nuclear battery

简明释义

原子电池

英英释义

例句

1.Unlike conventional batteries, a nuclear battery can last for years without needing to be recharged.

与传统电池不同，核电池可以在不需要充电的情况下持续多年。

2.The deep space probe is equipped with a nuclear battery to ensure it has a reliable power source.

这艘深空探测器配备了核电池，以确保其有可靠的电源。

3.A nuclear battery can generate power from radioactive decay, making it ideal for remote sensors.

核电池能够从放射性衰变中产生能量，非常适合用于远程传感器。

4.Researchers are exploring the use of nuclear batteries in medical implants for long-term energy supply.

研究人员正在探索在医疗植入物中使用核电池以提供长期能量供应。

5.The new satellite was powered by a nuclear battery, allowing it to operate for decades without maintenance.

这颗新卫星由核电池供电，使其能够在不需要维护的情况下运行数十年。

作文

In recent years, the quest for sustainable energy sources has led to innovative technologies that promise to change the way we power our devices. One such innovation is the nuclear battery, a device that harnesses the power of radioactive decay to generate electricity. Unlike traditional batteries that rely on chemical reactions, nuclear batteries utilize the energy released from the decay of radioactive isotopes, making them an incredibly efficient and long-lasting power source.The concept of nuclear batteries is not entirely new; it has been in development since the mid-20th century. However, advancements in technology have made it possible to create smaller and more efficient models suitable for various applications. These batteries are especially valuable in situations where replacing a conventional battery would be impractical, such as in space missions or remote sensors. For instance, NASA has used nuclear batteries in spacecraft, allowing them to operate for decades without the need for maintenance or replacement.One of the most significant advantages of nuclear batteries is their longevity. While traditional batteries may last a few hours to several years, depending on usage, nuclear batteries can function for many years, sometimes even decades. This long lifespan is particularly beneficial in applications like medical implants, where changing a battery can pose risks to the patient. By using a nuclear battery, medical devices can remain operational for extended periods, reducing the need for surgical procedures to replace batteries.Despite their advantages, nuclear batteries are not without their challenges. The primary concern surrounding these devices is safety. The use of radioactive materials necessitates stringent safety measures to prevent exposure to radiation. Researchers are continuously working on improving the safety protocols associated with nuclear batteries to ensure that they can be used widely without posing a risk to human health or the environment.Another challenge is the public perception of nuclear technology. Many people associate nuclear energy with disasters and negative environmental impacts, which can lead to resistance against adopting nuclear batteries. Education and awareness campaigns are crucial in addressing these misconceptions and highlighting the safety and efficiency of nuclear batteries compared to conventional energy sources.In conclusion, the development of nuclear batteries represents a promising advancement in energy technology. Their ability to provide long-lasting power makes them ideal for various applications, from space exploration to medical devices. While challenges remain, particularly concerning safety and public perception, ongoing research and development will likely pave the way for broader acceptance and utilization of nuclear batteries in the future. As we continue to seek sustainable energy solutions, nuclear batteries could play a pivotal role in powering the next generation of technology and devices.

近年来，寻找可持续能源的努力催生了创新技术，这些技术有望改变我们为设备供电的方式。其中一种创新是核电池，它利用放射性衰变的能量来产生电力。与传统依赖化学反应的电池不同，核电池利用放射性同位素衰变释放的能量，使其成为一种极其高效且持久的电源。核电池的概念并不是全新的；自20世纪中叶以来，它一直在发展。然而，技术的进步使得创造出更小、更高效的型号成为可能，适用于各种应用。这些电池在更换传统电池不切实际的情况下尤其有价值，例如在太空任务或远程传感器中。例如，NASA在航天器中使用了核电池，使它们能够在没有维护或更换的情况下运行数十年。核电池最显著的优势之一是其耐用性。虽然传统电池的使用寿命可能从几小时到几年不等，但核电池可以工作多年，有时甚至数十年。这种长寿命在医疗植入物等应用中尤其有利，因为更换电池可能会对患者构成风险。通过使用核电池，医疗设备可以在延长的时间内保持正常运作，减少了更换电池所需的外科手术。尽管有优势，核电池也面临挑战。围绕这些设备的主要问题是安全性。使用放射性材料需要严格的安全措施，以防止辐射暴露。研究人员不断致力于改善与核电池相关的安全协议，以确保它们能够广泛使用，而不会对人类健康或环境构成风险。另一个挑战是公众对核技术的看法。许多人将核能与灾难和负面的环境影响联系在一起，这可能导致对采用核电池的抵制。教育和宣传活动对于解决这些误解至关重要，并强调与传统能源相比，核电池的安全性和效率。总之，核电池的发展代表了能源技术的一项有希望的进展。它们提供持久的电力，使其理想用于从太空探索到医疗设备的各种应用。尽管仍然存在挑战，特别是在安全性和公众认知方面，但持续的研究和开发可能会为核电池的更广泛接受和利用铺平道路。当我们继续寻求可持续能源解决方案时，核电池可能在为下一代技术和设备供电方面发挥关键作用。