FIELD OF INVENTION
5
The present invention related to capillary action and atmosphere pressure based
self-sustaining fluid system . The invention is more particularly related system
for self-sustaining liquid circulation with continue rotating turbine
BACKGROUND & PRIOR ART
The perpetual motion machine are developed which is self-energized moving ,
machine which means these machines does not take any external energy to power
5 itself. Hence the invention is also mechanical and based on Newtonian fluid based
perpetual motion moving machine which based on the capillary action, and
natural forces of fluid and universe the invention also include a device of Sir
Nikote TeslaUiS* Patent 1329559,
3 OBJECTIVE OF THE INVENTION
The principal objective of this invention is to develop a system for self-sustaining
liquid circulation with continue rotating turbine.
SUMMARY
This system works on the law of capillary and universal laws and property of fluid
and its behavior under different fluid, the invention also cpiitain the momentum
and kinetic energy to power an external turbine from which we can utilized the
amount of energy and hence the machine is just a free energy machine.
BRIEF DESCRIPTION OF DRAWINGS
Figure 1 shows block diagram of the machine.
Figure 2 shows detail view of the second tube.
DETAIL PISCMPTIQN
The whole system consists on artificial atmosphere and the atmospheric pressure
used in the system is greater than the earth atmospheric pressure. Figure 1 shows
one of the exarnplentary representations of the present invention. The cylindrical
-vessel (2) is connected to Frustum (1) though a mean (11). The frustum (1) having
same an initial radius as the cylindrical vessel (2) arid outer diameter of frustum is
depend upon number and diameter of tubes used to connect for capillary action.
A one hand of a tube (8) is immersed in some ampunt of oil at a measured depth
and another hand of the tube (8) is connected a second tube (13). The second tube
is inclined at a measured angle. The second hand of the second tube (13) is
connected to a Tesla valve (10) [as proposed in prior art patent application
USi329559i which resists the atmospheric pressure to flpw inside the second tube
(13).
A turbine (6) rotates on the kinetic energy by force generated on its turbine from
the fall of oil from the height which flow and falls from the second tube (13).
Then the oil flpw toward a frustum of container (7)T
A one hand of the frustum (7) is open to atmosphere and receive atmospheric
pressure. The oil from the turbine (6) is received by the one hand of the frustum
of container (7). A another hand of the frustum of container (7) is connected to a
hand of 'U* shape tube (5) by a mear* for connection (14). The second hand of
the 'IT shape tube (5) is connected to a mean to control (10). Thie 'U* shape tube
(5) is immersed in the water at a measured height.
I
Exemplary Measurement in figure 1:
The cylindrical vessel (2) have a of height %', The outer radius of frustum with
initial outer radius *D', The tube (8) is placed at the V depth , second hand of
the second tube (13) is inclined at an angle ("u"}- The kinetic energy of the oil in
the second tube (13) is calculated as C).5*m*v?
i The 'U' shape tube (5) is
immersed in water at height *yFigure 1 shows the one end of the second tube (13) is smaller in diameter i.e. 'd'
which is a capillary diameter which allows the capillary action to take place and
other end is of the second tube (13) have larger diameter which is more than
capillary diameter and is gradually increasing from a point (30) toward the end
where capillary action will be zero and the fluid will fall down due to gravity.
t)ue to capillary action there is no way that any air bubble will take place in the
tube and oppose or choke the flow. And is fully impossible that air pressure will
act on the oil and opposite the flow.
A stand (15) is on which the container (7) is mounted and the second stand (8) on
which the container (2) is mounted.
The whole setup is setup in an artificial atmosphere chamber (17).
WORKING
As shown in Figure 1, the cylindrical vessel (2) contain a fluid (water) higher
density (say 1000 kg/cc at height of hi) from Datum and the mean for connect
(11), oil is filled in a container of lower density then water (oil), as the tube (8) is
of smaller diameter (smaller than 6 mm ) thus capillary action take place and rise
the height of oil to a height (capillary height (h');
As the system is on the oil of density say 790 kg/ec from the container (7) is flow
through the 'U' shape tube (5) and now it passed through the Tesia valve (10).
When the oil form the tesla valve (10) is comes in contact with water than due to
property of oil, it travelles upper side in water as a medium and made layer of oil
the Oil collected on top of the water surface.
Now the collected oil on water surface comes in contact the capillary pipe hand of
the tube (8) due to increasing quantity of oil on water surface must try to flow out
of the pipe due to this the capillary action will takes place in pipe and tjie oil starts
flow through the second tube (13).
When the oil comes in pontact with a Tesla valve (10) which is one way valve as
described above, the oil passed through this valve and it directly drppped on the
turbine (6).
When it falls oh the turbine (6) the oil losses the energy and the falls in the
container (7).
Now as in figure 1 the inclination of the second tube (13) is connected to the tube
(8) which is at height smaller than capillary height 'h' hence the fluid will fall
due to gravity toward to the tesla valve and fall on the turbine nQNow
the fallen oil from turbine will be collected in the container (7) which will
flow to the cylindrical vessel (2) through the 'U' shape tube (5); Now at the area
point (3) due to difference in density of fluid the oil will rise toward Frustum (1)
and the cycle continues.
Note: for the first time oil should will filled in the container till the stability of the
cycle start to continue.
Mathematical Calculation
That flow of fluid will be from the container (7) to the .cylindrical vessel
(2)
"Pi" is defined as specific density of oil
"pw" is defined as the specific density of water
Height of water in the cylindrical vessel (2) from datum =hj
Height of oil in frustum of container (7) = hz
Height of oil in container (2) from the datum -h3
Q is gravitational force
ATP Surrounding pressure can be filled with external air.
At point "600";
Pi=Pw*g*hi+Pi*g*h2+(ATP) la)
P, pressure at 4
P2 * p*g*h3+ ATP (b)
As the ATP in part (1) is '0>(zero)
Therefore,
Eqn(a) become
Pi = Pw*g*hi + Pi*g*h2 , ©
Hence* due to atmospheric pressure in eq(b) the value of P2 will be much greater
then Pi in eq(a)
As Pi