KR101868449B1 - Renewable power generation equipment for coastal area - Google Patents

Abstract

The present invention relates to a new and renewable power generation plant for coastal area, and more particularly, to a new and renewable power generation plant for providing income increase by performing renewable power generation in a coastal area adjacent to sea level.
Generally, in the offshore area, new and renewable energy generation facilities are used for installation, but in particular, the generation of solar power generation equipment is economically used due to the vulnerability to salt contained in sea breeze, It is difficult.
In addition, in the region of weakness, the direction of the wind power is alternately blown by the change of the sea and the land area at the interval of day and night, and the climate of the Middle East and the like is constantly sunny in the sunlight. The damage to the plate is caused by salt.
A frame 46 which is connected in a rectangular shape at an intermediate portion of a plurality of supporting columns 44 protruding from a coastal area or a service vessel 52 moored on a sea surface 35, as an invention for solving the above- A solar power generator 50 assembled to the end of the support rod 47 assembled by the rotation means 41,
A rotating drum 59 coupled to the support column 44 to be rotatably supported by a supporting column 44 coupled to an upper end of the auxiliary column 43 of the solar battery plate 50, A rotating block 59 having a fixed flange 39 at a lower end thereof and a rotating block 70 having a slanting blade 68 formed on an outer surface of the rotating drum 59, And a wind power generator 66 provided with a curved wind induction wall 72 between the induction wall 62. The induction wall 62 is fixed to the auxiliary column 43 so as to surround the induction wall 62, In the new generation power generation apparatus,
A discharge pipe 53 and an inflow pipe 54 connected to the upper and lower sides of the carbur 51 where the heating space 57 is provided in the solar power generation plate 50 and a pressurizing pump 63 for spraying the high-pressure air supplied to the water 35 of the evaporation section 69 wrapping the high-pressure air with the jacket 64,
The jetting pipe 49 is provided with a jet nozzle 79 having a fine jet port 76 formed on the upper sea surface 35 and a filtering unit 56 formed above the evaporating unit 69, And a filtering device 67 for supplying the heated air in the heating space 57 connected to the upper inflow pipe 54 of the photovoltaic device 56.
A filtration unit 58 inclined at a lower side c of the filtering unit 56 and a reservoir 55 connected to the transfer path 61 to store the condensed water filtered at the filtration unit 58, ,
A discharge pipe 53a of the second filtration device 67a for providing the second filtration device 67a to one side of the filtration device 67 and connecting the same to the discharge pipe 53 of the filtration device 67, The connection pipe 45 is connected to the filtering unit 56a of the second filtration unit 67a in the evaporation section 69 of the filtration unit 67,
A second induction wall type second induction wall body 62a which is fixed to the auxiliary column 43 so as to protrude to the lower side of the wind power generator 66 and a second induction wall body 62a which is fixed to the inner support columns 44 A second rotary drum 59a having a reduced diameter and a second rotary block 70a which is expanded inwardly and a second rotary drum 59b coupled to the second rotary drum 59, The inclined sheet provided on the outer surface of the second rotating block 70a is coupled to the second rotating block 70a having the second rotating blade 68a,
And a second wind guide wall 72a curved inwardly from the second induction wall body 62a so as to reinforce the rotational force of the second rotation block 70a, The present invention provides a second wind power generator 66a formed of a rotation linkage 42 having a holding chuck 38 provided on a rotating body 40 assembled to a supporting column 44 between two rotating blocks 70a .
A third inductive trunk type third induction wall body 62b fixed to the auxiliary column 43 protruding to the lower side of the second wind power generator 66a and a third induction wall body 62b fixed to the inner side of the third induction wall body 62b A third rotary drum 59b having a reduced diameter coupled to a space enlarged to the inside of the third induction wall body 62b in the third rotary drum 59b coupled to the column 44, The wind force guided to the inside of the wall 62b reinforces the rotational force of the third rotary drum 59b while the wind force is applied to the inner wall of the rotary drum 59b, And a third wind power generator 66b formed of a second rotating link 42a having a second holding chuck 38a on the second rotating body 40a.

