non-firm power

简明释义

备用功率备用电力

英英释义

例句

1.Investing in non-firm power can help diversify our energy portfolio.

投资于非固定电力可以帮助我们多样化能源组合。

2.Businesses that operate during off-peak hours can benefit from non-firm power contracts.

在非高峰时段运营的企业可以从非固定电力合同中受益。

3.During peak demand, we rely on non-firm power sources to meet our energy needs.

在高峰需求期间，我们依赖非固定电力来源来满足我们的能源需求。

4.The utility company offers non-firm power to customers who can adjust their usage based on availability.

电力公司向能够根据可用性调整用电的客户提供非固定电力。

5.Wind and solar are often classified as non-firm power due to their variable nature.

由于风能和太阳能的可变特性，它们通常被归类为非固定电力。

作文

In the realm of energy production and distribution, the term non-firm power refers to a type of electricity generation that does not guarantee a constant supply. Unlike firm power, which is reliable and can be counted on to meet demand consistently, non-firm power is characterized by its variability and unpredictability. This concept is particularly relevant in the context of renewable energy sources such as solar and wind power, where generation is dependent on weather conditions and time of day.The increasing reliance on renewable energy has brought the issue of non-firm power to the forefront of energy discussions. As countries aim to reduce their carbon footprints and transition to more sustainable energy systems, they often turn to these renewable sources. However, the inherent intermittency of resources like sunlight and wind means that energy produced is not always available when it is needed most. This creates challenges for grid operators who must balance supply and demand in real-time.One way to address the challenges posed by non-firm power is through the development of energy storage technologies. Batteries and other storage solutions can capture excess energy produced during peak generation times and release it when demand is high. This capability helps to smooth out the fluctuations associated with non-firm power, making it a more viable option for meeting energy needs. Additionally, advancements in smart grid technology allow for better integration of non-firm power into the existing energy infrastructure, enabling more efficient management of resources.Another important aspect of non-firm power is its economic implications. While renewable sources can often have lower operational costs, the need for backup generation or storage solutions can increase overall expenses. Policymakers and energy planners must consider these factors when designing incentives and regulations for renewable energy projects. This includes recognizing the value of non-firm power in reducing greenhouse gas emissions and promoting energy independence, even if it comes with added complexities.Furthermore, public perception plays a crucial role in the acceptance of non-firm power. As communities become more aware of the benefits of renewable energy, there is a growing demand for cleaner, sustainable options. Educational initiatives that explain how non-firm power fits into the larger energy landscape can help alleviate concerns about reliability and encourage more widespread adoption.In conclusion, non-firm power represents a significant component of the transition to a more sustainable energy future. While it poses certain challenges due to its intermittent nature, ongoing advancements in technology and changing public attitudes are paving the way for greater integration of renewable energy sources. By embracing non-firm power and developing strategies to manage its variability, society can move closer to achieving its energy goals while minimizing environmental impact.

在能源生产和分配领域，术语非固定电力指的是一种不保证持续供电的电力生成类型。与可以可靠地满足需求的固定电力不同，非固定电力的特点是其可变性和不可预测性。这个概念在可再生能源源的背景下尤为相关，例如太阳能和风能，因为这些资源的生成依赖于天气条件和白天时间。对可再生能源的日益依赖将非固定电力的问题推到了能源讨论的前沿。当各国旨在减少碳足迹并过渡到更可持续的能源系统时，通常会转向这些可再生资源。然而，像阳光和风这样的资源固有的不稳定性意味着所产生的能源并不总是在最需要的时候可用。这给电网运营商带来了挑战，他们必须实时平衡供需。解决非固定电力带来的挑战的一种方法是开发能源存储技术。电池和其他存储解决方案可以在峰值发电时捕获多余的能源，并在需求高峰时释放出来。这种能力有助于平滑与非固定电力相关的波动，使其成为满足能源需求的更可行的选择。此外，智能电网技术的进步使得更好地将非固定电力整合到现有能源基础设施中成为可能，从而实现更高效的资源管理。非固定电力的另一个重要方面是其经济影响。虽然可再生资源的运营成本通常较低，但对备用发电或存储解决方案的需求可能会增加整体费用。政策制定者和能源规划者在设计可再生能源项目的激励措施和法规时，必须考虑这些因素。这包括认识到非固定电力在减少温室气体排放和促进能源独立方面的价值，即使这带来了额外的复杂性。此外，公众认知在接受非固定电力方面也发挥着至关重要的作用。随着社区对可再生能源益处的了解加深，对更清洁、可持续选项的需求正在增长。解释非固定电力如何融入更大能源格局的教育举措可以帮助缓解对可靠性的担忧，并鼓励更广泛的采用。总之，非固定电力代表了向更可持续的能源未来过渡的重要组成部分。尽管由于其间歇性特征带来了一定的挑战，但技术的不断进步和公众态度的变化正在为更大程度地整合可再生能源铺平道路。通过拥抱非固定电力并制定管理其可变性的策略，社会可以更接近实现其能源目标，同时最小化对环境的影响。