gross compound steam turbine

简明释义

多轴并列式汽轮机

英英释义

例句

1.Maintenance of the gross compound steam turbine 总复合蒸汽轮机 is crucial for ensuring long-term reliability.

维护总复合蒸汽轮机对确保长期可靠性至关重要。

2.To meet environmental regulations, the gross compound steam turbine 总复合蒸汽轮机 must be optimized for lower emissions.

为满足环境法规，总复合蒸汽轮机必须优化以降低排放。

3.The efficiency of the gross compound steam turbine 总复合蒸汽轮机 can significantly impact the overall performance of the power plant.

总复合蒸汽轮机的效率可以显著影响发电厂的整体性能。

4.The gross compound steam turbine 总复合蒸汽轮机 operates on a dual-pressure system that enhances energy recovery.

总复合蒸汽轮机在双压力系统下运行，增强了能量回收。

5.Engineers are currently testing a new design for the gross compound steam turbine 总复合蒸汽轮机 to improve its thermal efficiency.

工程师们正在测试一种新设计的总复合蒸汽轮机，以提高其热效率。

作文

The evolution of power generation technology has led to the development of various types of turbines, among which the gross compound steam turbine stands out due to its efficiency and effectiveness in converting thermal energy into mechanical energy. A gross compound steam turbine is a type of steam turbine that combines the features of both impulse and reaction turbines, allowing for enhanced performance in generating electricity. This design is particularly significant in large-scale power plants where maximizing output while minimizing fuel consumption is crucial.In essence, a gross compound steam turbine operates by using steam produced from boiling water to drive the turbine blades. The steam expands and cools as it passes through the turbine, which in turn spins the rotor connected to a generator. The 'gross' aspect refers to the total output power generated by the turbine, which includes all losses and inefficiencies in the system. This makes it an important metric for engineers and operators when evaluating the performance of a power generation facility.The compound nature of this turbine means that it utilizes multiple stages of expansion, allowing for greater energy extraction from the steam. By having both high-pressure and low-pressure sections, the gross compound steam turbine can efficiently convert a broader range of steam conditions into usable energy. This multi-stage process not only increases efficiency but also reduces the overall size of the turbine, making it more suitable for modern power plants that demand compact and powerful machinery.Moreover, the gross compound steam turbine plays a vital role in reducing greenhouse gas emissions. As power plants strive to meet environmental regulations and sustainability goals, the efficiency of turbines becomes paramount. A more efficient turbine means less fuel is burned to produce the same amount of electricity, leading to lower carbon emissions and a smaller environmental footprint. This aligns with global efforts to transition to cleaner energy sources and combat climate change.In addition to their ecological benefits, gross compound steam turbines are also economically advantageous. Their ability to generate more electricity from the same amount of steam translates to lower operational costs for power plants. This is particularly important in competitive energy markets where profit margins are tight, and every bit of efficiency can make a significant difference in profitability.Furthermore, advancements in materials and technology have improved the reliability and lifespan of gross compound steam turbines. Modern turbines are designed to withstand higher temperatures and pressures, which enhances their performance and reduces maintenance needs. This reliability ensures that power plants can operate at optimal levels without frequent downtimes, further contributing to their economic viability.In conclusion, the gross compound steam turbine represents a significant advancement in steam turbine technology. Its combination of efficiency, environmental benefits, and economic advantages makes it a preferred choice for many power generation facilities around the world. As we continue to seek ways to improve energy production and reduce our impact on the planet, understanding and implementing technologies like the gross compound steam turbine will be essential. The future of energy generation lies in innovations that not only meet our current demands but also pave the way for a sustainable and efficient energy landscape.

发电技术的演变导致了各种类型涡轮机的发展，其中粗复合蒸汽涡轮机因其在将热能转化为机械能方面的效率和有效性而脱颖而出。粗复合蒸汽涡轮机是一种结合了冲击涡轮和反应涡轮特征的蒸汽涡轮，允许在发电中提高性能。这种设计在大型发电厂中特别重要，因为最大限度地提高输出同时最小化燃料消耗至关重要。从本质上讲，粗复合蒸汽涡轮机通过利用蒸汽驱动涡轮叶片来工作，蒸汽是通过煮沸水产生的。蒸汽在通过涡轮时膨胀并冷却，从而旋转连接到发电机的转子。“粗”这个词指的是涡轮产生的总输出功率，包括系统中的所有损失和低效。这使得它成为工程师和操作员在评估发电设施性能时的重要指标。这种涡轮的复合特性意味着它利用多个扩展阶段，从而允许从蒸汽中提取更多的能量。通过高压和低压部分的组合，粗复合蒸汽涡轮机能够有效地将更广泛的蒸汽条件转化为可用能量。这一多级过程不仅提高了效率，还减少了涡轮的整体尺寸，使其更适合现代发电厂对紧凑和强大机械设备的需求。此外，粗复合蒸汽涡轮机在减少温室气体排放方面发挥着至关重要的作用。随着发电厂努力满足环境法规和可持续发展目标，涡轮的效率变得至关重要。一台更高效的涡轮意味着燃烧更少的燃料就能产生相同数量的电力，从而降低碳排放并缩小环境足迹。这与全球向清洁能源过渡和应对气候变化的努力相一致。除了生态效益外，粗复合蒸汽涡轮机在经济上也具有优势。它们能够从相同数量的蒸汽中产生更多电力，这转化为发电厂的运营成本降低。这在竞争激烈的能源市场中尤为重要，在这些市场中，利润空间狭窄，每一点效率都可以对盈利能力产生重大影响。此外，材料和技术的进步提高了粗复合蒸汽涡轮机的可靠性和使用寿命。现代涡轮被设计成能够承受更高的温度和压力，从而提高它们的性能并减少维护需求。这种可靠性确保发电厂能够在没有频繁停机的情况下以最佳水平运行，进一步促进了它们的经济可行性。总之，粗复合蒸汽涡轮机代表了蒸汽涡轮技术的重要进步。其效率、环境效益和经济优势的结合使其成为世界许多发电设施的首选。随着我们继续寻找提高能源生产和减少对地球影响的方法，理解和实施像粗复合蒸汽涡轮机这样的技术将是必不可少的。能源生产的未来在于不仅满足我们当前需求的创新，同时为可持续和高效的能源格局铺平道路。