Description

Renewable Power Generation for Coastal Areas {Omitted}

The present invention relates to a new and renewable power generation plant for coastal area, and more particularly, to a new and renewable power generation plant for providing income increase by performing renewable power generation in a coastal area adjacent to the sea surface surrounding the Korean Peninsula.

Generally, in the offshore region of the peninsula, new and renewable energy generation complexes are installed. However, in particular, the generation of solar power generation devices is vulnerable to salt contained in sea breezes, It is difficult to use.

Also, in the regionally weak areas, the direction of wind power is alternately blown by the change of temperature in sea and land area at day and night interval.

In addition, the climate of the region such as the Middle East is constantly experiencing salt damage to the photovoltaic panel in the sunlight of sunny weather.

Most coastal areas are seasonally temperate, windy, and coastal areas adjacent to sea level are not narrow.

 It is infinite sunlight on the sea surface in the Middle East and Africa region, and it reinforces practicality of the development of new and renewable energy, especially to utilize it as the supply of water.

  However, the power plant of the photovoltaic panel described above has a weak durability against salt or salt water contained in sea breeze, so that there is a problem in installation on a wide sea surface.

In addition, solar PV panels installed at sea level are vulnerable to salmon and salinity such as yellow sand contained in sea breeze. In contrast, preparation for fine dust is solved by my own selection number 10-1406894 . However, the rotating body in which the structure of the rotating device for wind power generation is formed as a vertical rotating drum type is introduced in the applicant's specification 10-2010-0043991, It is an invention provided to give.

In addition, according to the application submitted by the applicant, 10-2011-0008588, a new renewable power generation complex was provided at the sea level, but the wind power at the intersection according to the windy area and day and night of the coastal area was effectively reinforced It is for a cycle.

  Also, if the rotating body is rotated by the same wind force, a difference is formed so that the number of revolutions (rpm) is small according to the diameter. This is because the length of the circumference of the rotating body having a large diameter becomes long, and if the same rotating body is rotated by the same wind force, the rotating force of the rotating body having a small diameter is rotated rapidly.

  In addition, a tool for tightening screws, such as bolts, is a structure with a built-in chucking gear, which is tightened by adjustment of the engagement structure according to the operator's adjustment.

This is to remove the salt contained in sea breeze as filtration as soon as the new and renewable power is generated while being easily moved during the development in the coastal area.

In addition, it is to provide the power generation efficiency by effectively arranging the solar heat applied from the solar power generation plate.

 In addition, to enhance the economic efficiency of the coastal area in the coastal area and to reinforce the new and renewable power, as an accelerating reinforcement of the wind force by crossing wind and water at different sea and land temperature changes in day and night.

  In addition, it is intended to solve the deterioration of durability practically due to the corrosion caused by sea breeze or salinity in the photovoltaic panel installed on the sea surface, and to provide the living water by condensation.

A frame 46 which is connected in a rectangular shape at an intermediate portion of a plurality of supporting columns 44 protruding from a service vessel 52 or a coastal zone anchored on the sea surface 35; A solar power generation plate 50 assembled to an end of a support rod 47 assembled by the rotation means 41,

A rotating drum 59 coupled to the support column 44 to be rotatably supported by a supporting column 44 coupled to an upper end of the auxiliary column 43 of the solar battery plate 50, A rotary block 70 having a rotary drum 59 having a fixed flange 39 at its lower end and a rotor blade 68 inclined to be provided on an outer surface of the rotary drum 59; And a wind power generator 66 provided with a curved wind induction wall 72 between the induction wall 62. The induction wall 62 is fixed to the auxiliary column 43 so as to surround the induction wall 62, In the new generation power generation apparatus,

A discharge pipe 53 and an inflow pipe 54 connected to the upper and lower sides of the carbur 51 where the heating space 57 is provided in the solar power generation plate 50 and a pressurizing pump 63 for spraying the high-pressure air supplied to the water 35 of the evaporation section 69 wrapping the high-pressure air with the jacket 64,

