turbine foundation

简明释义

涡轮机底座

英英释义

例句

1.The design of the turbine foundation is critical for the overall performance of the wind farm.

涡轮基础的设计对整个风电场的性能至关重要。

2.During the site survey, we discovered that the turbine foundation would require additional reinforcement.

在现场勘查中，我们发现涡轮基础需要额外加固。

3.The construction team is currently working on the turbine foundation to ensure stability during high winds.

施工队目前正在进行涡轮基础的建设，以确保在大风天气下的稳定性。

4.Proper drainage systems are essential for the longevity of the turbine foundation.

适当的排水系统对于涡轮基础的耐久性至关重要。

5.Before installation, engineers must assess the soil quality for the turbine foundation.

在安装之前，工程师必须评估涡轮基础的土壤质量。

作文

The development of renewable energy sources has become increasingly important in today's world, particularly with the growing concerns about climate change and the depletion of fossil fuels. Among the various technologies harnessing renewable energy, wind power stands out as one of the most promising alternatives. Central to the effectiveness of wind energy systems is the construction of a robust and reliable 涡轮机基础. This component plays a critical role in ensuring the stability and efficiency of wind turbines, which convert kinetic energy from wind into electrical energy.A 涡轮机基础 serves as the structural base for wind turbines, anchoring them securely to the ground. The design and engineering of these foundations are crucial because they must withstand not only the weight of the turbine but also the dynamic forces exerted by wind and weather conditions. Various types of foundations can be used depending on the soil conditions, turbine size, and environmental factors. Common types include shallow foundations, deep foundations, and floating foundations, each with its own advantages and challenges.One of the primary considerations in constructing a 涡轮机基础 is the geological assessment of the site. Engineers must analyze soil composition, bearing capacity, and potential seismic activity to determine the most suitable foundation type. For instance, in areas with solid rock, a shallow foundation may be sufficient, while softer, less stable soils may require deep pile foundations to ensure adequate support.Moreover, the environmental impact of constructing a 涡轮机基础 must also be considered. Sustainable practices should be employed to minimize disruption to local ecosystems. This includes careful planning of the construction process to avoid damaging wildlife habitats and using environmentally friendly materials whenever possible.In addition to stability and environmental concerns, the cost-effectiveness of the 涡轮机基础 is a significant factor in the overall economics of wind energy projects. A well-designed foundation can reduce maintenance costs and extend the lifespan of the turbine, ultimately leading to lower operational costs and improved energy output. This economic aspect is vital for attracting investment in renewable energy infrastructure.Furthermore, as technology advances, innovative foundation designs are emerging. For example, some companies are experimenting with hybrid foundations that combine different materials and techniques to enhance performance. These innovations aim to address the challenges posed by extreme weather events, such as hurricanes or heavy snowfall, which can significantly impact the integrity of traditional foundations.In conclusion, the importance of a well-engineered 涡轮机基础 cannot be overstated in the realm of wind energy. It is a fundamental component that ensures the stability, efficiency, and longevity of wind turbines. As the world continues to shift towards renewable energy solutions, investing in advanced foundation technologies will play a pivotal role in maximizing the potential of wind power and contributing to a sustainable future. Understanding the complexities and requirements of 涡轮机基础 is essential for engineers, developers, and policymakers alike, as we strive to build a cleaner and more sustainable energy landscape.

可再生能源的开发在当今世界变得越来越重要，特别是随着人们对气候变化和化石燃料枯竭的日益关注。在各种利用可再生能源的技术中，风能作为最有前景的替代能源之一脱颖而出。风能系统的有效性核心在于坚固可靠的涡轮机基础的建设。这个组成部分在确保风力涡轮机的稳定性和效率方面起着关键作用，风力涡轮机将风的动能转化为电能。涡轮机基础作为风力涡轮机的结构基础，将其牢固地锚定在地面上。这些基础的设计和工程至关重要，因为它们必须承受涡轮机的重量以及风和天气条件施加的动态力量。根据土壤条件、涡轮机大小和环境因素，可以使用多种类型的基础。常见的基础类型包括浅基础、深基础和浮动基础，每种基础都有其自身的优缺点。在建造涡轮机基础时，主要考虑因素之一是对现场的地质评估。工程师必须分析土壤成分、承载能力和潜在的地震活动，以确定最合适的基础类型。例如，在岩石坚硬的地区，浅基础可能就足够了，而在土壤较软、不稳定的地方，可能需要深桩基础以确保足够的支撑。此外，建造涡轮机基础的环境影响也必须考虑。应采用可持续的做法，以尽量减少对当地生态系统的干扰。这包括仔细规划施工过程，以避免损坏野生动物栖息地，并尽可能使用环保材料。除了稳定性和环境问题外，涡轮机基础的经济性也是风能项目整体经济学中的一个重要因素。精心设计的基础可以降低维护成本，延长涡轮机的使用寿命，最终导致运营成本的降低和能量输出的提高。这一经济方面对于吸引对可再生能源基础设施的投资至关重要。此外，随着技术的进步，创新的基础设计也在不断涌现。例如，一些公司正在尝试混合基础，结合不同的材料和技术来增强性能。这些创新旨在应对极端天气事件（如飓风或大雪）带来的挑战，这些事件可能会显著影响传统基础的完整性。总之，精心设计的涡轮机基础在风能领域的重要性不可低估。它是确保风力涡轮机稳定性、效率和耐用性的基本组成部分。随着世界继续向可再生能源解决方案转变，投资先进的基础技术将在最大限度地发挥风能的潜力并为可持续未来贡献力量方面发挥关键作用。理解涡轮机基础的复杂性和要求对工程师、开发人员和政策制定者来说都是必不可少的，因为我们努力建立一个更清洁、更可持续的能源格局。