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Architecture method of wind-wave-proof bernoulli type water-light complementary power generation system

A power generation system, water-light complementary technology, applied in hydroelectric power generation, ocean energy power generation, collectors, etc., can solve problems affecting power generation efficiency and stability, prone to rollover, low power generation efficiency, etc., to achieve effective use of water energy resource, prevent violent swing, low cost effect

Inactive Publication Date: 2020-12-29
YANCHENG TEACHERS UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Hydroelectric generators on the market are expensive, and the power generation efficiency is low when the water speed is slow, and it is easy to roll over when the water flow is turbulent or there are strong winds and waves, which seriously affects the power generation efficiency and stability

Method used

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  • Architecture method of wind-wave-proof bernoulli type water-light complementary power generation system
  • Architecture method of wind-wave-proof bernoulli type water-light complementary power generation system
  • Architecture method of wind-wave-proof bernoulli type water-light complementary power generation system

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0030] Reference manual attached figure 1 , attached figure 2 When the hydroelectric generator set 4 generates power, the water flow first passes through the screen 11 to filter out some impurities in the water, and then passes through the front section of the speed-increasing pipeline 12. There is a relatively rapid pressure and speed change process. After the water flow speeds up, it flows through the water Use the paddle 9 and make it rotate, drive the hydroelectric generator 10 to generate electricity, charge in the battery pack 5 through the insulated waterproof wire 6. After the water flow passes through the hydroelectric generator 10, it enters the rear decompression pipeline 13. The decompression pipeline is longer than the speed increase pipeline, which fully releases the pressure difference between the front and rear pipelines and slows down the turbulent flow caused by the change of water pressure and water speed.

Embodiment 2

[0032] Hydrophilic material Cu(OH) 2 The preparation method of the nanowire specifically includes the following steps: preparing the sodium hydroxide solution with a concentration of 4.5-5.5 mol / L, and the ammonium persulfate solution with a concentration of 0.0125-0.0175 mol / L. Mix 100mL sodium hydroxide solution with 50mL ammonium persulfate solution, and stir with a glass rod to obtain a mixed solution. Immerse the copper sheet in the mixed solution for 30 minutes and take it out, wash it with deionized water, and dry it to obtain the hydrophilic material Cu (OH) 2 Nanowires, anchoring copper flakes to arrays of hydrophilic interfaces.

[0033] In the case of relatively turbulent water flow, the hydrophilic interface array 3 utilizes the surface tension of water to ensure that the suspension 1 does not turn over and is firmly adsorbed on the water surface.

Embodiment 3

[0035] In the case of better lighting conditions, the solar cell assembly 2 absorbs sunlight and charges the battery pack 5 through the insulated waterproof wire 6 .

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Abstract

The invention provides an architecture method of a wind-wave-proof bernoulli type water-light complementary power generation system. The power generation system mainly involves a suspension body, a solar cell module, a hydrophilic interface array, a hydroelectric generating set and a storage battery pack; the hydroelectric generating set comprises a bernoulli flow channel, water flow accelerationis conducted according to the bernoulli principle in fluid mechanics, and therefore the hydroelectric generating efficiency is improved; and the system is characterized in that a concentric-square-shaped parallel hydrophilic interface array composed of a super-hydrophilic material copper hydroxide and the like is utilized, the surface tension of water is utilized to enable a power generation device to be stably adsorbed on the water surface, and the power generation device can still keep a normal floating posture under the conditions that the water surface shakes and strong wind blows. The power generation system is simple in overall structure, low in cost, good in stability, easy to popularize and capable of meeting various power generation requirements so as to meet power utilization requirements of different kinds of occasions.

Description

technical field [0001] The invention relates to the field of new energy, in particular to a construction method of a wind and wave Bernoulli type water-solar complementary power generation system. Background technique [0002] No matter from the perspective of the world or China, conventional energy is very limited. China's primary energy reserves are far below the world's average level, only about 10% of the world's total reserves. Solar energy is an inexhaustible renewable energy for human beings. It has sufficient cleanliness, absolute safety, relative extensiveness, long life and maintenance-free, resource adequacy and potential economy. It has an important position in the long-term energy strategy. However, the energy obtained by solar power generation is related to weather conditions such as four seasons, day and night, cloudy and sunny, and cannot operate normally at night. In addition, solar power generation depends on sunlight, and the energy distribution density...

Claims

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Application Information

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IPC IPC(8): F03B13/20F03B11/02F03B11/00H02J7/35
CPCF03B11/00F03B11/02F03B13/20H02J7/35Y02E10/20Y02E10/30Y02A30/14
Inventor 黄一麒苗中正陆建华
Owner YANCHENG TEACHERS UNIV
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