The jetting pipe 49 is provided with a jet nozzle 79 having a fine jet port 76 formed on the upper sea surface 35 and a filtering unit 56 formed above the evaporating unit 69, And a filtering device 67 for supplying the heated air in the heating space 57 connected to the upper inflow pipe 54 of the photovoltaic device 56.
A filtration unit 58 inclined at a lower side c of the filtering unit 56 and a reservoir 55 connected to the transfer path 61 to store the condensed water filtered at the filtration unit 58, ,

  A discharge pipe 53a of the second filtration device 67a for providing the second filtration device 67a to one side of the filtration device 67 and connecting the same to the discharge pipe 53 of the filtration device 67, The connection pipe 45 is connected to the filtering unit 56a of the second filtration unit 67a in the evaporation section 69 of the filtration unit 67,

A second induction wall type second induction wall body 62a which is fixed to the auxiliary column 43 so as to protrude to the lower side of the wind power generator 66 and a second induction wall body 62a which is fixed to the inner support columns 44 A second rotary drum 59a having a reduced diameter and being expanded inwardly of the second rotary block 70a; and a second rotary drum 59a coupled to the second rotary drum 59a, The inclined sheet provided on the outer surface of the second rotating block 70a is coupled to the second rotating block 70a having the second rotating blade 68a,

  And a second wind guide wall 72a curved inwardly from the second induction wall body 62a so as to reinforce the rotational force of the second rotation block 70a, The present invention provides a second wind power generator 66a formed of a rotation linkage 42 having a holding chuck 38 provided on a rotating body 40 assembled to a supporting column 44 between two rotating blocks 70a .

  A third inductive trunk type third induction wall body 62b fixed to the auxiliary column 43 protruding to the lower side of the second wind power generator 66a and a third induction wall body 62b fixed to the inner side of the third induction wall body 62b A third rotary drum 59b having a reduced diameter coupled to a space enlarged to the inside of the third induction wall body 62b in the third rotary drum 59b coupled to the column 44, The wind force guided to the inside of the wall 62b reinforces the rotational force of the third rotary drum 59b while the wind force is applied to the inner wall of the rotary drum 59b, And a third wind power generator 66b formed of a second rotating link 42a having a second holding chuck 38a on the second rotating body 40a.

The present invention is to provide a new and renewable power generation plant in a coastal area, and also to reinforce the generation power practically by the durability and cooling of the solar photovoltaic panel by filtration against the sea breeze.

As a structural reinforcement of the rotational force against the wind,

This is an invention that greatly enhances practicality and economical efficiency compared with conventional wind power of fixed type at sea or solar power generation complex.

FIG. 1 is a view showing the state of use
2 is a partial perspective view of a main part of the present invention;
Figure 3 is a cross-sectional view of one embodiment of the use state in Figure 2;
Figure 4 is a partially cutaway perspective view of the condition of use for the recess in Figure 2;
Figure 5 is a partially cut-away view of the recess in Figure 4
6 is a side sectional view of another embodiment of the recess of the present invention
FIG. 7 is a partially enlarged use state diagram for a recess in FIG. 6
Fig. 8 is a partially enlarged use state diagram for the recess in Fig. 6
9 is a sectional view taken along line AA in Fig. 7
10 is a sectional view taken along the line BB in Fig. 7
Figure 11 is a cross-sectional view of one embodiment of the recess in Figure 7;

The present invention relates to a new and renewable power generation plant for coastal area, and more particularly, to a new and renewable power generation plant that provides income increase by performing renewable power generation in a coastal area adjacent to sea level.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a partial perspective view of a main part of the present invention, FIG. 3 is a cross-sectional view of an embodiment of the used state in FIG. 2, and FIG. 4 is a cross- FIG. 5 is a partially cutaway perspective view of the recess in FIG. 4; FIG.

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6 is a side sectional view of another embodiment of the recess of the present invention, Fig. 7 is a partial enlarged usage view of the recess in Fig. 6, and Fig. 8 is another partial enlarged usage view of the recess in Fig. FIG. 9 is a cross-sectional view taken along line AA in FIG. 7, FIG. 10 is a cross-sectional view taken along line BB in FIG. 7, and FIG.

