013 IDEA Creator Experimental Creative Culture.
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Transcript of Open Day 26 - 27 luglio 2013 IDEA Creator Experimental Creative Culture.
Open Day 26 - 27 luglio 2013
IDEA CreatorExperimental Creative Culture
F3
C
F2
F1
Rad/s
F4
Transmission belt
1
2
3
4
Classic Situation
The engine power is spread over the different-diameter pulleys
F x b x Rad/s
D
b b/i
LEVA
d d/ i
F’ = F x i2
P’ = Fxi2 x b/i x rpm = P x i
C
DC’
FF’
LEVA
F’ = F x iP = P’
TURBINA CCS
F
F’
Rpm Rpm
Classic lever
Double lever
Classic situationENGINE ALTERNATOR
Here is an alternator put together directly with the engine; in this case the engine power is equal to the alternator power. This situation is the same as the CLASSIC situation
C
ALTERNATOR
AB
movement
To me this situation is not the same as the previous one; here the power arm of the engine is introduced (AC), which is reduced on the alternator (A’C), obtaining on this one an improved power.
SHAFT
A’
B’
FULCRUM
ENGINEImproved turbine CCS
D D/i
F F’
BF
M A
P
R
P’
R’
D D/i
F’F
B
FMA
P
R
P’
R’
1
RM
RM’
WO/2005/047695
EP 2489875
D
F’
F
BM
A
P
R
P’RM
RM’
EP 2489875
F
Frizione (friction)
Turning engine
Turning alternator
Fixed wheel(1)
C
The shaft hooks the engineAnd the alternator, plus it pivots on C
A
B
Engine power = Alternator power
F x b x rad/s x AC = F’ x b’ x rad’/s x CB when AC=CB
……where as opposed to the “classic situation” the power moment is introduced compared to the fulcrum C
D
D’
The engine and the alternator are not fixed but they turn around The fixed wheel : in one second the engine goes from A to D and the alternator from B to D’
Engine power < Alternator power
Let’s suppose that AC/A’C = 2 and let’s balance the Power moments compared to the fulcrum C
Engine Power Alternator PowerF x b x rad/s x AC = F’ x b’ x rad’/s x A’C
F x b x rad/s x AC = F’ x b’ x rad’/s x AC/2
Reducing I obtain that the alternator power is the same as:
F’ x b’ x rad’/s = 2 x F x b x rad/s
On the red fixed wheel a power is discharged; this is equal to:Engine power x AC/ (AC/2) = Engine power x 2
Turning engine on Fixed wheel1) Fixed wheel on which
The engine pivots (1)
Turning alternator which engagedIn the red fixed wheel
A
C
B
Fixed wheel on whichThe alternator pivots (2)
A’
B’
The shaft hooks the engineAnd the alternator, plus it pivots on C
Turning engine
Fixed wheel on which the engine pivots (1) and concentric wheel on which the engine is set (1’); the engine turns and Spreads the motion to the redWheel (2) thanks to a wheel(1’’).The red wheel (2) spreadsThe motion to the alternator.
Fixed alternator engages In the red wheel
A
C
B
The Gear wheelTurns for the wheel (1’’)
P engine => Kinetic Energy Mass=> P alternator
m g V / ½ m V2 / s
2
m x g x V
m x g x V
F
F1
F2
Transferred mass because of the transformationOf the mechanical energy to kinetic energy
Turning engine
Fixed alternator Connected with the red wheel
A
C
B
m’
m’
m
m
m x i 2 x g x V/i = alternator Power > engine Power
Fixed wheel on which the engine pivots (1) and concentric wheel on which the engine is set (1’); the engine turns and Spreads the motion to the redWheel (2) thanks to a wheel(1’’).The red wheel (2) spreadsThe motion to the alternator.
½ m V2 / s = ½ m’ V’2 / s
m’ = m x i 2
A
C
B
m
mA
C
B
A’
B’
CONVENIENCE DECISION
If 2 g / V engine/ s > 1 the arrangement B is more convenient than A
Arrangement BArrangement A
1
AB M
M
M
RM
RM
RM
A
R’
RM’
1
AB M
M
M
RM
RM
RM
A
RM’
RP
A A
RR
Assetto 1
1AB
M
M
M
RM
RM
RM
R’
R
R
RP1
A
RM’
A RM’
Assetto 2
1AB
RP
A
RM’
R
RM
M
A
M
M
Assetto 3
AB’
F
F’
C
C/iD D/i
b
b/i
AB
R
R’
Spostamento angolare
Assetto 4
F x b x rad/s x C x D = F’ x b’ x rad’/s x C/i x D/i
P alternatore = P motore x i2
AB’
F
F’
C
C/iD D/i
b
b/i
AB
R
R’
Spostamento angolare
Assetto 5
P alternatore = m x g x i3 x V/ i
AB’
F
F’
C
D
b
b/i
ABR
Spostamento angolare
Assetto 6
P alternatore > P motoreed è funzione anche della
componente C
RM’
Frizione
Turbina perfezionata CCS
motore
riduttorealternatore
Turbina perfezionata CCS
Grazie per l’attenzioneAlessandro Leghi
Turbina perfezionata CCS
Cultura Creativa SperimentaleExperimental Creative Culture
employer/workPays the employees in €
Wage €
Bank CCS
€ are transformed in vouchers in GREEN SOCIAL virtual moneyEuros are moltiplied for a value equal/greater than 1 Depending on the green social usefulness for which they are spent.The vouchers have a face validity, they have a due date and an end useThey have an UEI value = € x green social coefficient >= 1
Buisnessmen pay the UEI off in CCS banksTransforming them in € to pay the production.Wages,green social services are paied and the “USEFUL” investment is rewarded.
green social shoppingWith vouchers in UEI
1
2
3
4
5
6
€ circulates again Depending on the social green system
HOW GREEN SOCIAL MONEY WORKS
7