combined nuclear and gas turbine

简明释义

核动力和燃气轮机联合

英英释义

例句

1.In the quest for sustainable energy, the combined nuclear and gas turbine 联合核能和燃气轮机 approach is gaining popularity.

在追求可持续能源的过程中，联合核能和燃气轮机 联合核能和燃气轮机方法正变得越来越受欢迎。

2.Investments in combined nuclear and gas turbine 联合核能和燃气轮机 facilities are expected to increase over the next decade.

预计在未来十年内对联合核能和燃气轮机 联合核能和燃气轮机设施的投资将增加。

3.The new power plant utilizes a state-of-the-art combined nuclear and gas turbine 联合核能和燃气轮机 system to maximize efficiency.

这座新电厂利用了一种最先进的联合核能和燃气轮机 联合核能和燃气轮机系统，以最大限度地提高效率。

4.Our latest research focuses on the optimization of combined nuclear and gas turbine 联合核能和燃气轮机 cycles for better performance.

我们最新的研究集中在优化联合核能和燃气轮机 联合核能和燃气轮机循环，以获得更好的性能。

5.The combined nuclear and gas turbine 联合核能和燃气轮机 technology promises to reduce carbon emissions significantly.

该联合核能和燃气轮机 联合核能和燃气轮机技术承诺显著减少碳排放。

作文

In the quest for sustainable energy solutions, the concept of a combined nuclear and gas turbine system has emerged as a promising alternative to traditional energy generation methods. This innovative approach integrates the high efficiency of nuclear power with the flexibility and quick response times of gas turbines. By leveraging both technologies, we can significantly reduce greenhouse gas emissions while meeting the growing demand for electricity. Nuclear energy is known for its ability to produce large amounts of electricity without releasing carbon dioxide during operation. However, it often faces challenges related to safety concerns, waste management, and the long lead times required for construction. On the other hand, gas turbines are capable of starting up quickly and providing power on demand, making them ideal for balancing supply and demand in the electricity grid. The combined nuclear and gas turbine system seeks to harness the strengths of both sources. In this configuration, the nuclear reactor provides a steady base load of electricity, while gas turbines can be used to ramp up production during peak demand periods. This synergy not only enhances the reliability of the power supply but also optimizes fuel usage, leading to lower operational costs. Furthermore, the integration of these two technologies allows for improved overall efficiency. The waste heat generated by the nuclear plant can be utilized to drive the gas turbines, thereby increasing the total amount of electricity produced from the same amount of fuel. This process, known as combined cycle generation, is particularly advantageous as it maximizes energy extraction from both nuclear and gas resources. Another significant benefit of a combined nuclear and gas turbine system is its potential to contribute to energy security. As countries strive to diversify their energy portfolios, combining different energy sources can mitigate the risks associated with over-reliance on a single technology or fuel type. This diversification not only enhances the resilience of the energy grid but also supports the transition to a low-carbon economy. However, the implementation of a combined nuclear and gas turbine system is not without its challenges. Public perception of nuclear energy remains a significant hurdle, as safety concerns and historical incidents have led to widespread apprehension. Additionally, regulatory frameworks must evolve to accommodate the complexities of integrating these technologies, ensuring that safety standards are upheld while promoting innovation. In conclusion, the combined nuclear and gas turbine system represents a forward-thinking solution to the pressing energy challenges of our time. By merging the reliability of nuclear power with the responsiveness of gas turbines, we can create a more efficient, sustainable, and secure energy future. As we continue to explore and invest in such innovative energy systems, we move closer to achieving a balanced and environmentally friendly energy landscape that benefits both current and future generations.

在追求可持续能源解决方案的过程中，组合核能和燃气轮机系统的概念作为传统能源生产方法的有希望的替代方案而出现。这种创新的方法将核能的高效率与燃气轮机的灵活性和快速响应时间相结合。通过利用这两种技术，我们可以显著减少温室气体排放，同时满足日益增长的电力需求。核能以其在运行过程中不释放二氧化碳而产生大量电力而闻名。然而，它常常面临与安全问题、废物管理以及建设所需的长时间周期有关的挑战。另一方面，燃气轮机能够快速启动并按需提供电力，使其成为平衡电网供需的理想选择。组合核能和燃气轮机系统旨在利用这两种来源的优势。在这种配置中，核反应堆提供稳定的基础负荷电力，而燃气轮机可以在高峰需求期间用于增加产量。这种协同作用不仅增强了电力供应的可靠性，还优化了燃料使用，从而降低了运营成本。此外，这两种技术的整合还允许提高整体效率。核电厂产生的废热可以用来驱动燃气轮机，从而增加从相同燃料量中产生的电力总量。这个过程被称为联合循环发电，特别有利，因为它最大限度地提高了从核能和天然气资源中提取的能源。组合核能和燃气轮机系统的另一个显著好处是其对能源安全的贡献。随着各国努力实现能源组合多样化，结合不同的能源来源可以减轻对单一技术或燃料类型的过度依赖所带来的风险。这种多样化不仅增强了能源网络的韧性，还支持向低碳经济的过渡。然而，实施组合核能和燃气轮机系统并非没有挑战。公众对核能的看法仍然是一个重要障碍，因为安全问题和历史事件导致广泛的担忧。此外，监管框架必须发展以适应这些技术整合的复杂性，确保在促进创新的同时维护安全标准。总之，组合核能和燃气轮机系统代表了我们时代紧迫能源挑战的前瞻性解决方案。通过将核能的可靠性与燃气轮机的响应能力相结合，我们可以创造一个更高效、可持续和安全的能源未来。当我们继续探索和投资于这样的创新能源系统时，我们就离实现一个平衡且环保的能源格局更近了一步，这将惠及当前和未来的几代人。