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 Because the installation of photovoltaic power generation and wind power generation equipment is mostly required for a large area and space, the cost of land and inland water is high due to the development of the industrial society, which leads to a deterioration of economic efficiency to construct a new and renewable power generation facility.

It is installed on the coastal area of the blast or adjacent to the sea and the coast, and provides economic development by utilizing the convection phenomenon due to the difference in temperature between sea and land.

In addition, vulnerability to sea breeze or salt would require more expense and effort to become a practical idea of exposure. The present invention provides an apparatus for solving the above problems, and more particularly,

  A frame 46 connected in a rectangular shape at an intermediate portion of a plurality of support columns 44 protruding from a service vessel 52 or a coastal area anchored on a large area sea surface 35; And a photovoltaic power generation plate 50 which is assembled to an end of a support rod 47 assembled by the rotation means 41 is used as a renewable power generation apparatus .

As described above, in particular, a power plant for a photovoltaic panel is exposed to the sea breeze or vulnerable to brine, and provides a solution to the problem. The photovoltaic panel 50 In order to provide air that is slowly cooled while isolating fine dust or salt, etc.,

 A discharge pipe 53 and an inflow pipe 54 connected to the upper and lower sides of the cover 51 provided with the heating space 57 in the solar power generation plate 50 and a pressurizing pump 63 to the jetting device 72 provided with the jet tube 49 so as to jet the jet of the high-pressure air to the underwater 35 through the jacket 64.

  The jet nozzle 79 provided with the fine jet port 76 provided in the direction of the sea surface 35 at the upper end of the jet pipe 49 discharges the fine dust contained in the air while the heated pressurized air is jetted to the evaporation section, Or dilute the salt.

 A filtering unit 56 formed on the upper side of the evaporation section 69 and a filtration device 67 for supplying filtered air to the heating space 57 by an inflow pipe 54 connected to the upper side of the filtering unit 56 ) Of the photovoltaic device according to the present invention.

The filtration device 67 is connected to the solar power generation complex 60 and a filtration device 67 installed on the sea surface 35 by a buoyancy device not shown in the figure, To supply the filtered air to the inflow pipe (54) of the solar power generation plate (50).

 The filtering unit 56 is preferably made of a flexible material such as a foam or a fibrous material having a small number of minute through-holes formed therein. Further, the filtering unit 56 is filled with water vapor moving to the pressure pump 63 And the water is condensed to form water. The water stored in the water is sequentially stored in the plurality of photovoltaic panels 50, as in the structure of the present invention, Description of the apparatus for providing the filtered air with slowly cooled air to meet the supply amount will be described with reference to the accompanying drawings,

    A filtration unit 58 having an inclined bottom surface c of the filtering unit 56 and a water reservoir 55 connected to the conveying path 61 so as to store the condensed water filtered by the filtration unit 58,

A second filtration device 67a for providing the filtration device 67 to one side of the filtration device 67 and a discharge pipe 53a for the second filtration device 67a for connecting the filtration device 67 to the discharge pipe 53, And the connection pipe 45 is connected to the filtering unit 56a of the second filtration unit 67a in the evaporation section 48 of the filtration unit 67. [

The description of the wind power generating apparatus that is generated by the wind power blowing from the air includes a support column 44 and an auxiliary column 43 passing through a frame 46 which is fixedly coupled to each other while projecting to a coastal area, And a supporting rod 47 protruding from the rotary member 41. The solar battery module 50 is mounted on the rear surface of the solar battery module 50, A discharge pipe 53 provided to slowly cool the power generation plate heated by solar heat applied to the solar power generation plate 50 by the filtered breeze and a pressure pump 63 ) Is submerged in the sea surface 35. This is a crushing process for the sea breeze by underwater spraying, which provides water vapor to be contained in the underwater spraying process.

 A jetting device 72 having a jet tube 49 for jetting water from the sea surface 35 is provided in an evaporation section 69 formed by a jacket 64 for enclosing the jetted high pressure air at a predetermined size I will.

