CN210005045U - Hydrological meteorological condition monitoring system for offshore wind farm in open sea - Google Patents

Abstract

The utility model provides an hydrometeorology condition monitoring system for open sea offshore wind farm, including meteorological measurement module, sea water measuring module, communication module and power module, meteorological measurement module and sea water measuring module all connect communication module, meteorological measurement module and sea water measuring module are with data transfer to communication module, communication module passes through satellite transmission data, meteorological measurement module sets up above the sea level, and be used for monitoring weather, sea water measuring module sets up below the sea level, power module is used for providing the electric energy to meteorological measurement module, sea water measuring module and communication module, laser radar anemoscope, acoustics Doppler current meter are used for real time monitoring sea area hydrometeorology condition, carry out the short-term stormy wave distribution of open sea wind farm sea area and surrounding sea area and monitor, provide accurate data for marine production plan.

Description

Hydrological meteorological condition monitoring system for offshore wind farm in open sea

Technical Field

The utility model relates to a field is maintained in the construction of open sea offshore wind farm, concretely relates to hydrological meteorological condition monitoring system for open sea offshore wind farm.

Background

With the continuous development of domestic offshore wind power from offshore to open sea, more and more offshore wind power plant transportation, installation, debugging and operation maintenance operations are certainly brought. The transportation, installation, debugging and operation maintenance operations of offshore wind farms are influenced by various condition factors such as meteorological hydrology, and the operation ships need to deal with the change of offshore complex meteorological hydrology conditions from the driving to the point location operation of the fan. On the premise of ensuring the safety of operating personnel and equipment, how to improve the operating efficiency brings challenges to the current offshore wind power operation in open sea.

The current marine meteorological condition monitoring system of offshore wind farm mostly adopts anemometer tower and acoustic Doppler current meter installed on fixed pylon to carry out the measurement of marine meteorological condition, when the application is in open sea area, there are the defects of installation, maintenance cost is too high, it is inconvenient to put in, in addition, current sea situation information system based on storm real-time monitoring system, only can be used for urgent danger avoidance and short-time early warning, can not guarantee the emergency response time of personnel and equipment when the open sea wind farm is operated, influence the operation progress, cause economic loss, therefore through the real-time monitoring and prediction system of establishing the marine meteorological condition of hydrological, can master the high-precision wind farm marine meteorological hydrological meteorological information in section of time in the future, satisfy the transportation, installation, debugging and operation maintenance work requirement of open sea offshore wind farm, optimize the configuration of construction resources, reduce and cause the loss because of construction restriction is obstructed.

At present, the arrangement of offshore wind farm operation in open sea mostly depends on experience judgment of constructors, and guidance is conducted according to real-time meteorological hydrological indexes or by adopting a mesoscale weather forecast result.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide kinds of hydrometeorology condition monitoring system for open sea offshore wind farm, provide more accurate meteorological data for transportation, installation, debugging and the intelligent management that the equipment disaster prevention evacuated of realizing open sea offshore wind farm during ship's dispatch, construction progress control and operation maintenance.

In order to achieve the above purpose, the utility model discloses the technical scheme who takes is: the hydrological meteorological condition monitoring system for the open sea offshore wind farm comprises a meteorological measuring module, a seawater measuring module, a communication module and a power supply module; the meteorological measurement module and the seawater measurement module are both connected with the communication module, the meteorological measurement module and the seawater measurement module transmit data to the communication module, and the communication module transmits the data through a satellite; the meteorological measurement module is arranged above sea level and used for monitoring meteorological phenomena, and the seawater measurement module is arranged below the sea level; the power supply module is used for supplying electric energy to the meteorological measuring module, the seawater measuring module and the communication module.

The meteorological measurement module is arranged on the upper surface of the buoy, and three anchor chains are arranged at the bottom of the buoy.

anchor chains are adopted to install the seawater measuring module.

The communication module adopts a Beidou short message communication module.

The meteorological measurement module adopts a laser radar anemometer, and the seawater measurement module adopts an acoustic Doppler current meter.

The power supply module comprises a solar cell panel, a wind driven generator and a storage battery, the solar cell panel and the wind driven generator are both connected with the storage battery, and an inverter is arranged between the wind driven generator and the storage battery.

The power supply module is arranged on the ocean platform.

