discharge capacity

简明释义

流量

英英释义

例句

1.The battery's discharge capacity is crucial for determining how long it can power a device before needing a recharge.

电池的放电能力对于确定它在需要充电之前可以为设备供电多长时间至关重要。

2.Engineers measured the discharge capacity of the new capacitor to ensure it meets the required specifications.

工程师测量了新电容器的放电能力以确保其符合所需的规格。

3.The discharge capacity of the water reservoir affects the irrigation schedule for the nearby farms.

水库的放电能力影响附近农田的灌溉计划。

4.The team conducted tests to evaluate the discharge capacity of different battery models under various conditions.

团队进行了测试，以评估不同电池型号在各种条件下的放电能力。

5.In renewable energy systems, the discharge capacity of storage batteries plays a vital role in energy management.

在可再生能源系统中，储能电池的放电能力在能源管理中起着至关重要的作用。

作文

The concept of discharge capacity is crucial in various fields, especially in engineering and environmental science. It refers to the maximum amount of a substance that can be released or discharged from a system over a given period. Understanding discharge capacity is essential for designing efficient systems that manage resources effectively and minimize environmental impact. For instance, in water management, knowing the discharge capacity of a river helps engineers design dams and flood control systems to prevent overflow and ensure safe water levels.In the context of batteries, discharge capacity describes how much energy a battery can deliver before it needs recharging. This measurement is vital for consumers when choosing batteries for their devices, as it determines how long a device can function on a single charge. A higher discharge capacity means longer usage times, which is particularly important for portable electronics like smartphones and laptops.Furthermore, in the field of wastewater treatment, discharge capacity plays a significant role in determining how much treated water can be safely released into the environment. Treatment facilities must adhere to strict regulations regarding their discharge capacity to protect local ecosystems. If a facility exceeds its discharge capacity, it risks contaminating nearby water sources, which can have devastating effects on wildlife and human health.In addition to practical applications, understanding discharge capacity can also lead to innovations in technology. For example, researchers are continually looking for ways to improve the discharge capacity of batteries through new materials and designs. Innovations in this area could lead to significant advancements in electric vehicles, renewable energy storage, and portable electronic devices. As society moves towards more sustainable energy solutions, enhancing the discharge capacity of energy storage systems will be paramount.Moreover, in the context of public health, discharge capacity can refer to the ability of healthcare systems to handle patient loads. During health crises, such as pandemics, understanding the discharge capacity of hospitals becomes critical. It allows healthcare administrators to plan for resource allocation, staffing, and patient care protocols. By maximizing discharge capacity, hospitals can ensure that they provide adequate care without overwhelming their facilities.In conclusion, the term discharge capacity encompasses a wide range of applications across different sectors. Whether it pertains to environmental management, energy storage, or healthcare systems, understanding and optimizing discharge capacity is essential for improving efficiency and sustainability. As we face increasing challenges related to resource management and environmental protection, the importance of mastering concepts like discharge capacity will only continue to grow. By investing in research and development focused on enhancing discharge capacity, we can pave the way for a more sustainable future, ensuring that we use our resources wisely and responsibly.

“排放能力”这一概念在各个领域都至关重要，尤其是在工程和环境科学中。它指的是在给定时间内，从系统中释放或排放的物质的最大量。理解“排放能力”对于设计有效管理资源的系统并减少环境影响至关重要。例如，在水资源管理中，了解河流的“排放能力”有助于工程师设计大坝和防洪系统，以防止溢出并确保安全的水位。在电池的上下文中，“排放能力”描述了电池在需要充电之前可以提供多少能量。这个测量值对于消费者选择设备电池时非常重要，因为它决定了设备在一次充电后可以使用多久。更高的“排放能力”意味着更长的使用时间，这对智能手机和笔记本电脑等便携式电子设备尤其重要。此外，在废水处理领域，“排放能力”在确定可以安全释放到环境中的处理水量方面起着重要作用。处理设施必须遵循有关其“排放能力”的严格规定，以保护当地生态系统。如果设施超过其“排放能力”，就有可能污染附近的水源，这可能对野生动物和人类健康产生毁灭性影响。除了实际应用之外，理解“排放能力”还可以带来技术创新。例如，研究人员不断寻找通过新材料和设计来提高电池的“排放能力”的方法。这一领域的创新可能会导致电动汽车、可再生能源存储和便携式电子设备的重大进展。随着社会向更可持续的能源解决方案迈进，提高能源存储系统的“排放能力”将是至关重要的。此外，在公共卫生的背景下，“排放能力”可以指医疗系统处理患者负荷的能力。在健康危机期间，例如大流行，了解医院的“排放能力”变得至关重要。这使得医疗管理者能够进行资源分配、人员配置和患者护理协议的规划。通过最大化“排放能力”，医院可以确保提供足够的护理，而不至于使其设施不堪重负。总之，术语“排放能力”涵盖了不同部门广泛的应用。无论是涉及环境管理、能源存储还是医疗系统，理解和优化“排放能力”对于提高效率和可持续性至关重要。随着我们面临与资源管理和环境保护相关的挑战日益增加，掌握“排放能力”等概念的重要性只会继续增长。通过投资于专注于增强“排放能力”的研究和开发，我们可以为更可持续的未来铺平道路，确保明智和负责任地使用我们的资源。