A detailed description of the jetting device 72 will be given below with reference to an evaporation section 69 having an upper side of an inner space enclosing the jetting device 72 with the jacket 64 formed at the same position (height) as the sea level 33 A filtering section 56 formed with a predetermined space above the evaporation section 69 and an inlet pipe 54 connected to the lower end of the cover 51 on the upper side of the filtering section 56. [ So that the filtered air is pressurized by the air.

  The air containing water vapor in the process of being inflowed from the lower side of the filtering unit 56 is discharged to the outside through the lower side c of the filtering unit 56 as the filtration unit 58, And a water reservoir 55 connected to the conveying path 61. The water reservoir 55 is connected to the conveying path 61,

  Temperature air heated in the heating space 57 of the cover 51 covering the photovoltaic power generation plate 50 passes through the seawater in the process of spraying the high- And the slowly evaporated air is supplied to the photovoltaic power generation facility (not shown) which is circulated to the heating space 57 of the cover 51, together with the water provided by the steam condensed in the filtration process of the filtration device 67 60).

The section from the coastal area where the photovoltaic power generation complex 60 is installed to the sea surface 33 to which the filtration unit 67 is connected is connected to the discharge pipe 53 connected to the upper and lower sides of the cover 51, And an inlet pipe 54 as an extension.

The solar cell module according to the present invention comprises a solar cell module including a solar cell module and a solar cell module, (67a, 67a, 67a, 67a, 67a, 67a, 67a, 67a, 67a, 67a, 67a, 67a, ) Are installed on the sea surface. The details of the respective filtration devices (67) and (67a)

A second filtration device 67a connected to one side of the filtration device 67 provided on the sea surface 35 and a discharge pipe 53 for connecting the filtration device 67 and the second filtration device 67a, And the connection pipe 45 is connected to the filtering section 56a of the second filtration device 67a at an evaporation section 48 of the filtration device 67, The filtration device 67 and the second filtration device 67a are circulated to the heating space 57 of the cover 51 provided in the plurality of solar power generation plates 50 .

   In addition, in the above description, the wind power generator is reinforced on the solar power generator complex 60 by providing power to the wind power blowing in the air, as shown in FIGS. 7 to 11, 44 to the solar cell complex 60 installed in the upper section of the frame 46 which is coupled to fix the auxiliary column 43.

 A detailed description of the wind power generator 66 installed on the lower side of the frame 46 in the support column 44 and the auxiliary column 43 will be given below. It is an invention to provide power generation by inserting and rotating the wind power blowing in the air by induction.

  A rotary drum 59 coupled to the support pillars 44 by a rotary bearing 59 and a fixed flange 39 and a fixed flange 39 fixed to upper and lower ends of the rotary drum 59, A rotating block 70 having a flange 39 and a rotating block 70 having a rotating blade 68 on the outer surface of the rotating block 70; Induces the wind force to the induction wall body 62 fixed to the auxiliary column 45 so that the spacing distance 74 is formed.

  The induction wall body 62 fixed by the auxiliary column 43 and the induction wall body 62 so as to surround the rotary drum 59 while forming a rotation spacing 74 to the outside of the rotary drum 59 And a wind power generator 66 having a curved wind induction wall 72 to provide a rotating block 70 for reinforcing the rotational force.

 The structure for reinforcing the rotational force of the rotary block 70 in the wind power generator 66 which is the essential part of the present invention is a structure for reinforcing the rotational force of the rotary block 70, It is a structure that is provided with reduced (less) diameter, and is provided with rotational force reinforcement as compared with the induced wind force.

A second rotating block 70a which reduces the outer diameter of the rotating block 70 coupled to rotate about the supporting column 44 in the structure of the wind power generator 66, A second induction wall body 62a which is fixed to the auxiliary column 43 outside the induction wall body 70a and an inner diameter of the curved wind induction wall 72a between the induction wall body 62a and the inner wall of the rotation block 70 And a second guiding wall body 62a provided to increase the inside diameter in accordance with the reduced section of the guiding wall 62a.

