Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Offshore photovoltaic wave dissipation embankment and offshore photovoltaic system
The invention discloses an offshore photovoltaic wave dissipation embankment and an offshore photovoltaic system, and the offshore photovoltaic wave dissipation embankment comprises a spoiler which comprises a spiral coil, and in the spiral coil, a slit for waves to pass through is formed between two adjacent coils; the buoy floats on the sea, and the two ends of the spiral coil are connected to the buoy. When the waves enter the spiral coil, the waves encounter the slits on the spiral coil, and the waves are diffracted in the form of circular ripples, so that the waves are damaged to a certain extent. When flowing out of the spiral coil, the waves encounter the slits of the spiral coil again and are diffracted in the form of circular ripples again, so that the waves are damaged to a certain degree again. In addition, circular ripples formed by two times of diffraction can interfere with each other and cancel each other. The wave dissipation embankment can effectively destroy waves and reduce the impact force of the waves, and meanwhile, the wave dissipation embankment is mainly composed of the spiral coils and the buoys and is simple in structure, low in cost and convenient to install and implement.
本发明公开了一种近海海上光伏消浪堤及一种近海海上光伏系统,包括:扰流器,扰流器包括螺旋线圈,在螺旋线圈中,相邻的两个线圈之间形成供波浪通过的狭缝;浮筒,浮筒浮在海上,螺旋线圈的两端分别连接在所述浮筒上。当波浪要进入到螺旋线圈中时会遇到螺旋线圈上的狭缝,那么波浪会以圆形波纹衍射,从而对波浪形成一定的破坏程度。波浪从螺旋线圈流出时会再次遇到螺旋线圈的狭缝,那么会再次以圆形波纹衍射,从而再次对波浪形成一定的破坏程度。并且,两次衍射形成的圆形波纹会彼此干涉、相消。本发明中的消浪堤能够有效地破坏波浪,降低波浪的冲击力,同时本发明中的消浪堤主要由螺旋线圈和浮筒组成,结构简单,成本低,便于安装实施。
Offshore photovoltaic wave dissipation embankment and offshore photovoltaic system
The invention discloses an offshore photovoltaic wave dissipation embankment and an offshore photovoltaic system, and the offshore photovoltaic wave dissipation embankment comprises a spoiler which comprises a spiral coil, and in the spiral coil, a slit for waves to pass through is formed between two adjacent coils; the buoy floats on the sea, and the two ends of the spiral coil are connected to the buoy. When the waves enter the spiral coil, the waves encounter the slits on the spiral coil, and the waves are diffracted in the form of circular ripples, so that the waves are damaged to a certain extent. When flowing out of the spiral coil, the waves encounter the slits of the spiral coil again and are diffracted in the form of circular ripples again, so that the waves are damaged to a certain degree again. In addition, circular ripples formed by two times of diffraction can interfere with each other and cancel each other. The wave dissipation embankment can effectively destroy waves and reduce the impact force of the waves, and meanwhile, the wave dissipation embankment is mainly composed of the spiral coils and the buoys and is simple in structure, low in cost and convenient to install and implement.
本发明公开了一种近海海上光伏消浪堤及一种近海海上光伏系统,包括:扰流器,扰流器包括螺旋线圈,在螺旋线圈中,相邻的两个线圈之间形成供波浪通过的狭缝;浮筒,浮筒浮在海上,螺旋线圈的两端分别连接在所述浮筒上。当波浪要进入到螺旋线圈中时会遇到螺旋线圈上的狭缝,那么波浪会以圆形波纹衍射,从而对波浪形成一定的破坏程度。波浪从螺旋线圈流出时会再次遇到螺旋线圈的狭缝,那么会再次以圆形波纹衍射,从而再次对波浪形成一定的破坏程度。并且,两次衍射形成的圆形波纹会彼此干涉、相消。本发明中的消浪堤能够有效地破坏波浪,降低波浪的冲击力,同时本发明中的消浪堤主要由螺旋线圈和浮筒组成,结构简单,成本低,便于安装实施。
Offshore photovoltaic wave dissipation embankment and offshore photovoltaic system
一种近海海上光伏消浪堤及一种近海海上光伏系统
CHEN JIANJUN (Autor:in) / LIU XIN (Autor:in) / YAN SHU (Autor:in) / ZHOU YIMING (Autor:in) / LEI YU (Autor:in) / LIU RUICHAO (Autor:in)
10.01.2023
Patent
Elektronische Ressource
Chinesisch
IPC:
E02B
HYDRAULIC ENGINEERING
,
Wasserbau
/
B63B
Schiffe oder sonstige Wasserfahrzeuge
,
SHIPS OR OTHER WATERBORNE VESSELS
/
H02S
GENERATION OF ELECTRIC POWER BY CONVERSION OF INFRA-RED RADIATION, VISIBLE LIGHT OR ULTRAVIOLET LIGHT, E.G. USING PHOTOVOLTAIC [PV] MODULES
,
Erzeugung elektrischer Energie durch Umwandlung von Infrarot-Strahlung, sichtbarem Licht oder ultraviolettem Licht, z.B. unter Verwendung von Photovoltaik [PV]-Modulen
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