marinized aircraft gas turbine

简明释义

船用航空型燃气轮机

英英释义

例句

1.Maintenance teams are trained to handle the complexities of the marinized aircraft gas turbine systems.

维护团队接受培训，以处理海洋化航空发动机涡轮机系统的复杂性。

2.The marinized aircraft gas turbine enhances the operational range of the patrol boats.

该海洋化航空发动机涡轮机提高了巡逻艇的作战范围。

3.Engineers are testing the marinized aircraft gas turbine to meet specific naval requirements.

工程师们正在测试海洋化航空发动机涡轮机以满足特定的海军要求。

4.The use of a marinized aircraft gas turbine allows for a lighter weight propulsion system on fast attack crafts.

使用海洋化航空发动机涡轮机使快艇上的推进系统更轻便。

5.The new naval vessel is equipped with a marinized aircraft gas turbine, ensuring high efficiency and performance in marine conditions.

这艘新型海军舰艇配备了海洋化航空发动机涡轮机，确保在海洋环境中高效运作。

作文

In the world of aviation and marine engineering, the term marinized aircraft gas turbine refers to a specialized type of gas turbine engine that has been adapted for use in marine environments. These engines are derived from aircraft gas turbines but are modified to withstand the unique challenges posed by saltwater, humidity, and varying temperatures found at sea. The process of marinization involves enhancing the materials and components of the engine to ensure durability and reliability in harsh maritime conditions.One of the primary reasons for the development of marinized aircraft gas turbine engines is the increasing demand for efficient and powerful propulsion systems in ships and submarines. Traditional marine engines, while effective, often do not provide the same level of performance as their aviation counterparts. By adapting aircraft gas turbines for marine use, engineers have been able to harness the high power-to-weight ratio and efficiency of these engines, resulting in faster and more agile vessels.The marinization process typically includes the application of corrosion-resistant coatings, the use of specialized lubricants, and modifications to the cooling systems of the gas turbines. These adaptations help to prevent damage from saltwater exposure and ensure that the engine operates smoothly even under extreme conditions. Additionally, the design of marinized aircraft gas turbine engines often incorporates features that allow for easier maintenance and repair, which is crucial for vessels operating in remote areas where access to technical support may be limited.Another significant advantage of using marinized aircraft gas turbine engines is their ability to operate on a variety of fuels. While traditional marine engines typically rely on heavy fuel oil, marinized gas turbines can run on lighter fuels such as diesel or even biofuels. This flexibility not only enhances the operational capabilities of the vessels but also contributes to environmental sustainability by reducing emissions and allowing for cleaner energy alternatives.Furthermore, the integration of marinized aircraft gas turbine technology into naval vessels has transformed military operations. Navies around the world have adopted this technology for its speed and efficiency, enabling them to respond quickly to threats and conduct operations over vast distances. The combination of high-speed performance and reduced fuel consumption makes these engines an attractive choice for modern naval warfare.In conclusion, the adaptation of aircraft gas turbines for marine applications through the process of marinization has led to the creation of marinized aircraft gas turbine engines that offer numerous benefits. From enhanced performance and fuel flexibility to improved durability and maintenance, these engines represent a significant advancement in marine propulsion technology. As the demand for efficient and powerful engines continues to grow, it is likely that we will see further innovations in the field of marinized gas turbines, ultimately shaping the future of both aviation and maritime industries.

在航空和海洋工程领域，短语marinized aircraft gas turbine指的是一种专门为海洋环境而改造的燃气涡轮发动机。这些发动机源自于航空燃气涡轮，但经过修改以承受海水、湿度和海洋中温度变化所带来的独特挑战。海洋化过程涉及增强发动机的材料和组件，以确保其在恶劣的海洋条件下的耐用性和可靠性。开发marinized aircraft gas turbine发动机的主要原因之一是对高效且强大推进系统的需求不断增加，尤其是在船舶和潜艇中。传统的海洋发动机虽然有效，但通常无法提供与航空发动机相同的性能水平。通过将航空燃气涡轮改造成适合海洋使用，工程师们能够利用这些发动机的高功率重量比和效率，从而使船只更快、更灵活。海洋化过程通常包括应用抗腐蚀涂层、使用特殊润滑剂以及对燃气涡轮的冷却系统进行改进。这些改造有助于防止盐水侵蚀造成的损害，并确保发动机在极端条件下平稳运行。此外，marinized aircraft gas turbine发动机的设计通常包含便于维护和修理的特性，这对于在偏远地区运营的船只至关重要，因为那里技术支持的获取可能有限。使用marinized aircraft gas turbine发动机的另一个显著优势是它们能够使用多种燃料。虽然传统海洋发动机通常依赖重油，但海洋化燃气涡轮可以使用柴油或甚至生物燃料。这种灵活性不仅增强了船只的操作能力，还通过减少排放和允许使用更清洁的能源替代方案，促进了环境可持续性。此外，将marinized aircraft gas turbine技术集成到海军舰艇中，改变了军事行动。世界各国海军已采用这一技术，因其速度和效率，使他们能够迅速应对威胁，并在广阔的距离内进行行动。高速性能与降低燃料消耗的结合，使这些发动机成为现代海军战争的理想选择。总之，通过海洋化过程将航空燃气涡轮适应海洋应用，创造了marinized aircraft gas turbine发动机，提供了众多好处。从增强的性能和燃料灵活性到改善的耐用性和维护性，这些发动机代表了海洋推进技术的重要进步。随着对高效且强大发动机的需求不断增长，我们很可能会在海洋化燃气涡轮领域看到进一步的创新，最终塑造航空和海洋工业的未来。