BR102015018617A2 - vertical and continuous hydroelectric plant - Google Patents

Abstract

Vertical and continuous hydroelectric power plant (fig.01) characterized by continuous production of electrical energy from the kinematics of solid and fluidic bodies in vertical and mechanical hydraulics with the dynamics of the force of gravity and pressure since at the end of the first cycle water it turns off at the extreme of the descending vertical distance favoring all the probabilities of its physical force to operate the mechanism of the complex (fig.02) which is comprised by generating a driving force and the whole system uses natural conditions in a dynamic vector grid considering the acceleration. of drag between the elements dispensing any external source of the complex for expected function that is the production of electric energy the principle of clean and continuous energy in this mode.

Description

VERTICALIED AND CONTINUED HYDROELECTRIC POWER PLANT COMPLEX. 1- COMPLEX OF VERTICATED AND CONTINUOUS HYDROELECTRIC POWER PLANT (fig.01,1; a, 1b) and characterized by continuous energy production from mechanics; and vertical hydraulics generating uninterrupted water circulation. 2- Using gravity-accelerated water fall since at the end of the first cycle the water shuts off at the extreme upward vertical distance favoring all probability of its physical force to generate the mechanism of the complex (fig.02) that and comprised by driving force generation. 3- In the second cycle understood as vertical descending water recovers the reservoir by means of pumping distributed in parts of what - the volume of the water fall of the first system (fig.03) that around the reservoir aims at the fractional relief of the application of ft τ forming the continuous circulating connection of the two m. :. nentent. 4- 1 s naiu! dispensing with any external source of c: - the reduction of electric energy. 5- This subset to the subset system being the upper reservoir ffiq.01.1b) the lower reservoir (fig.05) the first feeding the next cycle and the second the ascending cycle. 6- Within the mechanical system we have, as the beginning of the motive energy production an impact turbine, (b) and piped conduction of the water producing force that feeds all the first, mechanical part that also has two distinct moments (fig.06, ib) being · this; first directly connected to a water pressure accelerator pg, Q7,7c * 7d> composed of a perisbilly pump which at its end splits into. conductor fractions (d) reducing volume enhancing the. · .pressure pressure at distinct jets at nozzles (c). This is the end of the interruption of the upright upright connection that physically observing beyond: from potonnalizur the auxiliary pressure to acceleration, from the falling of the water. Forming a positive suction 7- starting the production force. connecting the · axis. initial system because in this the applied force will produce a rotation «potentiated» in relation to the first axis that feed n the turbine g ^ rad0fia (flj | iv09} awséierelíididf: the descending cycle. The first system sharing the same axis, the mechanical production of the pumping (FigiC, 0e, K) 1,10g, 10hJ which is comprised of volume fractions by a Piston (f) zza honinoamenfo force, Intakes and Safdâs' · ï water controlled by check valves (g) whereby all liquid is directed to the reservoir The reservoir where the return cycle is initiated is completely discouraged from the first downward cycle. miscellaneous in applications in very low temperature places where it would be frozen and prevent its perfect operation.

CLAIM

Claims (10)

1- Vertical and continuous hydroelectric power plant characterized by continuous energy production from the kinematics of the decomposing bodies in the mechanical and hydraulic generating fluid circulation without interruption. 2- Using the fall of the fluid as a dynamic vector acceleration by the force of gravity since at the end of the first cycle the liquid shuts off at the extreme vertical ascending distance favoring all the probability of the physical force of the same to generate the mechanism of the complex that is understood. by driving force generation where we will get vector tangential and normal acceleration deriving in time acceleration or complement evidently 3- In the second vertical downward cycle, the liquid returns to the reservoir by pumping distributed in parts of the first system's fall volume. This distribution of the return to the reservoir aims at the fractional relief of the application of the angular vector force in the pumping forming the continuous circulating connection. of the two moments the ascending and descending 4- The whole system uses natural conditions of the forces imprinted on them by the kinematics of the bodies, dispensing any external source of the complex for the expected function, which is the production of electric energy. 5- This subset system is subsets being upper reservoir lower reservoir the first feeding the downward cycle and the second upward cycle 6- Inside the mechanical system we start the production of motive energy an impact turbine and channeled fluid conduction producing force that feeds all the first mechanical part which also has two distinct moments, this first being directly connected to a liquid pressure accelerator. composed by a peristaltic pump that at its end is divided into conductor fractions reducing the volume and increasing the outlet pressure in different nozzles in nozzles this is the end of the interruption of the upright connection that physically observing besides increasing the pressure helps to acceleration of fluid fall forming a positive suction 7- Starting the power generating power we have an independent turbine connecting the axis of the initial system because in this the applied force will produce a potentialized rotation in relation to the first axis that will feed the generating turbine accelerating the downward cycle 8- consecutively started the upward cycle we have a connection of the first system sharing the same axis to the mechanical pumping production that is comprised of volume fractions by a crankshaft composed of separate piston and tube parts relieving the pumping force in and out of the liquid controlled by check valves where all liquid is directed to the reservoir and the reservoir where the return cycle begins is entirely disconnected from the first downward cycle 9- This is a principle of clean and continuous energy that should meet demands in many consumer sectors giving a free autonomy in complex distribution because its logistics will be reduced without spending huge networks as it also offers safety of continuous electrical food without blackout and Water may also be replaced by various liquids in very low temperature mounting applications where it would be frozen and prevent its perfect operation. 10- I present exploded parts of how the components of the system would occur in this first phase of the study of the kinematics of bodies, fluidic and solid bodies and how every innovator I Plácido de Assis Alves will certainly continue to improve the dominant design and execution. same dynamic principle as the entry document in patent application BR 102014031933 6 dated 18 December 2014.