diesel-gas turbine

简明释义

柴油机—燃气轮机联合动力装置

英英释义

例句

1.Engineers are optimizing the performance of the diesel-gas turbine for better fuel efficiency.

工程师们正在优化柴油-燃气涡轮机的性能，以提高燃油效率。

2.The diesel-gas turbine system reduces emissions compared to traditional power generation methods.

柴油-燃气涡轮机系统相比传统发电方式减少了排放。

3.The new power plant uses a diesel-gas turbine to generate electricity efficiently.

新电厂使用柴油-燃气涡轮机高效发电。

4.In maritime applications, a diesel-gas turbine can provide reliable propulsion for large vessels.

在海洋应用中，柴油-燃气涡轮机可以为大型船舶提供可靠的动力。

5.Many modern aircraft utilize a diesel-gas turbine for improved range and speed.

许多现代飞机利用柴油-燃气涡轮机以提高航程和速度。

作文

The world of energy generation is continuously evolving, with various technologies vying for efficiency and sustainability. One such technology that has gained attention in recent years is the diesel-gas turbine (柴油-燃气涡轮). This hybrid system combines the benefits of both diesel engines and gas turbines, enabling power plants to achieve higher efficiency and lower emissions compared to traditional methods. Understanding how a diesel-gas turbine operates can provide insights into its advantages and potential applications.A diesel-gas turbine system typically consists of two main components: a diesel engine and a gas turbine. The diesel engine serves as the primary source of power, while the gas turbine enhances the overall efficiency of the system. When the diesel engine operates, it generates mechanical energy, which is then used to drive the gas turbine. The gas turbine, in turn, produces additional energy by utilizing the exhaust gases from the diesel engine. This synergy between the two components allows for a more efficient energy conversion process.One of the most significant advantages of a diesel-gas turbine system is its ability to operate on a variety of fuels. While diesel fuel is the primary choice, these systems can also run on natural gas or other alternative fuels. This flexibility makes them an attractive option for regions where fuel supply may be inconsistent or where there is a push towards cleaner energy sources. Additionally, the ability to switch between different fuels can help reduce operational costs and enhance energy security.Moreover, the environmental benefits of a diesel-gas turbine cannot be overlooked. Traditional fossil fuel power generation methods often result in high levels of greenhouse gas emissions. In contrast, the hybrid nature of a diesel-gas turbine allows for a more complete combustion process, resulting in lower emissions of harmful pollutants. This characteristic aligns well with global efforts to combat climate change and transition towards cleaner energy solutions.In terms of applications, diesel-gas turbines are increasingly being utilized in various sectors, including marine, industrial, and power generation. In marine applications, these systems provide reliable propulsion for ships, allowing for efficient and powerful performance at sea. In industrial settings, diesel-gas turbines can be used for combined heat and power (CHP) systems, maximizing energy utilization by capturing waste heat for heating purposes. Furthermore, in power generation, these systems can serve as backup power sources or provide grid stability during peak demand periods.Despite their numerous advantages, there are challenges associated with diesel-gas turbine systems. The initial capital investment for such systems can be relatively high, which may deter some potential users. Additionally, maintenance and operational complexities can arise due to the dual nature of the technology. However, ongoing advancements in engineering and technology are likely to address these challenges and improve the overall feasibility of diesel-gas turbine systems.In conclusion, the diesel-gas turbine represents a promising solution in the quest for efficient and sustainable energy generation. By harnessing the strengths of both diesel engines and gas turbines, this hybrid system offers a versatile and environmentally friendly option for various applications. As the world continues to seek innovative ways to meet its energy demands, the diesel-gas turbine will undoubtedly play a crucial role in shaping the future of energy production.

能源生成的世界正在不断发展，各种技术正在争夺效率和可持续性。近年来，一种名为柴油-燃气涡轮的混合系统引起了关注。该系统结合了柴油发动机和燃气涡轮的优点，使发电厂能够比传统方法实现更高的效率和更低的排放。理解柴油-燃气涡轮的工作原理可以提供关于其优势和潜在应用的见解。柴油-燃气涡轮系统通常由两个主要组成部分构成：柴油发动机和燃气涡轮。柴油发动机作为主要的动力来源，而燃气涡轮则增强了系统的整体效率。当柴油发动机运转时，它会产生机械能，然后用于驱动燃气涡轮。燃气涡轮反过来利用柴油发动机的废气产生额外的能量。这两个组件之间的协同作用使得能量转换过程更加高效。柴油-燃气涡轮系统的一个显著优点是其能够使用多种燃料。虽然柴油燃料是主要选择，但这些系统也可以运行天然气或其他替代燃料。这种灵活性使它们成为燃料供应可能不稳定或有向清洁能源来源转型的地区的吸引选项。此外，能够在不同燃料之间切换可以帮助降低运营成本并增强能源安全性。此外，柴油-燃气涡轮的环境效益不容忽视。传统的化石燃料发电方法通常导致高水平的温室气体排放。相比之下，柴油-燃气涡轮的混合特性允许更完全的燃烧过程，从而减少有害污染物的排放。这一特性与全球应对气候变化和向清洁能源解决方案过渡的努力相一致。在应用方面，柴油-燃气涡轮越来越多地被用于海洋、工业和发电等各个领域。在海洋应用中，这些系统为船舶提供可靠的推进力，实现高效强大的海上性能。在工业环境中，柴油-燃气涡轮可以用于联产供热和电力（CHP）系统，通过捕获废热最大化能源利用。此外，在发电方面，这些系统可以作为备用电源或在高峰需求期间提供电网稳定性。尽管有许多优点，但柴油-燃气涡轮系统也面临一些挑战。此类系统的初始资本投资相对较高，可能会阻止一些潜在用户。此外，由于技术的双重性质，维护和操作复杂性可能会出现。然而，工程和技术的持续进步可能会解决这些挑战，并提高柴油-燃气涡轮系统的整体可行性。总之，柴油-燃气涡轮代表了一种在追求高效和可持续能源生成方面的有希望的解决方案。通过利用柴油发动机和燃气涡轮的优势，这一混合系统为各种应用提供了多功能和环保的选择。随着世界继续寻求创新的方法来满足能源需求，柴油-燃气涡轮无疑将在塑造未来能源生产中发挥重要作用。