turbine output

简明释义

涡轮机功率

英英释义

例句

1.We need to increase the turbine output to meet the rising energy demands.

我们需要提高涡轮机输出以满足日益增长的能源需求。

2.Regular maintenance is crucial for maintaining high turbine output levels.

定期维护对保持高水平的涡轮机输出至关重要。

3.The report showed that the turbine output has remained stable over the last month.

报告显示，过去一个月涡轮机输出保持稳定。

4.The engineer monitored the turbine output to ensure optimal performance.

工程师监控涡轮机输出以确保最佳性能。

5.A sudden drop in turbine output can indicate a mechanical failure.

在涡轮机输出突然下降时，可能表明机械故障。

作文

The concept of turbine output is crucial in the field of energy production, particularly when discussing the efficiency and effectiveness of power generation systems. A turbine is a mechanical device that converts fluid energy into mechanical energy, which can then be transformed into electrical energy. The turbine output refers to the amount of power produced by a turbine during its operation, typically measured in megawatts (MW). Understanding this concept is essential for engineers and energy professionals as it directly impacts the overall performance of power plants.In modern power generation, turbines are often powered by various sources such as steam, water, or gas. For instance, in hydroelectric power plants, water flows through a dam and spins the turbines, leading to the generation of electricity. The turbine output in such setups can vary significantly based on factors like water flow rate and turbine design. Similarly, in gas-fired power plants, gas turbines convert the energy from burning natural gas into mechanical energy, which again contributes to the turbine output. One of the key aspects of maximizing turbine output involves optimizing the design and operational parameters of the turbine itself. Engineers must consider various factors such as blade shape, material strength, and cooling systems to enhance efficiency. Moreover, regular maintenance is vital to ensure that turbines operate at their peak performance levels. Any wear and tear can lead to a decrease in turbine output, which can have downstream effects on the entire power generation process.Another important consideration is the environmental impact of achieving higher turbine output. While increasing output can lead to more electricity generation, it is essential to balance this with sustainability practices. For example, in wind energy, the turbine output is influenced by wind speed and turbine height. Engineers are continually researching ways to design more efficient wind turbines that can generate more power with minimal environmental disruption.Furthermore, the integration of advanced technologies such as digital monitoring systems has revolutionized how we understand and manage turbine output. These systems provide real-time data on turbine performance, allowing operators to make informed decisions about maintenance and operational adjustments. This proactive approach not only enhances turbine output but also extends the lifespan of the equipment.In conclusion, the term turbine output encapsulates a vital aspect of energy generation that encompasses the efficiency and effectiveness of turbines in converting different forms of energy into electrical power. As the world moves towards more sustainable energy solutions, understanding and optimizing turbine output will continue to play a significant role in ensuring that we meet our energy demands while minimizing environmental impacts. By focusing on innovation and efficiency, we can harness the full potential of turbine technology to create a cleaner and more reliable energy future.

“涡轮输出”这个概念在能源生产领域至关重要，特别是在讨论发电系统的效率和有效性时。涡轮是一种机械装置，它将流体能量转化为机械能，然后再转化为电能。“涡轮输出”是指涡轮在运行期间产生的功率，通常以兆瓦（MW）为单位进行测量。理解这一概念对于工程师和能源专业人士至关重要，因为它直接影响到发电厂的整体性能。在现代发电中，涡轮通常由多种来源驱动，例如蒸汽、水或天然气。例如，在水电厂中，水流通过大坝并旋转涡轮，从而生成电力。在这种设置中，“涡轮输出”可能会因水流速和涡轮设计等因素而显著变化。类似地，在燃气发电厂中，燃气涡轮将燃烧天然气释放的能量转化为机械能，这再次有助于“涡轮输出”。最大化“涡轮输出”的关键方面之一涉及优化涡轮本身的设计和操作参数。工程师必须考虑各种因素，例如叶片形状、材料强度和冷却系统，以提高效率。此外，定期维护对于确保涡轮以最佳性能水平运行至关重要。任何磨损都可能导致“涡轮输出”下降，从而对整个发电过程产生下游影响。另一个重要的考虑因素是实现更高“涡轮输出”的环境影响。虽然提高输出可以导致更多的电力生成，但平衡这一点与可持续实践是至关重要的。例如，在风能中，“涡轮输出”受风速和涡轮高度的影响。工程师们正在不断研究设计更高效的风力涡轮的方法，以便在尽量减少环境干扰的情况下产生更多的电力。此外，先进技术的整合，如数字监控系统，彻底改变了我们理解和管理“涡轮输出”的方式。这些系统提供关于涡轮性能的实时数据，使操作员能够做出有关维护和操作调整的明智决策。这种主动的方法不仅增强了“涡轮输出”，而且延长了设备的使用寿命。总之，“涡轮输出”一词概括了能源生成的一个重要方面，包括涡轮在将不同形式的能量转化为电力方面的效率和有效性。随着世界朝着更可持续的能源解决方案迈进，理解和优化“涡轮输出”将继续在确保我们满足能源需求的同时最小化环境影响方面发挥重要作用。通过关注创新和效率，我们可以充分利用涡轮技术的潜力，创造一个更清洁、更可靠的能源未来。