loss factor

简明释义

损失率

英英释义

例句

1.To improve the system design, we need to reduce the loss factor significantly.

为了改善系统设计，我们需要显著降低损耗因子。

2.The engineer calculated the loss factor to determine the efficiency of the power transmission system.

工程师计算了损耗因子以确定电力传输系统的效率。

3.In HVAC systems, the loss factor helps in estimating energy losses due to ductwork.

在暖通空调系统中，损耗因子有助于估算由于管道造成的能量损失。

4.The loss factor for this transformer is critical for ensuring optimal operation.

该变压器的损耗因子对于确保最佳运行至关重要。

5.A lower loss factor indicates better performance in the electrical circuit.

较低的损耗因子表示电路性能更好。

作文

In the realm of engineering and physics, the concept of loss factor plays a crucial role in understanding how energy is dissipated in various systems. The loss factor refers to the measure of energy loss that occurs when energy is transmitted through a medium or system. This can include losses due to heat, friction, or any other form of energy dissipation that prevents the system from operating at its maximum efficiency. Understanding the loss factor is essential for engineers and designers as it directly impacts the performance and reliability of their designs.For instance, consider an electrical circuit where the loss factor indicates how much energy is lost due to resistance in the wires. If the loss factor is high, it means that a significant portion of the energy is converted into heat rather than being used to power devices. This not only reduces the efficiency of the system but also can lead to overheating, which might cause damage to components or even pose safety risks.In the context of mechanical systems, the loss factor can be observed in machines where moving parts experience friction. The energy lost to friction is a critical consideration in the design of engines, gears, and other mechanical components. Engineers strive to minimize the loss factor by selecting appropriate materials, implementing lubrication, and optimizing designs to reduce frictional forces.Moreover, the loss factor also has implications in the field of acoustics. When sound waves travel through different mediums, some energy is inevitably lost due to absorption and scattering. In architectural acoustics, understanding the loss factor of materials used in construction can help designers create spaces with better sound quality by reducing unwanted noise and enhancing clarity.The importance of the loss factor extends beyond engineering into environmental considerations as well. For example, in renewable energy systems such as solar panels, the loss factor can indicate how much sunlight is converted into usable electricity versus how much is lost as heat or reflection. By improving the loss factor, we can enhance the efficiency of these systems, making them more viable alternatives to fossil fuels.In conclusion, the loss factor is a fundamental concept that permeates various fields of study and application. Whether in electrical circuits, mechanical systems, acoustics, or renewable energy, understanding and managing the loss factor is essential for optimizing performance and ensuring the longevity of systems. As technology advances, the ability to minimize the loss factor will continue to be a key focus for engineers and scientists alike, leading to more efficient and sustainable solutions for our modern world.

在工程和物理学领域，loss factor的概念在理解能量在各种系统中如何散失方面起着关键作用。loss factor指的是在能量通过介质或系统传输时发生的能量损失的度量。这可以包括由于热量、摩擦或任何其他形式的能量散失而导致的损失，这些损失阻止了系统以最大效率运行。理解loss factor对工程师和设计师至关重要，因为它直接影响到他们设计的性能和可靠性。例如，考虑一个电路，其中loss factor表示由于电线中的电阻而损失的能量。如果loss factor很高，这意味着相当大一部分能量转化为热量，而不是用于驱动设备。这不仅降低了系统的效率，而且可能导致过热，从而可能对组件造成损害甚至构成安全风险。在机械系统的背景下，可以在机器中观察到loss factor，其中运动部件经历摩擦。损失在摩擦中的能量是发动机、齿轮和其他机械部件设计中的关键考虑因素。工程师努力通过选择适当的材料、实施润滑和优化设计来减少摩擦力，从而最小化loss factor。此外，loss factor在声学领域也有影响。当声波通过不同介质传播时，某些能量不可避免地由于吸收和散射而损失。在建筑声学中，理解所用材料的loss factor可以帮助设计师创造出更好的声音质量空间，通过减少不必要的噪音和增强清晰度。loss factor的重要性还超越了工程，涉及环境考量。例如，在可再生能源系统（如太阳能电池板）中，loss factor可以指示多少阳光被转化为可用电力，以及多少作为热量或反射而损失。通过改善loss factor，我们可以提高这些系统的效率，使其成为化石燃料的更可行替代品。总之，loss factor是一个基本概念，渗透到各个研究和应用领域。无论是在电路、电气系统、声学还是可再生能源中，理解和管理loss factor对于优化性能和确保系统的长寿至关重要。随着技术的发展，最小化loss factor的能力将继续成为工程师和科学家们的重点关注，推动我们现代世界更高效和可持续的解决方案。