stored energy

简明释义

储能

英英释义

例句

1.In a solar panel system, sunlight is converted into stored energy 储存能量 in batteries.

在太阳能电池板系统中，阳光被转化为电池中的stored energy 储存能量。

2.Pumped storage hydroelectricity relies on stored energy 储存能量 from elevated water reservoirs.

抽水蓄能电站依赖于来自高位水库的stored energy 储存能量。

3.The battery stores electricity as stored energy 储存能量 for later use.

电池将电力作为stored energy 储存能量 储存以备后用。

4.The flywheel system uses kinetic energy as stored energy 储存能量 to maintain stability in power grids.

飞轮系统利用动能作为stored energy 储存能量 来维持电网的稳定性。

5.Hydropower plants convert the potential energy of water into stored energy 储存能量 that can be released to generate electricity.

水电站将水的势能转化为stored energy 储存能量，可以释放以发电。

作文

Energy is a fundamental concept in physics and plays a vital role in our daily lives. One of the most intriguing forms of energy is stored energy, which refers to energy that is not actively being used but is held in a system for future use. This type of energy can be found in various forms, such as potential energy in an elevated object or chemical energy in batteries. Understanding stored energy allows us to harness and utilize energy more efficiently, contributing to advancements in technology and sustainability.For instance, consider a simple example of a rock placed at the top of a hill. The rock possesses gravitational potential energy due to its height above the ground. If it were to roll down the hill, this stored energy would be converted into kinetic energy, which is the energy of motion. This transformation illustrates how stored energy can be released and utilized when conditions allow.In the realm of renewable energy, stored energy plays a crucial role in making sustainable practices viable. Solar panels, for example, capture sunlight and convert it into electrical energy during the day. However, to ensure that we have power when the sun isn't shining, this electrical energy must be stored. Batteries are commonly used for this purpose, storing the energy in a chemical form until it is needed. This process highlights the importance of stored energy in bridging the gap between energy production and consumption.Moreover, stored energy is not limited to mechanical and electrical systems; it is also present in biological systems. For example, plants convert sunlight into chemical energy through photosynthesis, storing it in the form of glucose. When animals consume plants, they access this stored energy to fuel their own biological processes. This interdependence showcases the significance of stored energy in maintaining ecological balance and supporting life on Earth.In addition to its natural occurrences, humans have engineered various methods to store energy for practical applications. Flywheels, for instance, store energy mechanically by spinning at high speeds. When energy is needed, the flywheel can release this stored energy to generate electricity. Similarly, pumped hydroelectric storage involves pumping water uphill to create potential energy, which can later be released to generate electricity when demand increases.The concept of stored energy also extends to everyday life. Consider a smartphone battery, which holds electrical energy that powers the device. When we charge our phones, we are replenishing the stored energy within the battery, enabling us to use the phone throughout the day. This convenience underscores how integral stored energy is to modern living.In conclusion, stored energy is a versatile and essential concept that permeates various aspects of science, technology, and nature. By understanding how stored energy works and finding innovative ways to harness it, we can improve energy efficiency and contribute to a more sustainable future. As we continue to explore and develop new technologies, the role of stored energy will undoubtedly remain a focal point in our quest for better energy solutions.

能量是物理学中的一个基本概念，在我们的日常生活中发挥着至关重要的作用。最引人入胜的能量形式之一是储存的能量，它指的是未被积极使用但在系统中为未来使用而保存的能量。这种类型的能量可以以多种形式存在，例如高处物体的势能或电池中的化学能。理解储存的能量使我们能够更有效地利用和利用能量，从而促进技术和可持续性的发展。例如，考虑一个简单的例子：一块放置在山顶的岩石。由于其高于地面的高度，这块岩石具有重力势能。如果它滚下山坡，这种储存的能量将转化为动能，即运动的能量。这种转化说明了储存的能量如何在条件允许时被释放和利用。在可再生能源领域，储存的能量在使可持续实践可行方面发挥着至关重要的作用。例如，太阳能电池板在白天捕获阳光并将其转化为电能。然而，为了确保在没有阳光时我们仍然有电力，这种电能必须被储存。电池通常用于此目的，以化学形式储存能量，直到需要时释放。这一过程突显了储存的能量在弥补能量生产与消费之间差距的重要性。此外，储存的能量不仅限于机械和电气系统；它也存在于生物系统中。例如，植物通过光合作用将阳光转化为化学能，以葡萄糖的形式储存。当动物食用植物时，它们可以获取这种储存的能量为自身的生物过程提供能量。这种相互依赖关系展示了储存的能量在维持生态平衡和支持地球生命方面的重要性。除了自然现象，人类还设计了各种方法来储存能量以供实际应用。例如，飞轮通过高速旋转机械地储存能量。当需要能量时，飞轮可以释放这种储存的能量来发电。类似地，抽水蓄能涉及将水泵送到高处以创造势能，可以在需求增加时释放以发电。储存的能量的概念还扩展到日常生活中。考虑智能手机电池，它储存电能为设备供电。当我们给手机充电时，我们是在补充电池内的储存的能量，使我们能够在一天中使用手机。这种便利性强调了储存的能量在现代生活中的重要性。总之，储存的能量是一个多功能且至关重要的概念，渗透到科学、技术和自然的各个方面。通过理解储存的能量的工作原理并寻找创新的方法来利用它，我们可以提高能量效率并为更可持续的未来做出贡献。随着我们继续探索和开发新技术，储存的能量的角色无疑将继续成为我们寻求更好能源解决方案的焦点。