starting turbine

简明释义

起动涡轮

英英释义

例句

1.After troubleshooting, the team was finally ready for starting turbine again.

经过故障排除，团队终于准备好再次启动涡轮机。

2.Before starting turbine, we must check all safety protocols are in place.

在启动涡轮机之前，我们必须检查所有安全协议是否到位。

3.Proper training is essential for technicians involved in starting turbine operations.

参与启动涡轮机操作的技术人员需要接受适当培训。

4.The engineer initiated the process of starting turbine to ensure the power generation begins smoothly.

工程师启动了启动涡轮机的过程，以确保发电顺利开始。

5.The control room monitored all parameters while starting turbine during the test run.

控制室在测试运行期间监测所有参数，同时启动涡轮机。

作文

The concept of a starting turbine is crucial in the field of engineering, particularly in power generation. A starting turbine refers to the initial phase of operation for a turbine, which is a device that converts kinetic energy from fluid flow into mechanical energy. This process is essential for various applications, including electricity generation, propulsion in aircraft, and even in some automotive engines. Understanding how a starting turbine operates can provide insights into the efficiency and effectiveness of energy conversion systems.When a turbine is started, it undergoes several critical steps to ensure it reaches operational speed safely and efficiently. The starting turbine phase typically involves initiating the flow of steam, gas, or water that will drive the turbine blades. For instance, in a steam turbine, high-pressure steam is introduced into the turbine, causing the blades to spin. This initial movement is vital, as it sets the stage for the turbine to reach its rated speed and begin generating power.One of the key challenges during the starting turbine process is managing the temperature and pressure within the system. Engineers must carefully monitor these variables to prevent damage to the turbine components. If the turbine starts too quickly without proper control, it can lead to mechanical failures or inefficiencies. Therefore, sophisticated control systems are often employed to regulate the starting turbine sequence, ensuring that all parameters remain within safe limits.Another important aspect of the starting turbine is its impact on overall system performance. The efficiency of a turbine can be significantly influenced by how well the starting process is executed. A poorly managed startup can result in increased fuel consumption and reduced output, which can have economic implications for power plants and other facilities relying on turbine technology.In recent years, advancements in technology have led to improved methods for optimizing the starting turbine process. Innovations such as variable speed drives and advanced monitoring systems allow for more precise control over the startup sequence. These technologies not only enhance the reliability of turbine operations but also contribute to better energy management and sustainability efforts.Moreover, understanding the starting turbine is not limited to engineers and technicians; it is also relevant for anyone interested in energy production and environmental considerations. As society moves towards cleaner energy sources, the efficiency of turbines becomes increasingly important. The ability to start and operate turbines effectively can lead to lower emissions and better utilization of resources.In conclusion, the starting turbine is a fundamental concept in the realm of turbine operation and energy conversion. Its significance extends beyond engineering, touching upon economic and environmental issues as well. By grasping the intricacies of how a starting turbine functions, we can appreciate the complexities involved in modern energy systems and the ongoing efforts to improve their performance. As we continue to innovate and refine these technologies, the role of the starting turbine will undoubtedly remain a focal point in the pursuit of efficient and sustainable energy solutions.

“启动涡轮”的概念在工程领域中至关重要，特别是在发电方面。“启动涡轮”是指涡轮的初始操作阶段，涡轮是一种将流体流动的动能转化为机械能的装置。这个过程对于各种应用至关重要，包括发电、飞机推进，甚至某些汽车发动机。理解“启动涡轮”的操作可以为我们提供有关能量转换系统效率和有效性的见解。当涡轮启动时，它经历几个关键步骤，以确保安全有效地达到操作速度。“启动涡轮”阶段通常涉及引入将驱动涡轮叶片的蒸汽、气体或水的流动。例如，在蒸汽涡轮中，高压蒸汽被引入涡轮，导致叶片旋转。这一初步运动至关重要，因为它为涡轮达到额定速度并开始发电奠定了基础。在“启动涡轮”过程中，一个主要挑战是管理系统内的温度和压力。工程师必须仔细监控这些变量，以防止对涡轮组件造成损坏。如果涡轮在没有适当控制的情况下启动得太快，可能会导致机械故障或效率低下。因此，通常采用复杂的控制系统来调节“启动涡轮”序列，确保所有参数保持在安全范围内。“启动涡轮”的另一个重要方面是其对整体系统性能的影响。涡轮的效率可以受到启动过程执行质量的显著影响。管理不善的启动可能导致燃料消耗增加和输出减少，这对依赖涡轮技术的发电厂和其他设施具有经济意义。近年来，技术的进步促使优化“启动涡轮”过程的方法得到了改善。诸如变速驱动和先进监测系统等创新使得对启动序列的控制更加精确。这些技术不仅增强了涡轮操作的可靠性，还促进了更好的能源管理和可持续发展努力。此外，理解“启动涡轮”并不限于工程师和技术人员；它也与任何对能源生产和环境问题感兴趣的人相关。随着社会向更清洁的能源来源迈进，涡轮的效率变得愈发重要。有效地启动和操作涡轮的能力可以降低排放，更好地利用资源。总之，“启动涡轮”是涡轮操作和能量转换领域的基本概念。它的重要性超越了工程，涉及经济和环境问题。通过掌握“启动涡轮”的复杂性，我们可以欣赏现代能源系统中所涉及的复杂性以及提高其性能的持续努力。随着我们不断创新和完善这些技术，“启动涡轮”的作用无疑将继续成为追求高效和可持续能源解决方案的重点。