ship reactor

简明释义

船用反应堆

英英释义

A ship reactor is a nuclear reactor specifically designed to provide power for naval vessels, such as submarines and aircraft carriers, enabling them to operate without the need for refueling during their missions.

船舶反应堆是专门为海军舰艇(如潜艇和航空母舰)设计的核反应堆,使其能够在任务期间无需加油而运行。

例句

1.The company invested heavily in research to develop a more efficient ship reactor 船舶反应堆 design.

公司在研发上投入大量资金,以开发更高效的ship reactor船舶反应堆设计。

2.During the maintenance check, they found that the ship reactor 船舶反应堆 was functioning optimally.

在维护检查中,他们发现ship reactor船舶反应堆运作良好。

3.The ship reactor 船舶反应堆 plays a crucial role in powering the vessel during long voyages.

在长途航行中,ship reactor船舶反应堆在为船只提供动力方面起着至关重要的作用。

4.Safety protocols were updated after the incident involving the ship reactor 船舶反应堆 last year.

在去年的ship reactor船舶反应堆事件后,安全协议得到了更新。

5.The engineering team decided to install the new ship reactor 船舶反应堆 to improve energy efficiency.

工程团队决定安装新的ship reactor船舶反应堆以提高能效。

作文

In the realm of modern maritime engineering, the term ship reactor refers to a type of nuclear reactor specifically designed for use in naval vessels. These reactors are crucial for powering submarines and aircraft carriers, providing them with a virtually unlimited range and endurance compared to conventional fuel systems. The development of ship reactors has revolutionized naval operations, allowing vessels to remain submerged for extended periods without the need for refueling. This capability not only enhances the strategic advantage of a navy but also ensures that missions can be carried out with greater stealth and efficiency.The design of a ship reactor is unique compared to land-based reactors. Due to space constraints and the need for robust safety measures, these reactors are often compact and heavily shielded. Engineers must ensure that the reactor can withstand harsh marine environments, including high pressures and corrosive seawater. Moreover, the safety protocols surrounding ship reactors are stringent, as any malfunction could have catastrophic consequences, not just for the crew but also for the environment.One of the most significant advantages of ship reactors is their ability to provide a continuous power supply. Unlike traditional ships that rely on diesel engines, which require regular refueling, a nuclear-powered vessel can operate for years without needing to stop for fuel. This independence from fuel logistics allows navies to deploy their forces more flexibly and respond rapidly to emerging threats.However, the use of ship reactors is not without controversy. The potential risks associated with nuclear power, such as radiation exposure and the management of nuclear waste, raise concerns among environmentalists and the general public. Incidents involving nuclear submarines, such as the sinking of the Soviet submarine K-219 in 1986, highlight the dangers that can arise from accidents involving ship reactors. As a result, there is ongoing debate about the future of nuclear propulsion in naval applications.Additionally, the geopolitical implications of ship reactors cannot be overlooked. Countries that possess advanced nuclear technology can gain a significant military edge over their adversaries. This reality has led to an arms race in nuclear-powered naval vessels, with many nations investing heavily in developing their own ship reactors. The proliferation of this technology raises questions about global security and the potential for nuclear conflict.In conclusion, the concept of the ship reactor embodies both the remarkable advancements in engineering and the complex challenges posed by nuclear technology. While they offer unparalleled advantages in terms of power and operational capabilities for naval forces, the associated risks and ethical considerations remain critical issues that warrant careful consideration. As we move forward, it is essential to strike a balance between harnessing the benefits of ship reactors and ensuring the safety and security of our oceans and the planet as a whole.

在现代海洋工程领域,术语船舶反应堆指的是专为海军舰艇设计的一种核反应堆。这些反应堆对于为潜艇和航空母舰提供动力至关重要,相比传统燃料系统,它们提供了几乎无限的航程和耐力。船舶反应堆的发展彻底改变了海军作战,允许舰艇在不需要加油的情况下长时间潜水。这种能力不仅增强了海军的战略优势,还确保了任务可以以更大的隐蔽性和效率进行。与陆基反应堆相比,船舶反应堆的设计是独特的。由于空间限制和对强大安全措施的需求,这些反应堆通常是紧凑型且重型屏蔽的。工程师必须确保反应堆能够承受恶劣的海洋环境,包括高压和腐蚀性的海水。此外,围绕船舶反应堆的安全协议非常严格,因为任何故障都可能对船员和环境造成灾难性的后果。船舶反应堆最显著的优势之一是其提供持续电源的能力。与依赖柴油发动机的传统船只需要定期加油不同,核动力舰艇可以在多年内无需停靠加油。这种对燃料物流的独立性使海军能够更灵活地部署其力量,并迅速应对新出现的威胁。然而,使用船舶反应堆并非没有争议。与核能相关的潜在风险,例如辐射暴露和核废料管理,引发了环保人士和公众的担忧。涉及核潜艇的事故,例如1986年苏联潜艇K-219的沉没,突显了与船舶反应堆相关的事故可能带来的危险。因此,关于海军应用中核动力的未来仍存在持续的辩论。此外,船舶反应堆的地缘政治影响也不容忽视。拥有先进核技术的国家可以在军事上获得显著的优势。这一现实导致全球核动力舰艇的军备竞赛,许多国家在开发自己的船舶反应堆方面投入巨资。这种技术的扩散引发了关于全球安全和核冲突潜力的问题。总之,船舶反应堆的概念体现了工程学的显著进步和核技术所带来的复杂挑战。虽然它们在海军力量的动力和操作能力方面提供了无与伦比的优势,但相关的风险和伦理考量仍然是需要认真对待的重要问题。在未来,我们必须在利用船舶反应堆的好处与确保我们的海洋和整个星球的安全之间取得平衡。