fuel resistance

简明释义

耐燃油性

英英释义

例句

1.The research team is testing various polymers for their fuel resistance (燃料抗性) in high-temperature environments.

研究小组正在测试各种聚合物在高温环境下的燃料抗性（燃料抗性）。

2.In automotive engineering, fuel resistance (燃料抗性) is crucial for ensuring the longevity of fuel tanks.

在汽车工程中，燃料抗性（燃料抗性）对于确保油箱的耐用性至关重要。

3.The coating on the pipeline is designed to provide excellent fuel resistance (燃料抗性) against corrosive substances.

管道上的涂层旨在提供优异的燃料抗性（燃料抗性），以抵御腐蚀性物质。

4.The new materials developed for the aircraft show improved fuel resistance (燃料抗性) which enhances their performance.

新开发的飞机材料显示出更好的燃料抗性（燃料抗性），这提高了它们的性能。

5.Engine manufacturers are focusing on fuel resistance (燃料抗性) to ensure longer engine life under extreme conditions.

发动机制造商专注于燃料抗性（燃料抗性），以确保在极端条件下更长的发动机使用寿命。

作文

In today's world, where environmental concerns are at the forefront of global discussions, the concept of fuel resistance (燃料抵抗力) has become increasingly significant. This term refers to the ability of a system, material, or organism to withstand or adapt to changes in fuel availability and energy sources. As we face the challenges of climate change and depleting fossil fuel reserves, understanding and improving fuel resistance (燃料抵抗力) is essential for sustainable development.One of the most pressing issues related to fuel resistance (燃料抵抗力) is the reliance on fossil fuels for energy. Many countries have built their economies around the extraction and consumption of oil, coal, and natural gas. However, as these resources become scarcer and more expensive, it is crucial for nations to develop alternative energy sources that can enhance their fuel resistance (燃料抵抗力). Renewable energy technologies such as solar, wind, and hydroelectric power offer promising solutions, allowing communities to reduce their dependence on traditional fuels.Moreover, the concept of fuel resistance (燃料抵抗力) extends beyond just energy production. It also encompasses energy efficiency in transportation and manufacturing. For instance, electric vehicles (EVs) are a prime example of how innovation can lead to increased fuel resistance (燃料抵抗力). By using electricity instead of gasoline or diesel, EVs not only minimize greenhouse gas emissions but also reduce the overall demand for fossil fuels. This shift in transportation methods is vital for creating a more resilient energy landscape.Additionally, industries that prioritize fuel resistance (燃料抵抗力) contribute to economic stability. Businesses that invest in energy-efficient technologies and practices can lower their operational costs while simultaneously reducing their environmental footprint. For example, companies that adopt energy-saving measures in their production processes can achieve greater fuel resistance (燃料抵抗力), allowing them to thrive even in times of fuel scarcity or price volatility.On an individual level, consumers can also play a role in enhancing fuel resistance (燃料抵抗力). By making conscious choices about energy consumption, such as using public transportation, supporting local renewable energy projects, or investing in energy-efficient appliances, individuals contribute to a collective effort towards sustainability. Education and awareness campaigns can further empower people to understand the importance of fuel resistance (燃料抵抗力) and encourage them to adopt more sustainable practices in their daily lives.In conclusion, the concept of fuel resistance (燃料抵抗力) is multifaceted and critical in our pursuit of a sustainable future. As we confront the realities of climate change and resource depletion, embracing alternative energy sources, enhancing energy efficiency, and promoting responsible consumption are all essential strategies. By fostering a culture of fuel resistance (燃料抵抗力), we can create resilient systems that not only survive but thrive in the face of environmental challenges. It is imperative that governments, industries, and individuals work together to build a more sustainable world for future generations.

在当今世界，环境问题处于全球讨论的前沿，燃料抵抗力（fuel resistance）的概念变得愈加重要。这个术语指的是一个系统、材料或生物体抵御或适应燃料可用性和能源来源变化的能力。随着我们面临气候变化和化石燃料储备枯竭的挑战，理解和提高燃料抵抗力（fuel resistance）对于可持续发展至关重要。与燃料抵抗力（fuel resistance）相关的一个紧迫问题是对化石燃料的依赖。许多国家的经济建立在石油、煤炭和天然气的开采和消费之上。然而，随着这些资源变得越来越稀缺和昂贵，各国必须开发替代能源，以增强其燃料抵抗力（fuel resistance）。可再生能源技术如太阳能、风能和水电提供了有希望的解决方案，使社区能够减少对传统燃料的依赖。此外，燃料抵抗力（fuel resistance）的概念不仅限于能源生产。它还涵盖了交通和制造业中的能源效率。例如，电动车（EV）就是创新如何提高燃料抵抗力（fuel resistance）的一个典范。通过使用电力而不是汽油或柴油，电动车不仅减少温室气体排放，还降低了对化石燃料的整体需求。这种交通方式的转变对创建更具韧性的能源格局至关重要。此外，优先考虑燃料抵抗力（fuel resistance）的行业有助于经济稳定。投资于节能技术和实践的企业可以降低运营成本，同时减少其环境足迹。例如，采用节能措施的公司可以实现更大的燃料抵抗力（fuel resistance），使其即使在燃料稀缺或价格波动时也能蓬勃发展。在个人层面，消费者也可以在增强燃料抵抗力（fuel resistance）方面发挥作用。通过在能源消费中做出有意识的选择，例如使用公共交通、支持本地可再生能源项目或投资于节能电器，个人为可持续发展的集体努力做出贡献。教育和宣传活动可以进一步赋予人们理解燃料抵抗力（fuel resistance）重要性的能力，并鼓励他们在日常生活中采取更可持续的做法。总之，燃料抵抗力（fuel resistance）的概念是多方面的，在我们追求可持续未来的过程中至关重要。面对气候变化和资源枯竭的现实，拥抱替代能源、提高能源效率和促进负责任的消费都是必不可少的策略。通过培养燃料抵抗力（fuel resistance）的文化，我们可以创建不仅能够生存而且能够在环境挑战面前蓬勃发展的韧性系统。各国政府、行业和个人必须共同努力，为未来世代建设一个更可持续的世界。