Compared with the prior art technical scheme has following beneficial effect at least: the utility model discloses a hydrometeorology condition monitoring system of far-sea offshore wind-powered electricity generation field is not restricted by seabed geological conditions, buoy type laser radar anemoscope and anchor system formula acoustics Doppler current meter facilitate transportation, put in, can carry out the omnidirectional control to the wind energy resource of far-sea seawater wind-powered electricity generation field, hydrometeorology condition and provide the stormy waves and the ocean current data of near wind-powered electricity generation field sea area in real time to the wind power field constructor, for obtaining accurate wind field gaseous phase condition and provide powerful data support, make management and constructor can optimize the configuration of construction resources, reduce and lead to the fact the loss because of construction restriction is obstructed; the method has great guiding significance for the transportation, installation, debugging and operation and maintenance scheduling of the offshore wind farm in the open sea.

Drawings

Fig. 1 is a schematic view of the monitoring system of the present invention;

the system comprises a laser radar anemoscope 1, a buoy 2, a cable 3, an anchor chain 4 and an acoustic Doppler current meter 5.

Detailed Description

The present invention will be described in further detail in with reference to the following drawings and detailed description.

Referring to fig. 1, the hydrometeorological condition monitoring system for the open sea offshore wind farm includes a meteorological measuring module, a seawater measuring module, a communication module and a power supply module; the meteorological measurement module and the seawater measurement module are both connected with the communication module through a cable 3, the meteorological measurement module and the seawater measurement module transmit data to the communication module, and the communication module transmits the data through a satellite; the meteorological measurement module is arranged above sea level and used for monitoring meteorological phenomena, and the seawater measurement module is arranged below the sea level; the power supply module is used for supplying electric energy to the meteorological measuring module, the seawater measuring module and the communication module; still include buoy 2, buoy 2's upper surface is above the sea level, and meteorological measurement module installs the upper surface at buoy 2, and buoy 2's bottom is provided with three anchor chains 4, adopts three anchor chains to install the buoy, and the buoy is more stable, is difficult for moving along with the flow of sea water.

anchor chains 4 are adopted to install a seawater measuring module;

the power supply module comprises a solar cell panel, a wind driven generator and a storage battery, wherein both the solar cell panel and the wind driven generator are connected with the storage battery, and an inverter is arranged between the wind driven generator and the storage battery; the power supply module is arranged on the ocean platform.

The meteorological measurement module adopts a laser radar anemoscope 1, and the seawater measurement module adopts an acoustic Doppler current meter 5; the communication module adopts a Beidou short message communication module.

As optional embodiments of the utility model, model whs600ADCP of acoustic Doppler current meter 5 and ZephiIR 300M or Windcube V2 are adopted by laser radar anemoscope 1.

It should be understood by those skilled in the art that the present invention can be embodied in various forms without departing from the spirit and scope of the present invention as defined by the appended claims, even though the detailed description of the invention in is not limited to these descriptions.

Claims (7)

1. The hydrological meteorological condition monitoring system for the open sea offshore wind farm is characterized by comprising a meteorological measuring module, a seawater measuring module, a communication module and a power supply module; the meteorological measurement module and the seawater measurement module are both connected with the communication module, the meteorological measurement module and the seawater measurement module transmit data to the communication module, and the communication module transmits the data through a satellite; the meteorological measurement module is arranged above sea level and used for monitoring meteorological phenomena, and the seawater measurement module is arranged below the sea level; the power supply module is used for supplying electric energy to the meteorological measuring module, the seawater measuring module and the communication module.

2. The hydrometeorology condition monitoring system for open sea offshore wind farms according to claim 1, characterized by further comprising a buoy (2), wherein the meteorological measuring module is mounted on the upper surface of the buoy (2), and the bottom of the buoy (2) is provided with three anchor chains (4).

3. The hydrometeorological condition monitoring system for offshore wind farms at open sea according to claim 1, characterized in that anchor chains (4) are used for installation of the seawater measuring module.

4. The hydrometeorology condition monitoring system for open sea offshore wind farms according to claim 1, wherein the communication module is a big dipper short message communication module.

5. Hydrometeorological condition monitoring system for open sea offshore wind farms, according to claim 1, characterized in that the meteorological measurement module employs lidar anemometer (1) and the seawater measurement module employs acoustic doppler current meter (5).

6. The hydrometeorological condition monitoring system for an offshore wind farm at open sea according to claim 1, wherein the power supply module comprises a solar panel, a wind driven generator and a storage battery, the solar panel and the wind driven generator are both connected with the storage battery, and an inverter is arranged between the wind driven generator and the storage battery.

7. The hydrometeorology condition monitoring system for open sea offshore wind farms according to claim 1, wherein the power module is provided on an ocean platform.