 Here, the second rotating block 70a having the inclined second rotor blade 68a formed therein is provided on the outer surface of the second rotary drum 59 so as to be guided inward from the second induction wall body 62a With the curved second wind guide wall 72a, the wind force reinforces the rotational force of the second rotating block 70a.

  A spacing 74 for rotation of the second rotating block 70a is provided between the rotating block 70 and the guide wall 62.

  The second induction wall body 62a fixed to the auxiliary column 43 protruding to the lower side of the wind power generator 66 and the second induction wall body 62a fixed to the inner support wall 62a of the second induction wall body 62a The structure of the second rotary drum 59a in which the induction wall body 62 is expanded inwardly and the diameter thereof is reduced in the second rotary block 70a coupled to the second induction wall body 62a Of the second rotating block 70a reinforce the rotational force of the second rotating block 70a.

In order to accelerate the rotational force of the rotating block 70 to a higher level due to the reinforcement of the wind force between the rotating block 70 and the second rotating block 70a whose diameter is reduced, A rotating body 40 assembled to a supporting column 44 between the first rotating drum 59 and the second rotating drum 59a and a rotating body 40 coupled with the rotating chuck 38 and the rotating link 42 2 wind turbine generator 66a.

That is, the present invention is directed to induce a wind force blowing in the air and further accelerate in the rotational driving state of the rotating rotating block 70.

Further, the rotational force of the second rotating block 70a, which is faster than the rotational speed of the rotating block 70, imparts a structure of spring stress so as to rotate in a state in which the overrunning due to the structure of the holding chuck 38 is overcome.

  The structure for reinforcing the rotational force of the second rotating block 70a in the second wind power generator 66a described above is a structure in which the rotational force of the second rotating block 70a is increased compared to the diameter of the second wind force inducing wall 72a The second rotating block 70a is provided with a reduced diameter (smaller diameter), thereby providing practical utility with a power added by the reinforcement of the rotational force as compared with the induced wind power.

In the structure of the second wind power generator 66a described above,

A third rotating block 70b that reduces the outer diameter of the second rotating block 70a coupled to rotate about the support column 44 and a third column 70b that extends outside the third rotating block 70b, And the inner diameter of the curved second wind guide wall 72b between the third guide wall 62b and the inner diameter of the curved second wind guide wall 72b of the second rotating block 70a And a third induction wall body 62b for increasing the inner diameter in accordance with the interval.

A second spacing 74a for rotation of the second rotating block 70b is provided between the second rotating block 70a and the second guiding wall 62a.

  A third inductive trunk type third induction wall body 62b fixed to the auxiliary column 43 protruding to the lower side of the second wind power generator 66a and a third induction wall body 62b fixed to the inner side of the third induction wall body 62b The second induction wall body 62a is enlarged inwardly and a third rotary drum 59b having a reduced diameter is provided in the third rotary block 70b coupled to the column 44, The induced wind force of the first rotating block 62a reinforces the rotational force of the third rotating block 70c.

Here, in order to further accelerate the rotating force of the second rotating block 70a and the third rotating block 70b whose diameter is reduced by the reinforcement of the wind force to the rotating state of the rotating second rotating block 70a A rotating body 40 assembled to a support column 44 between the rotary drum 59 and the second rotary drum 59b and a rotation chuck 38 and a rotary linkage 42 mounted on the rotary body 40, And a third wind power generator 66b coupled to the third wind power generator 66b.

That is, the present invention provides that the wind force blown from the air is additionally accelerated in the rotational driving state of the rotating block 70 that rotates by induction.

Also, the rotational force of the second rotating block 70a, which is faster than the rotational speed of the rotating block 70, imparts a structure of spring stress to rotate in a state of overstructure of the holding chuck 38.

  Here, the number of stacked layers of the wind power generation complex 66 may be further increased according to the size and condition of the site of use, and the filtration built on the sea surface 35 in accordance with the installed number and size of the solar power generation plate 50 The installation size of the device 67 is determined and used.

 Although the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but variations and modifications may be made without departing from the scope of the present invention.

