combined diesel-electric and gas turbine

简明释义

柴油机电力推进和燃气轮机联合

英英释义

例句

1.The ship is powered by a combined diesel-electric and gas turbine system for improved efficiency.

这艘船由组合柴油电力和燃气涡轮系统提供动力，以提高效率。

2.Many modern naval vessels utilize a combined diesel-electric and gas turbine propulsion system.

许多现代海军舰艇采用组合柴油电力和燃气涡轮推进系统。

3.The combined diesel-electric and gas turbine setup reduces fuel consumption significantly.

这种组合柴油电力和燃气涡轮配置显著减少了燃料消耗。

4.Engineers are developing new models of combined diesel-electric and gas turbine engines for commercial ships.

工程师们正在为商船开发新的组合柴油电力和燃气涡轮发动机模型。

5.The combined diesel-electric and gas turbine technology allows for flexible operation in various conditions.

这种组合柴油电力和燃气涡轮技术允许在各种条件下灵活操作。

作文

The advancement of technology has led to the development of various efficient power generation systems. One such system is the combined diesel-electric and gas turbine technology, which plays a crucial role in modern energy production. This hybrid approach combines the strengths of both diesel engines and gas turbines to optimize performance and reduce emissions. In this essay, we will explore the principles behind this technology, its applications, and its benefits compared to traditional power generation methods.To begin with, the combined diesel-electric and gas turbine system operates on a simple yet effective principle. Diesel engines provide the initial power needed to start the system, while gas turbines take over once they reach optimal operating conditions. This combination allows for a smoother transition between power sources and enhances overall efficiency. The diesel engine generates electricity that can be used immediately or stored in batteries for later use, while the gas turbine utilizes natural gas to produce additional power. This synergy not only maximizes fuel utilization but also minimizes waste.One of the most significant advantages of the combined diesel-electric and gas turbine system is its flexibility in various applications. It can be used in marine vessels, where reliability and efficiency are paramount, as well as in land-based power plants. In marine applications, ships equipped with this technology can achieve higher speeds and better fuel economy compared to those powered solely by diesel engines. On land, this system is increasingly being adopted for peaking power plants, where rapid response to electricity demand is critical.Moreover, the environmental impact of the combined diesel-electric and gas turbine technology is considerably lower than that of traditional fossil fuel systems. By integrating gas turbines, which emit fewer pollutants compared to diesel engines, this hybrid system contributes to cleaner air and reduced greenhouse gas emissions. Additionally, the ability to switch between power sources enables operators to optimize fuel usage based on availability and cost, further enhancing sustainability.Another key benefit of this technology is its economic viability. The initial investment in combined diesel-electric and gas turbine systems may be higher than conventional setups; however, the long-term savings on fuel and maintenance costs often outweigh these expenses. As energy prices fluctuate, having a system that can efficiently utilize different fuel types provides a competitive edge. Furthermore, the reduced emissions can lead to lower regulatory costs and potential tax incentives, making it an attractive option for investors and operators alike.In conclusion, the combined diesel-electric and gas turbine technology represents a significant advancement in power generation. By merging the strengths of diesel engines and gas turbines, this system offers enhanced efficiency, flexibility, and environmental benefits. As the world continues to seek sustainable energy solutions, technologies like this will play a pivotal role in shaping the future of energy production. Embracing such innovations not only supports economic growth but also contributes to a cleaner and more sustainable planet for generations to come.

技术的进步导致了各种高效发电系统的发展。其中一种系统是联合柴油电力和燃气轮机技术，它在现代能源生产中发挥着至关重要的作用。这种混合方法结合了柴油发动机和燃气轮机的优势，以优化性能并减少排放。在这篇文章中，我们将探讨这种技术背后的原理、其应用以及与传统发电方法相比的好处。首先，联合柴油电力和燃气轮机系统基于简单而有效的原理运行。柴油发动机提供启动系统所需的初始动力，而燃气轮机在达到最佳运行条件后接管。这种组合不仅允许电源之间的平稳过渡，还增强了整体效率。柴油发动机产生的电力可以立即使用或储存在电池中以备后用，而燃气轮机利用天然气产生额外的电力。这种协同作用不仅最大化了燃料利用率，还最小化了浪费。联合柴油电力和燃气轮机系统的一个重要优势是在各种应用中的灵活性。它可以用于海洋船舶，在那里可靠性和效率至关重要，也可以用于陆基电厂。在海洋应用中，配备此技术的船只能够实现比仅由柴油发动机驱动的船只更高的速度和更好的燃油经济性。在陆地上，这种系统越来越多地被采用用于峰值电站，在那里快速响应电力需求至关重要。此外，联合柴油电力和燃气轮机技术对环境的影响显著低于传统化石燃料系统。通过整合燃气轮机，燃气轮机的排放量比柴油发动机少，这种混合系统有助于清洁空气和减少温室气体排放。此外，切换电源的能力使操作员能够根据可用性和成本优化燃料使用，从而进一步增强可持续性。该技术的另一个关键好处是其经济可行性。联合柴油电力和燃气轮机系统的初始投资可能高于传统设置；然而，长期节省的燃料和维护成本通常超过这些费用。随着能源价格的波动，拥有能够高效利用不同燃料类型的系统提供了竞争优势。此外，减少的排放可能导致较低的监管成本和潜在的税收激励，使其成为投资者和运营商的有吸引力的选择。总之，联合柴油电力和燃气轮机技术代表了发电领域的一项重大进展。通过结合柴油发动机和燃气轮机的优势，这一系统提供了更高的效率、灵活性和环境效益。随着世界继续寻求可持续能源解决方案，这类技术将在塑造未来能源生产方面发挥关键作用。拥抱这样的创新不仅支持经济增长，还有助于为后代创造一个更清洁、更可持续的星球。