discharge rate
简明释义
放电率
英英释义
例句
1.Monitoring the discharge rate of a water reservoir helps manage water resources effectively.
监测水库的放电率有助于有效管理水资源。
2.Engineers must consider the discharge rate when designing renewable energy systems.
工程师在设计可再生能源系统时必须考虑放电率。
3.The discharge rate of a capacitor affects its performance in electronic circuits.
电容器的放电率影响其在电子电路中的性能。
4.A higher discharge rate means the battery will deplete faster under heavy usage.
更高的放电率意味着电池在重度使用下会更快耗尽。
5.The battery's discharge rate is crucial for determining how long it can power a device.
电池的放电率对于确定它能为设备供电多长时间至关重要。
作文
The concept of discharge rate refers to the speed at which a substance, such as water, electricity, or even a medical fluid, is released from a system. This term is particularly important in various fields, including hydrology, electrical engineering, and medicine. Understanding the discharge rate can help professionals make informed decisions regarding resource management, safety protocols, and operational efficiency.In hydrology, the discharge rate is a critical measurement that indicates the volume of water flowing through a river or stream per unit of time. It is usually expressed in cubic meters per second (m³/s). For instance, when assessing the health of an ecosystem, scientists monitor the discharge rate to ensure that aquatic habitats receive adequate water flow. A consistent discharge rate is essential for maintaining the balance of the environment, as it affects everything from fish populations to plant growth.In the realm of electrical engineering, the discharge rate is often used to describe how quickly a capacitor releases its stored energy. This is crucial in designing circuits for various applications, such as power supplies and signal processing. Engineers must calculate the appropriate discharge rate to ensure that devices operate efficiently and safely. If the discharge rate is too high, it may lead to circuit failure or damage to components; conversely, if it is too low, the device may not function correctly.In the medical field, the discharge rate can refer to the speed at which fluids are administered or removed from a patient's body. For example, during dialysis treatment, healthcare providers monitor the discharge rate of the dialysis solution to ensure that patients receive the correct dosage over a specified period. An inappropriate discharge rate could lead to complications, such as fluid overload or inadequate treatment, highlighting the importance of precise measurements in patient care.Moreover, the discharge rate has implications beyond just technical definitions; it plays a significant role in environmental sustainability and conservation efforts. For example, understanding the discharge rate of rivers can inform policies aimed at protecting water resources and managing flood risks. By analyzing historical data on discharge rate, researchers can predict potential flooding events and implement preventive measures to safeguard communities.In conclusion, the discharge rate is a multifaceted concept that transcends various disciplines. Whether in hydrology, electrical engineering, or medicine, grasping the significance of the discharge rate enables professionals to optimize their practices and enhance outcomes. As we continue to face challenges related to resource management and environmental conservation, a deeper understanding of the discharge rate will be vital in shaping effective strategies for the future.
“排放率”这一概念是指一种物质(如水、电或医疗液体)从系统中释放的速度。这个术语在多个领域中都特别重要,包括水文学、电气工程和医学。理解“排放率”可以帮助专业人士在资源管理、安全协议和操作效率方面做出明智的决策。在水文学中,“排放率”是一个关键的测量指标,表示每单位时间内流经河流或溪流的水量。通常以每秒立方米(m³/s)表示。例如,在评估生态系统健康时,科学家监测“排放率”,以确保水生栖息地获得足够的水流。稳定的“排放率”对于维持环境的平衡至关重要,因为它影响从鱼类种群到植物生长的方方面面。在电气工程领域,“排放率”通常用于描述电容器释放储存能量的速度。这在设计各种应用电路(如电源和信号处理)时至关重要。工程师必须计算适当的“排放率”,以确保设备高效安全地运行。如果“排放率”过高,可能会导致电路故障或组件损坏;相反,如果过低,设备可能无法正常工作。在医学领域,“排放率”可以指液体在患者体内施用或移除的速度。例如,在透析治疗过程中,医疗提供者监测透析溶液的“排放率”,以确保患者在特定时间内获得正确剂量。不适当的“排放率”可能导致并发症,如液体超负荷或治疗不足,突显了在患者护理中精确测量的重要性。此外,“排放率”在环境可持续性和保护工作中也具有深远的影响。例如,了解河流的“排放率”可以为保护水资源和管理洪水风险的政策提供信息。通过分析历史数据,研究人员可以预测潜在的洪水事件,并实施预防措施,以保护社区。总之,“排放率”是一个多方面的概念,跨越多个学科。无论是在水文学、电气工程还是医学中,掌握“排放率”的重要性使专业人士能够优化实践并改善结果。随着我们继续面临与资源管理和环境保护相关的挑战,更深入地理解“排放率”将对制定有效的未来战略至关重要。