35: sea level 38: hanging chuck 40: rotating body
41: rotating means 42: rotating link 43: auxiliary pole
44: support post 45: connector 46: frame
47: support rod 48: evaporation section 49: jet tube 50: solar power generating plate
51: Carver 52: Service vessel 53: Exhaust pipe 54: Inflow pipe
55: low water bottle 56: filtering section 57: heating space 58: filter section
59: rotary drum 60: solar power generator complex 61: conveying path
62: rotation induction wall 66: wind power generator 63: pressurizing pump 64: jacket
66: Vertical drum 67: Filtration device 68: Rotor blade 69: Evaporation section
70: Rotation block 72: Injection device

Claims (4)

A frame 46 which is connected in a rectangular shape at an intermediate portion of a plurality of supporting columns 44 protruding from a service vessel 52 or a coastal zone anchored on the sea surface 35; A solar power generation plate 50 assembled to an end of a support rod 47 assembled by the rotation means 41,
A rotating drum 59 coupled to the support column 44 to be rotatably supported by a supporting column 44 coupled to an upper end of the auxiliary column 43 of the solar battery plate 50, A rotating block 59 having a fixed flange 39 at a lower end thereof and a rotating block 70 having a slanting blade 68 formed on an outer surface of the rotating drum 59, And a wind power generator 66 provided with a curved wind induction wall 72 between the induction wall 62. The induction wall 62 is fixed to the auxiliary column 43 so as to surround the induction wall 62, In the new generation power generation apparatus,
A discharge pipe 53 and an inflow pipe 54 connected to the upper and lower sides of the carbur 51 where the heating space 57 is provided in the solar power generation plate 50 and a pressurizing pump 63 for spraying the high-pressure air supplied to the water 35 of the evaporation section 69 wrapping the high-pressure air with the jacket 64,
The jetting pipe 49 is provided with a jet nozzle 79 having a fine jet port 76 formed on the upper sea surface 35 and a filtering unit 56 formed above the evaporating unit 69, (60) provided with a filtering device (67) for supplying heated air in a heating space (57) connected by an inflow pipe (54) Generator. The method according to claim 1,
A filtration unit 58 inclined at a lower side c of the filtering unit 56 and a reservoir 55 connected to the transfer path 61 to store the condensed water filtered at the filtration unit 58,
A discharge pipe 53a of the second filtration device 67a for providing the second filtration device 67a to one side of the filtration device 67 and connecting the same to the discharge pipe 53 of the filtration device 67, The connection pipe 45 is connected to the filtering unit 56a of the second filtration unit 67a in the evaporation section 69 of the filtration unit 67,
A second induction wall type second induction wall body 62a which is fixed to the auxiliary column 43 so as to protrude to the lower side of the wind power generator 66 and a second induction wall body 62a which is fixed to the inner support columns 44 A second rotary drum 59a having a reduced diameter and being expanded inwardly of the second rotary block 70a; and a second rotary drum 59a coupled to the second rotary drum 59a, The inclined sheet provided on the outer surface of the second rotating block 70a is coupled to the second rotating block 70a having the second rotating blade 68a,
And a second wind guide wall 72a curved inwardly from the second induction wall body 62a so as to reinforce the rotational force of the second rotation block 70a, A second wind power generator 66a provided with a rotation link 42 having a holding chuck 38 provided on a rotating body 40 assembled to a supporting column 44 between the first rotating block 70a and the second rotating block 70a, Renewable power generation equipment. delete 3. The method of claim 2,
A third inductive trunk type third induction wall body 62b fixed to the auxiliary column 43 protruding to the lower side of the second wind power generator 66a, And a third rotary drum (59b) having a reduced diameter coupled to a space enlarged to the inside of the third induction wall body (62b) in a third rotary drum (59b) coupled to the third induction wall body (44) The first rotary drum 59a and the second rotary drum 59b are fixed to each other so that the rotational force of the third rotary drum 59b is strengthened by the wind force guided to the inside of the rotary drum 59b, And a third wind power generator (66b) formed by a second rotation connecting rod (42a) provided with a second holding chuck (38a) on the two rotors (40a).

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