fractional turbine
简明释义
部分进汽式汽轮机
英英释义
A fractional turbine is a type of turbine that operates at less than full capacity, often used in applications where variable speed and efficiency are required. | 分数涡轮是一种在低于满负荷下运行的涡轮,通常用于需要可变速度和效率的应用中。 |
例句
1.The fractional turbine 分数涡轮 technology has been adopted in various industries for its efficiency.
由于其高效性,分数涡轮 fractional turbine 技术已被多种行业采用。
2.The fractional turbine 分数涡轮 design is crucial for improving the performance of micro UAVs.
分数涡轮 fractional turbine 的设计对于提高微型无人机的性能至关重要。
3.In the latest model, the fractional turbine 分数涡轮 allows for better thrust-to-weight ratio.
在最新型号中,分数涡轮 fractional turbine 提供了更好的推重比。
4.The engineer explained how the fractional turbine 分数涡轮 can optimize fuel efficiency in small aircraft.
工程师解释了如何使用分数涡轮 fractional turbine来优化小型飞机的燃油效率。
5.Researchers are developing a new fractional turbine 分数涡轮 that can operate at higher altitudes.
研究人员正在开发一种可以在更高海拔运行的新型分数涡轮 fractional turbine。
作文
In recent years, the field of renewable energy has gained significant attention due to the increasing need for sustainable solutions to combat climate change. Among various technologies, the use of wind energy has emerged as a prominent choice, leading to innovations such as the fractional turbine. A fractional turbine (分数涡轮) is a type of wind turbine designed to optimize energy production while minimizing costs and maximizing efficiency. This technology represents a shift from traditional large-scale turbines to smaller, more efficient models that can be deployed in a variety of settings.The primary advantage of a fractional turbine lies in its ability to harness wind energy in locations where conventional turbines might not be feasible. For instance, urban areas or regions with limited space can benefit from the compact design of fractional turbines. These turbines can be installed on rooftops or small plots of land, allowing for decentralized energy production. This decentralization is crucial in reducing transmission losses and ensuring that energy is produced closer to where it is consumed.Moreover, the fractional turbine is engineered to operate efficiently at lower wind speeds, making it suitable for diverse geographical locations. Traditional wind turbines often require high wind speeds to generate significant power, which limits their applicability in many areas. However, with advancements in technology, fractional turbines can capture energy from gentler breezes, thus expanding the potential for wind energy generation.Another notable feature of fractional turbines is their cost-effectiveness. The smaller size of these turbines generally leads to lower manufacturing and installation costs. This affordability makes renewable energy more accessible to individuals and small businesses, promoting wider adoption. As more people invest in fractional turbines, the cumulative impact on reducing carbon footprints can be substantial. Furthermore, the integration of smart technology into fractional turbines enhances their performance. Many modern models are equipped with sensors and software that monitor wind conditions and adjust the turbine's operation accordingly. This real-time data allows for optimal energy production and helps in predictive maintenance, reducing downtime and increasing reliability.Despite the numerous benefits, there are challenges associated with the implementation of fractional turbines. One major concern is the aesthetic impact on urban landscapes. Critics argue that even small turbines can disrupt the visual appeal of neighborhoods. Additionally, noise pollution generated by the turbines can be a factor that deters potential users. Addressing these concerns through innovative designs and sound reduction technologies is crucial for the future acceptance of fractional turbines.In conclusion, fractional turbines represent a promising advancement in the field of wind energy. Their ability to adapt to various environments and their cost-effectiveness make them an attractive option for energy production. As technology continues to evolve, it is essential to address the challenges associated with their deployment to ensure that fractional turbines can contribute significantly to a sustainable energy future. By embracing this innovative solution, we can move closer to achieving our renewable energy goals and reducing our reliance on fossil fuels.
近年来,由于对可持续解决方案的迫切需求,以应对气候变化,可再生能源领域获得了显著关注。在各种技术中,风能的使用已成为一个突出的选择,导致了如fractional turbine(分数涡轮)等创新的出现。fractional turbine是一种风力涡轮机,旨在优化能源生产,同时降低成本和最大化效率。这项技术代表了从传统的大型涡轮机转向更小、更高效的模型,这些模型可以在多种环境中部署。fractional turbine的主要优势在于它能够在传统涡轮机可能不可行的位置利用风能。例如,城市地区或空间有限的地区可以受益于fractional turbine的紧凑设计。这些涡轮机可以安装在屋顶或小块土地上,从而实现分散式能源生产。这种分散化对于减少传输损失至关重要,并确保能源的生产更接近消费地点。此外,fractional turbine经过工程设计,可以在较低的风速下高效运行,使其适合不同的地理位置。传统的风力涡轮机通常需要高风速才能产生显著的功率,这限制了它们在许多地区的适用性。然而,随着技术的进步,fractional turbines能够从温和的微风中捕获能量,从而扩大了风能发电的潜力。另一个值得注意的特点是fractional turbines的成本效益。这些涡轮机的小型化通常导致较低的制造和安装成本。这种经济实惠使可再生能源对个人和小企业更具可及性,促进了更广泛的采用。随着越来越多的人投资于fractional turbines,减少碳足迹的累积影响可能是巨大的。此外,智能技术的集成增强了fractional turbines的性能。许多现代型号配备了传感器和软件,可以监测风况并相应调整涡轮机的操作。这些实时数据允许最佳能源生产,并有助于预测性维护,减少停机时间并提高可靠性。尽管有众多好处,但实施fractional turbines也面临挑战。一个主要问题是对城市景观的美学影响。批评者认为,即使是小型涡轮机也会破坏邻里的视觉吸引力。此外,涡轮机产生的噪音污染可能是阻止潜在用户的因素。通过创新设计和降噪技术来解决这些问题对于未来接受fractional turbines至关重要。总之,fractional turbines代表了风能领域的一个有前景的进展。它们适应各种环境的能力以及其成本效益使其成为能源生产的一个有吸引力的选择。随着技术的不断发展,解决与其部署相关的挑战至关重要,以确保fractional turbines能够为可持续能源的未来做出重要贡献。通过拥抱这一创新解决方案,我们可以更接近实现可再生能源目标,并减少对化石燃料的依赖。
相关单词
