CN101705900B - Novel blade used for ocean current power generation turbine - Google Patents

Novel blade used for ocean current power generation turbine Download PDF

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Publication number
CN101705900B
CN101705900B CN200910154589XA CN200910154589A CN101705900B CN 101705900 B CN101705900 B CN 101705900B CN 200910154589X A CN200910154589X A CN 200910154589XA CN 200910154589 A CN200910154589 A CN 200910154589A CN 101705900 B CN101705900 B CN 101705900B
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blade
turbine
wing root
wingtip
power generation
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CN101705900A (en
Inventor
董志勇
张旭
王立
韩伟
俞小伟
朱芳
颜效凡
李晓鹏
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Zhejiang University of Technology ZJUT
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Zhejiang University of Technology ZJUT
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/20Hydro energy

Abstract

The invention provides a novel blade used for an ocean current power generation turbine. The blade comprises a wing root close to a turbine rotor and a wing tip far away from the rotor; the transverse section of the blade is of an NACA series airfoil type; and the chord length of the blade continuously changes from big to small from the wing root to the wing tip, and the thickness of the blade gradually becomes smaller from the wing root to the wing tip. The blade has the advantages of small deadweight, and high turbine efficiency, and can make the turbine get high rotary speed just by low-flow rate sea water, and avoid the cavitation erosion when the turbine rotates at a high speed.

Description

A kind of novel blade that is used for ocean current power generation turbine
Technical field
The present invention relates to a kind of blade of turbo machine, particularly a kind of blade that is used for ocean current power generation turbine.
Technical background
Energy by ocean current is cleaning, renewable energy sources, adopts the generating of energy by ocean current technology, helps improving energy resource structure, reduces environmental pollution and weather variation issue that fossil energy consumption brings.Energy by ocean current is a kind of energy of the easiest acquisition in the ocean energy, tool flexibility.Ocean current power generation turbine is exactly through the flowing of seawater, and promotes turbo machine and rotates, and the kinetic energy of seawater is transformed into the mechanical energy of turbo machine.Wherein, the efficient of turbo machine, cavitation performance and stability are three important indicators that influence the generator set performance.
Cavitation is the distinctive a kind of physical phenomenon of working fluid, and it is a kind of hydrodynamic phenomenon that produces cavity when being lower than the pressure for vaporization under this temperature because of local compression in the liquid, and the cavitation cavitation in the hydraulic machinery can have serious consequences.Cavitation can cause flowing instability, produces high vibration and noise, reduces its hydraulic performance, makes material surface produce cavitation erosion, reduces working life.In turbine operation, usually extent of cavitation also be not enough to the turbine rotor characteristic produced can survey influence before, cavitation just begins.Because the current in the hydraulic machinery are more complicated, cavitation phenomenon can appear at different at different position and different and under different condition, form cavitation, in the turbine disc runner and on the local surfaces of its flow passage components, tends to take place cavitation and then causes cavitation corrosion.Slight only forms a small amount of erosion point at blade surface, and the metallic material in serious blade cavitation corrosion district is degraded in a large number, causes the surface to become cellular, even the phenomenon that makes the blade perforation or fall the limit is arranged, and the safe operation of unit in serious threat.
The dimensional airfoil section of chord lengths such as existing turbine bucket employing, equal thickness; This two-dimentional blade from great; The energy that seawater promotes blade rotation consumption is big; It is low to cause turbo machine seawater kinetic energy to be converted into the efficient of mechanical energy, and needs the seawater of high flow rate just can make turbo machine obtain high rotating speed, and cavitation and cavitation erosion takes place blade easily.
Summary of the invention
For the blade that overcomes existing technology from great; The efficient that turbo machine seawater kinetic energy is converted into mechanical energy is low; Need the seawater of high flow rate just can make turbo machine obtain high rotating speed, the shortcoming of cavitation and cavitation erosion takes place in blade easily, and it is high that the present invention proposes a kind of blade deadweight efficient little, turbo machine; Cavitation and cavitation erosion does not take place, and only needs low flow velocity seawater can make turbo machine obtain the high-revolving blade that is used for ocean current power generation turbine.
A kind of novel blade that is used for ocean current power generation turbine, described blade comprise that near the wing root of turbine rotor with away from the wingtip of described rotor NACA series aerofoil profile is adopted in the cross section of described blade; It is characterized in that: the chord length of described blade along the wing root of blade to the descending continuous variation of wingtip, the thickness of blade from the wing root of blade to wingtip attenuation gradually.
Further, recessed 1/4 elliptic curve before described vane trailing edge is, the leading edge of described blade is straight.
Further, the length ratio of the wingtip of described blade and wing root is 1: 3.
Design of the present invention is: with blade from wing root to the wingtip chord length shorten gradually, thickness attenuation gradually; Dwindled blade volume, alleviated the blade deadweight; Improved turbo machine and changed seawater kinetic energy the efficient of mechanical energy into, even seawater velocity is lower, turbo machine also can obtain high rotating speed.
Trailing edge along wing root to the direction of wingtip, according to 1/4 elliptic curve convergent; Make the area of passage of blade reduce over half; The area of passage of blade is more little; Wrap up fully in hole when then blade is taken place by supercavitation more easily, because of the position that cavitation and cavitation corrosion take place different, thereby avoid high rotating speed lower blade surface by cavitation corrosion.
The present invention has that blade deadweight is little, the efficient of turbo machine is high, and it is high-revolving only to need low flow velocity seawater that turbo machine is obtained, and avoids turbo machine blade generation cavitation corrosion when high rotating speed.
Description of drawings
Fig. 1 is a schematic perspective view of the present invention
Fig. 2 is a schematic cross section of the present invention
Fig. 3 is a longitudinal section of the present invention schematic representation
Fig. 4 draws the graph of a relation of seawater velocity and turbine speeds for adopting embodiment two
Fig. 5 is the turbine speeds that adopts embodiment two and draw and the graph of a relation of cavitation number
Embodiment
Embodiment one
With reference to Fig. 1-3
A kind of novel blade that is used for ocean current power generation turbine, described blade 1 comprise that near the wing root 11 of turbine rotor with away from the wingtip 12 of described rotor NACA series aerofoil profile is adopted in the cross section of described blade 1; It is characterized in that: the chord length of described blade 1 shortens to wingtip 12 along the wing root 11 of blade gradually, the thickness of blade 1 along wing root to wingtip attenuation gradually.
The leading edge of described blade 1 is straight 13, the trailing edge 14 of described blade 1 elliptic curve of recessed 1/4th before being.
The wingtip 12 of described blade 1 is 1 with the length ratio of wing root 11: 3.
Design of the present invention is: with blade 1 along wing root 11 to wingtip 12 chord lengths 15 shorten gradually, thickness attenuation gradually; Dwindled blade 1 volume, alleviated blade 1 deadweight; Improved the efficient that turbo machine changes seawater kinetic energy into mechanical energy; Even seawater velocity is lower, turbo machine also can obtain high rotating speed.
Blade 1 trailing edge 14 along wing root 11 to the direction of wingtip 12, according to 1/4 elliptic curve convergent; Make the area of passage of blade 1 reduce over half; The area of passage of blade 1 is more little; Wrap up fully in hole when then blade 1 is taken place by supercavitation more easily, because of the position that cavitation and cavitation corrosion take place different, thereby avoid high rotating speed lower blade 1 surface by cavitation corrosion.
Embodiment two
With reference to Fig. 4,5,, present embodiment is described in conjunction with actual conditions:
Below be unit 1 with aerofoil profile chord length c, specific embodiments of the invention is done further to describe.
The NACA4415 aerofoil profile is adopted in the cross section of blade, and maximum camber f is 4% of a chord length, maximum camber position x fFrom leading edge is 40% of chord length, and maximum ga(u)ge d is 15% of a chord length.
It is 1: 3 oval aerofoil profile that blade is employed in the length ratio of wingtip and wing root on the longitudinal section, and wingtip length a is about 0.333, and wing root length b is 1, and leading edge 1 is a vertical line, and trailing edge transition line 2 is 1/4th elliptic curves x 2 0.66 7 2 a + y 2 a = 1 .
Test shows, when adopting the dimensional airfoil section blade of chord length such as existing, equal thickness, turbo machine is 37% with the average transformation efficiency that seawater kinetic energy is converted into mechanical energy.When adopting blade of the present invention, turbo machine can reach the maximum conversion efficient that seawater kinetic energy is converted into mechanical energy at 56%, and average transformation efficiency is 45%.
The described content of this specification embodiment only is enumerating the way of realization of inventive concept; Protection scope of the present invention should not be regarded as and only limit to the concrete form that embodiment states, protection scope of the present invention also reach in those skilled in the art conceive according to the present invention the equivalent technologies means that can expect.

