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A platform for research: civil engineering, architecture and urbanism
Installation and construction process of offshore wind power booster station
The invention relates to the technical field of offshore wind power booster stations, in particular to an installation and construction process of an offshore wind power booster station, which can bring many beneficial effects in installation and construction of the offshore wind power booster station by optimizing a base structure of the wind power booster station. The optimization not only improves the performance of the structure, but also improves the construction efficiency and the reliability of long-term operation. The base has the main beneficial effects that the bearing capacity of the base can be obviously improved by optimizing the base structure, and the weight and dynamic load of the wind turbine generator and the booster station can be ensured to be borne. This reduces safety problems caused by structural instability, such as settling or tilting. The impact of wind power and sea waves in the marine environment can be better resisted, and the stability and disaster resistance of the whole structure are improved.
本发明涉及海上风电升压站技术领域,具体涉及一种海上风电升压站的安装施工工艺,本发明通过优化风电升压站的基座结构,可以在海上风电升压站的安装施工中带来诸多有益效果。这些优化不仅提升了结构的性能,还改善了施工效率和长期运行的可靠性。以下是主要的有益效果:优化基座结构可以显著提高其承载能力,确保能够承受风电机组和升压站的重量及动态载荷。这减少了因结构不稳定引发的安全问题,如沉降或倾斜。能够更好地抵御海洋环境中的风力和海浪的冲击,提高了整体结构的稳定性和抗灾能力。
Installation and construction process of offshore wind power booster station
The invention relates to the technical field of offshore wind power booster stations, in particular to an installation and construction process of an offshore wind power booster station, which can bring many beneficial effects in installation and construction of the offshore wind power booster station by optimizing a base structure of the wind power booster station. The optimization not only improves the performance of the structure, but also improves the construction efficiency and the reliability of long-term operation. The base has the main beneficial effects that the bearing capacity of the base can be obviously improved by optimizing the base structure, and the weight and dynamic load of the wind turbine generator and the booster station can be ensured to be borne. This reduces safety problems caused by structural instability, such as settling or tilting. The impact of wind power and sea waves in the marine environment can be better resisted, and the stability and disaster resistance of the whole structure are improved.
本发明涉及海上风电升压站技术领域,具体涉及一种海上风电升压站的安装施工工艺,本发明通过优化风电升压站的基座结构,可以在海上风电升压站的安装施工中带来诸多有益效果。这些优化不仅提升了结构的性能,还改善了施工效率和长期运行的可靠性。以下是主要的有益效果:优化基座结构可以显著提高其承载能力,确保能够承受风电机组和升压站的重量及动态载荷。这减少了因结构不稳定引发的安全问题,如沉降或倾斜。能够更好地抵御海洋环境中的风力和海浪的冲击,提高了整体结构的稳定性和抗灾能力。
Installation and construction process of offshore wind power booster station
一种海上风电升压站的安装施工工艺
QIU WENYONG (author) / MENG CHENGJUN (author) / MENG XUN (author) / DAI JIAJIE (author) / GU ZEZHENG (author)
2024-10-15
Patent
Electronic Resource
Chinese
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