power plant maneuverability

简明释义

动力装置机动性

英英释义

例句

1.Operators were trained to maximize the power plant maneuverability 发电厂机动性 during peak demand hours.

操作员接受培训，以最大化高峰需求时段的power plant maneuverability 发电厂机动性。

2.The new design enhances the power plant maneuverability 发电厂机动性 in adverse weather conditions.

新设计增强了在恶劣天气条件下的power plant maneuverability 发电厂机动性。

3.Improving power plant maneuverability 发电厂机动性 can lead to more efficient energy distribution.

提高power plant maneuverability 发电厂机动性可以导致更高效的能源分配。

4.Regulatory changes have prompted discussions on improving power plant maneuverability 发电厂机动性 standards.

监管变化促使人们讨论改善power plant maneuverability 发电厂机动性标准。

5.The engineers conducted tests to assess the power plant maneuverability 发电厂机动性 during emergency shutdowns.

工程师进行了测试，以评估在紧急停机期间的power plant maneuverability 发电厂机动性。

作文

In the modern world, energy production is a crucial component of economic development and sustainability. Among various sources of energy, power plants play a significant role in generating electricity that powers our homes, industries, and transportation systems. However, as the demand for energy continues to grow, the concept of power plant maneuverability becomes increasingly important. This term refers to the ability of a power plant to adjust its operations efficiently in response to fluctuations in energy demand and supply conditions. Understanding and improving power plant maneuverability can lead to more reliable and flexible energy systems.One of the primary challenges faced by power plants today is the integration of renewable energy sources such as solar and wind power. These sources are inherently variable, producing energy depending on weather conditions and time of day. As a result, traditional power plants must be able to quickly ramp up or down their output to maintain a stable supply of electricity. This is where power plant maneuverability comes into play. A highly maneuverable power plant can respond swiftly to changes in energy generation from renewables, ensuring that there is always enough electricity to meet demand.Moreover, enhancing power plant maneuverability can contribute to reducing greenhouse gas emissions. When power plants can operate more flexibly, they are less reliant on fossil fuels during peak demand periods. Instead, they can utilize cleaner energy sources, thereby minimizing their carbon footprint. This transition is essential for combating climate change and promoting sustainable development.To improve power plant maneuverability, several strategies can be employed. First, investing in advanced technologies such as energy storage systems can significantly enhance a power plant's ability to manage fluctuations in energy supply and demand. For instance, battery storage can store excess energy generated during low-demand periods and release it when demand surges. Additionally, implementing smart grid technologies allows for better communication between power plants and consumers, enabling real-time adjustments to energy production.Furthermore, operational practices can also be optimized to increase power plant maneuverability. Training personnel to respond quickly to changing conditions, along with developing robust contingency plans, can ensure that power plants remain agile in the face of unexpected challenges. Regular maintenance and upgrades of equipment will also contribute to a plant's overall responsiveness and efficiency.In conclusion, the concept of power plant maneuverability is vital for creating a resilient and sustainable energy infrastructure. As we continue to embrace renewable energy sources, the ability of power plants to adapt to changing demands will determine the reliability of our electricity supply. By investing in technology, optimizing operations, and fostering a culture of flexibility, we can enhance power plant maneuverability and pave the way for a cleaner and more sustainable future. The transition towards a more maneuverable energy system is not just beneficial; it is essential for addressing the pressing challenges of our time, including climate change and energy security.

在现代世界中，能源生产是经济发展和可持续性的关键组成部分。在各种能源来源中，电厂在发电方面发挥着重要作用，为我们的家庭、工业和交通系统提供电力。然而，随着对能源需求的不断增长，“电厂机动性”这一概念变得愈发重要。这个术语指的是电厂在应对能源需求和供应条件波动时有效调整其操作的能力。理解和改善电厂机动性可以导致更可靠和灵活的能源系统。当今电厂面临的主要挑战之一是可再生能源（如太阳能和风能）的整合。这些能源本质上是可变的，依赖于天气条件和时间段来产生能量。因此，传统电厂必须能够快速提高或降低其输出，以维持电力供应的稳定。这就是电厂机动性发挥作用的地方。一座高度机动的电厂可以迅速响应可再生能源的发电变化，确保始终有足够的电力满足需求。此外，增强电厂机动性还有助于减少温室气体排放。当电厂能够更灵活地运行时，它们在高峰需求期间对化石燃料的依赖就会减少。相反，它们可以利用更清洁的能源，从而最小化其碳足迹。这一转变对于应对气候变化和促进可持续发展至关重要。为了提高电厂机动性，可以采取几种策略。首先，投资先进技术，如能源存储系统，可以显著增强电厂管理能源供需波动的能力。例如，电池存储可以在低需求期间存储多余的能量，并在需求激增时释放。此外，实施智能电网技术可以改善电厂与消费者之间的沟通，使其能够实时调整能源生产。此外，优化操作实践也可以提高电厂机动性。培训人员快速响应变化条件，以及制定稳健的应急计划，可以确保电厂在面对意外挑战时保持灵活性。定期维护和升级设备也将有助于提高电厂的整体响应能力和效率。总之，电厂机动性的概念对于创建一个有韧性和可持续的能源基础设施至关重要。随着我们继续拥抱可再生能源，电厂适应变化需求的能力将决定我们电力供应的可靠性。通过投资技术、优化操作以及培养灵活性的文化，我们可以增强电厂机动性，为一个更清洁、更可持续的未来铺平道路。向更具机动性的能源系统的过渡不仅是有益的；它对于应对我们时代的紧迫挑战，包括气候变化和能源安全，是必不可少的。