conversion loss

简明释义

变换损耗

英英释义

例句

1.To achieve better performance, we need to address the sources of conversion loss 转换损失 in our design.

为了实现更好的性能，我们需要解决设计中转换损失的来源。

2.Engineers are focused on minimizing conversion loss 转换损失 in renewable energy systems to improve efficiency.

工程师们专注于最小化可再生能源系统中的转换损失以提高效率。

3.In RF systems, high conversion loss 转换损失 can lead to poor signal quality.

在射频系统中，高转换损失可能导致信号质量差。

4.The new amplifier design significantly reduced the conversion loss 转换损失 during signal processing.

新的放大器设计显著减少了在信号处理过程中发生的转换损失。

5.The report highlighted the effects of conversion loss 转换损失 on overall system performance.

报告强调了转换损失对整体系统性能的影响。

作文

In the world of technology and engineering, efficiency is the key to success. One crucial concept that often arises in discussions about energy transfer and conversion is conversion loss. This term refers to the energy that is lost during the process of converting one form of energy into another. For instance, when electrical energy is transformed into mechanical energy in a motor, not all the electrical energy is converted into useful work; some of it is inevitably lost as heat due to resistance in the wires and other components. Understanding conversion loss is essential for engineers and designers who aim to create more efficient systems.The phenomenon of conversion loss can be observed in various applications, including renewable energy systems. For example, in solar panels, sunlight is converted into electricity. However, the conversion process is not 100% efficient, and a portion of the solar energy is lost as heat or reflected away. This inefficiency can significantly affect the overall performance of solar energy systems, making it vital for researchers to find ways to minimize these losses.Similarly, in the field of thermodynamics, conversion loss plays a significant role. When heat energy is converted into work in engines, such as internal combustion engines or steam turbines, a considerable amount of energy is lost to the environment as waste heat. This loss is a major reason why many traditional energy systems are not sustainable in the long run. Engineers are constantly working on improving the efficiency of these systems by reducing conversion loss, thereby maximizing the amount of usable energy produced.In the context of power generation, conversion loss can also refer to the losses that occur when electricity is transmitted over long distances. High-voltage transmission lines are used to minimize these losses, but they still exist due to resistance in the wires. Understanding how to reduce these losses is critical for improving the reliability and efficiency of power grids.Moreover, conversion loss is not limited to just energy systems; it can also be applied to data transfer in telecommunications. When data is converted from one format to another, such as from analog to digital, there can be losses in the quality or integrity of the information being transferred. This type of loss can impact communication systems, resulting in degraded performance.To mitigate conversion loss, various strategies can be employed. For instance, using high-quality materials with better conductive properties can reduce energy losses in electrical systems. In renewable energy technologies, ongoing research aims to develop more efficient photovoltaic cells that can capture a greater percentage of sunlight, thus minimizing losses. Additionally, advancements in thermal management techniques can help recover waste heat and improve the overall efficiency of energy systems.In conclusion, conversion loss is a critical factor that impacts the efficiency of various systems in technology and engineering. By understanding and addressing the causes of these losses, we can develop more efficient energy systems, improve data transmission processes, and contribute to a more sustainable future. As we continue to innovate and push the boundaries of technology, minimizing conversion loss will remain a priority for engineers and scientists alike.

在科技和工程的世界中，效率是成功的关键。一个常常在讨论能量转移和转换时出现的重要概念是转换损失。这个术语指的是在将一种形式的能量转换为另一种形式的过程中所损失的能量。例如，当电能在电动机中转化为机械能时，并不是所有的电能都被转化为有用的工作；由于导线和其他组件的电阻，一部分电能不可避免地以热量的形式损失掉。理解转换损失对于那些旨在创造更高效系统的工程师和设计师来说至关重要。转换损失现象可以在各种应用中观察到，包括可再生能源系统。例如，在太阳能电池板中，阳光被转化为电能。然而，转换过程并不是100%有效的，部分太阳能作为热量或反射而损失。这种低效率可能会显著影响太阳能系统的整体性能，因此研究人员必须寻找减少这些损失的方法。同样，在热力学领域，转换损失也发挥着重要作用。当热能在发动机中转化为工作时，例如内燃机或蒸汽涡轮，很多能量作为废热损失给环境。这种损失是许多传统能源系统在长期内不可持续的主要原因。工程师们不断努力提高这些系统的效率，以减少转换损失，从而最大化可用能量的产生。在发电的背景下，转换损失也可以指电力在长距离传输过程中发生的损失。使用高压输电线路可以最小化这些损失，但由于导线中的电阻，它们仍然存在。了解如何减少这些损失对提高电网的可靠性和效率至关重要。此外，转换损失不仅限于能源系统；它也可以应用于电信中的数据传输。当数据从一种格式转换为另一种格式时，例如从模拟转换为数字，可能会在传输的信息质量或完整性上造成损失。这种类型的损失可能会影响通信系统，导致性能下降。为了减轻转换损失，可以采用各种策略。例如，使用具有更好导电性能的高质量材料可以减少电气系统中的能量损失。在可再生能源技术中，持续的研究旨在开发更高效的光伏电池，能够捕获更大比例的阳光，从而最小化损失。此外，热管理技术的进步可以帮助回收废热，提高能源系统的整体效率。总之，转换损失是影响科技和工程中各种系统效率的关键因素。通过理解和解决这些损失的原因，我们可以开发出更高效的能源系统，改善数据传输过程，并为可持续未来做出贡献。随着我们继续创新并推动科技的边界，最小化转换损失将始终是工程师和科学家的优先事项。