ljungstrom turbine

简明释义

永司登透平

英英释义

例句

1.The efficiency of the ljungstrom turbine 隆斯特罗姆涡轮机 significantly improves power generation in thermal plants.

在热电厂中，隆斯特罗姆涡轮机 ljungstrom turbine 的效率显著提高了发电能力。

2.In recent years, the ljungstrom turbine 隆斯特罗姆涡轮机 has become a popular choice for renewable energy projects.

近年来，隆斯特罗姆涡轮机 ljungstrom turbine 已成为可再生能源项目的热门选择。

3.Engineers are studying the ljungstrom turbine 隆斯特罗姆涡轮机 to enhance its performance in combined cycle systems.

工程师们正在研究 隆斯特罗姆涡轮机 ljungstrom turbine 以提高其在联合循环系统中的性能。

4.The design of the ljungstrom turbine 隆斯特罗姆涡轮机 allows for better heat recovery in industrial applications.

隆斯特罗姆涡轮机 ljungstrom turbine 的设计使得在工业应用中更好地回收热量。

5.The ljungstrom turbine 隆斯特罗姆涡轮机 is known for its ability to operate efficiently at various loads.

隆斯特罗姆涡轮机 ljungstrom turbine 以其在不同负载下高效运行而闻名。

作文

The ljungstrom turbine is a remarkable invention that has significantly contributed to the efficiency of power generation. Developed by the Swedish engineer, Gustaf de Laval, this type of turbine is primarily used in steam power plants and is known for its unique design and operation. The ljungstrom turbine operates on the principle of utilizing both the high-pressure steam and the low-pressure steam to optimize energy extraction from the steam cycle. This dual approach allows for a more efficient conversion of thermal energy into mechanical energy, which ultimately leads to higher electrical output.One of the key features of the ljungstrom turbine is its ability to operate at various pressure levels. This flexibility makes it suitable for different types of steam sources, whether they are derived from fossil fuels, nuclear power, or renewable energy sources such as biomass. The turbine’s design includes multiple stages, each designed to extract energy from the steam at different pressure levels, ensuring that no energy is wasted during the process.In addition to its efficiency, the ljungstrom turbine also boasts a lower environmental impact compared to traditional turbines. By maximizing the energy extracted from steam, it reduces the amount of fuel needed to generate electricity, thereby lowering greenhouse gas emissions. This characteristic aligns with the global push towards more sustainable energy solutions, making the ljungstrom turbine an attractive option for modern power plants.Moreover, the maintenance and operational costs associated with the ljungstrom turbine are relatively low. Its robust design minimizes wear and tear, leading to longer operational lifespans and reduced downtime for repairs. This reliability is crucial for power plants that need to maintain consistent electricity supply, especially during peak demand periods.The implementation of the ljungstrom turbine has been seen in various countries around the world, showcasing its adaptability to different energy markets and regulatory environments. Countries that have invested in this technology often report improvements in their overall energy efficiency and reductions in operational costs.As the world continues to seek innovative solutions to combat climate change, the ljungstrom turbine stands out as a prime example of how engineering can contribute to sustainable development. Its design not only enhances energy production but also promotes a cleaner environment, making it a vital component of future energy systems.In conclusion, the ljungstrom turbine represents a significant advancement in turbine technology, combining efficiency, sustainability, and reliability. As we move forward into a future where energy demands are ever-increasing, understanding and implementing technologies like the ljungstrom turbine will be essential for achieving our energy goals while protecting the planet for future generations.

Ljungstrom涡轮机是一项显著的发明，极大地促进了发电效率。该涡轮机由瑞典工程师古斯塔夫·德·拉瓦尔开发，主要用于蒸汽发电厂，以其独特的设计和操作而闻名。Ljungstrom涡轮机依靠利用高压蒸汽和低压蒸汽的原理，优化从蒸汽循环中提取的能量。这种双重方法允许更有效地将热能转化为机械能，最终导致更高的电力输出。Ljungstrom涡轮机的一个关键特征是其在不同压力水平下运行的能力。这种灵活性使其适用于不同类型的蒸汽源，无论是来自化石燃料、核能还是生物质等可再生能源。该涡轮机的设计包括多个级别，每个级别旨在从不同压力水平的蒸汽中提取能量，确保在过程中没有能量浪费。除了其效率，Ljungstrom涡轮机与传统涡轮机相比，还具有较低的环境影响。通过最大化从蒸汽中提取的能量，它减少了发电所需的燃料量，从而降低了温室气体排放。这一特征与全球推动可持续能源解决方案的趋势相符合，使Ljungstrom涡轮机成为现代发电厂的有吸引力的选择。此外，Ljungstrom涡轮机的维护和运营成本相对较低。其坚固的设计最小化了磨损，延长了操作寿命，并减少了维修停机时间。这种可靠性对于需要在高峰需求期间保持稳定电力供应的发电厂至关重要。Ljungstrom涡轮机的实施已在世界各国得到应用，展示了其对不同能源市场和监管环境的适应能力。投资于这项技术的国家通常报告其整体能源效率的提高和运营成本的降低。随着世界继续寻求创新解决方案以应对气候变化，Ljungstrom涡轮机作为工程如何促进可持续发展的重要例子而脱颖而出。其设计不仅增强了能源生产，还促进了更清洁的环境，使其成为未来能源系统的关键组成部分。总之，Ljungstrom涡轮机代表了涡轮技术的重要进步，结合了效率、可持续性和可靠性。随着我们迈向对能源需求日益增长的未来，理解和实施像Ljungstrom涡轮机这样的技术对于实现我们的能源目标，同时保护地球以供后代使用，将是至关重要的。