Claims (2)

1. novel blade that is used for ocean current power generation turbine, described blade comprise that NACA series aerofoil profile is adopted in the cross section of described blade near the wing root of turbine rotor with away from the wingtip of described rotor; It is characterized in that: the chord length of described blade along the wing root of blade to the descending continuous variation of wingtip, the thickness of blade along the wing root of blade to wingtip attenuation gradually; Recessed 1/4 elliptic curve before described vane trailing edge is, described blade inlet edge is straight.
2. a kind of novel blade that is used for ocean current power generation turbine as claimed in claim 1, it is characterized in that: the wingtip of described blade and the length ratio of wing root are 1: 3.
CN200910154589XA 2009-11-13 2009-11-13 Novel blade used for ocean current power generation turbine Active CN101705900B (en)

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WO2012059017A1 (en) * 2010-11-01 2012-05-10 上海奇谋能源技术开发有限公司 Method and apparatus for utilizing tidal energy
CN107300456B (en) * 2017-07-06 2019-04-12 中国人民解放军国防科学技术大学 A kind of supercavity experimental rig and test method

Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101300419A (en) * 2005-10-17 2008-11-05 Lm玻璃纤维制品有限公司 Blade for a wind turbine rotor

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101300419A (en) * 2005-10-17 2008-11-05 Lm玻璃纤维制品有限公司 Blade for a wind turbine rotor

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
张雅文等.轴流式水轮机叶片端面缝隙无汽蚀几何形状设计探讨.《节能技术》.1987,(第6期),6-9. *

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