nuclear battery

简明释义

原子能电池

英英释义

例句

1.The military has invested in nuclear battery technology for long-term field operations.

军方已投资于核电池技术，以支持长期的野外作战。

2.Unlike traditional batteries, a nuclear battery can operate continuously for many years.

与传统电池不同，核电池可以连续工作多年。

3.Researchers are exploring how a nuclear battery could be used in medical implants to reduce the need for surgeries.

研究人员正在探索如何在医疗植入物中使用核电池，以减少手术需求。

4.A nuclear battery could potentially power remote sensors in extreme environments for years.

一种核电池可以在极端环境中为遥感器提供多年的电力。

5.The new satellite uses a nuclear battery to power its systems for decades without needing maintenance.

这颗新卫星使用核电池为其系统提供数十年的动力，无需维护。

作文

In recent years, the concept of a nuclear battery has gained significant attention in the fields of energy and technology. A nuclear battery refers to a type of power source that utilizes the principles of nuclear decay to generate electricity. Unlike traditional batteries that rely on chemical reactions, nuclear batteries harness the energy released from radioactive isotopes. This innovative technology promises a long-lasting and efficient power supply, making it an exciting area of research and development.The primary advantage of a nuclear battery is its longevity. Traditional batteries have a limited lifespan, often requiring frequent replacements, which can be inconvenient and environmentally harmful. In contrast, nuclear batteries can last for many years, even decades, without needing to be replaced. For example, some prototypes have shown the capability to operate for over 20 years without any significant loss of power. This characteristic makes nuclear batteries particularly suitable for applications where changing batteries is impractical, such as in space exploration or remote sensing devices.Moreover, nuclear batteries have the potential to provide a stable and continuous power supply. They are not affected by temperature fluctuations or other environmental conditions that typically impact the performance of conventional batteries. This stability is crucial for critical applications, such as medical devices or military equipment, where reliability is paramount.However, despite their advantages, the use of nuclear batteries raises several concerns, primarily related to safety and public perception. The term 'nuclear' often evokes fears associated with radiation and nuclear accidents. Therefore, it is essential for researchers and developers to address these concerns by ensuring that nuclear batteries are designed with robust safety measures. For instance, modern designs aim to encapsulate radioactive materials in secure containers that prevent any leakage of radiation, thereby minimizing health risks.Additionally, the regulatory landscape surrounding nuclear batteries is complex. Governments worldwide have strict regulations regarding the handling and disposal of radioactive materials. As a result, developers must navigate these regulations carefully to bring nuclear batteries to market. Collaboration with regulatory bodies can help ensure that these technologies are safe and compliant with existing laws.Looking ahead, the future of nuclear batteries appears promising. Researchers are continually exploring new materials and designs to enhance the efficiency and safety of these power sources. For instance, advancements in nanotechnology may lead to smaller and more effective nuclear batteries, making them even more versatile for various applications.In conclusion, the emergence of nuclear batteries represents a significant advancement in energy technology. With their potential for longevity, stability, and efficiency, they could revolutionize how we think about power sources. However, addressing safety concerns and navigating regulatory challenges will be crucial for their successful integration into the market. As research continues and public understanding improves, nuclear batteries may become a commonplace solution for our energy needs, paving the way for a more sustainable future.

近年来，核电池的概念在能源和技术领域引起了显著关注。核电池指的是一种利用核衰变原理来发电的电源类型。与依赖化学反应的传统电池不同，核电池利用放射性同位素释放的能量。这项创新技术承诺提供持久且高效的电力供应，使其成为一个令人兴奋的研究和开发领域。核电池的主要优势在于其持久性。传统电池的使用寿命有限，通常需要频繁更换，这可能带来不便并对环境造成危害。相比之下，核电池可以在多年甚至数十年内无需更换。例如，一些原型显示出在没有显著功率损失的情况下运行超过20年的能力。这一特性使得核电池特别适合那些更换电池不切实际的应用，如太空探索或远程传感设备。此外，核电池有潜力提供稳定和持续的电力供应。它们不受温度波动或其他环境条件的影响，而这些因素通常会影响传统电池的性能。这种稳定性对于医疗设备或军事装备等关键应用至关重要，在这些情况下，可靠性是最重要的。然而，尽管有其优势，使用核电池仍然引发了一些担忧，主要与安全性和公众认知有关。“核”这个词常常引发与辐射和核事故相关的恐惧。因此，研究人员和开发者必须通过确保核电池的设计具有强大的安全措施来解决这些问题。例如，现代设计旨在将放射性材料封装在安全容器中，以防止任何辐射泄漏，从而最大程度地减少健康风险。此外，围绕核电池的监管环境也很复杂。世界各国政府对放射性材料的处理和处置有严格的规定。因此，开发者必须仔细遵循这些规定，以将核电池推向市场。与监管机构的合作可以帮助确保这些技术安全且符合现有法律。展望未来，核电池的前景看起来很有希望。研究人员不断探索新材料和设计，以提高这些电源的效率和安全性。例如，纳米技术的进步可能导致更小、更有效的核电池，使其在各种应用中更加多样化。总之，核电池的出现代表了能源技术的一项重大进步。凭借其持久性、稳定性和高效性，它们可能会彻底改变我们对电源的思考。然而，解决安全问题和应对监管挑战对其成功融入市场至关重要。随着研究的持续和公众理解的提高，核电池可能会成为我们能源需求的普遍解决方案，为更可持续的未来铺平道路。