steady-state measurement

简明释义

稳态测量

英英释义

例句

1.During the experiment, we focused on obtaining accurate steady-state measurements for better data analysis.

在实验过程中，我们专注于获取准确的稳态测量以便更好地进行数据分析。

2.Engine performance is often assessed through steady-state measurements under various load conditions.

发动机性能通常通过在不同负载条件下进行稳态测量来评估。

3.In a chemical process, the engineer conducted a steady-state measurement to ensure that the reaction rates were stable.

在化学过程中，工程师进行了稳态测量以确保反应速率稳定。

4.The HVAC system was tested using steady-state measurements to evaluate its energy consumption.

HVAC系统通过使用稳态测量来评估其能耗。

5.The steady-state measurement of temperature in the reactor helps in optimizing the production efficiency.

反应器中的温度稳态测量有助于优化生产效率。

作文

In the field of engineering and scientific research, the term steady-state measurement refers to a condition in which all the variables of a system remain constant over time. This concept is crucial for accurately assessing the performance and behavior of systems under study. When conducting experiments or analyzing data, researchers aim to achieve a steady state where fluctuations and transients have dissipated, allowing for reliable and repeatable measurements. For example, in thermal systems, achieving a steady-state measurement means that the temperature within the system does not change with time. This is particularly important in applications such as heat exchangers, reactors, and other processes where temperature plays a critical role in the efficiency and safety of operations. In these cases, engineers often wait until the system reaches this equilibrium before taking measurements to ensure that the data reflects the true operational conditions. Similarly, in fluid dynamics, a steady-state measurement implies that the flow characteristics, such as velocity and pressure, are stable and do not vary with time. This allows for a better understanding of how fluids behave under specific conditions, enabling engineers to design more efficient systems. For instance, when measuring the flow rate of a liquid in a pipe, it is essential to allow the system to reach a steady state to obtain accurate readings that can be used for further analysis. Moreover, in electrical engineering, the concept of steady-state measurement is equally significant. When analyzing circuits, engineers often look for the steady-state response of the circuit to a given input signal. This means that after any initial transients have died out, the circuit will produce a consistent output signal. By focusing on the steady-state behavior, engineers can simplify their calculations and design more effective circuits. The importance of steady-state measurement extends beyond engineering into various fields such as biology and environmental science. For instance, in ecological studies, researchers may examine the populations of species within an ecosystem to determine how they interact over time. By ensuring that measurements are taken during periods of steady state, scientists can draw more accurate conclusions about the dynamics of the ecosystem. In conclusion, the concept of steady-state measurement is fundamental across multiple disciplines. It provides a framework for obtaining accurate and reliable data by ensuring that systems are in a constant state during measurement. Whether in engineering, biology, or environmental science, understanding and applying the principles of steady state is essential for effective research and practical applications. Therefore, researchers and practitioners must prioritize achieving steady-state conditions in their experiments to enhance the validity and reliability of their findings.

在工程和科学研究领域，术语稳态测量指的是系统的所有变量随时间保持不变的状态。这个概念对于准确评估所研究系统的性能和行为至关重要。当进行实验或分析数据时，研究人员旨在达到一个稳态，在这个状态下，波动和瞬态现象已经消散，从而允许可靠和可重复的测量。例如，在热系统中，实现稳态测量意味着系统内的温度不会随时间变化。这在热交换器、反应器和其他过程中尤其重要，因为温度在操作的效率和安全性中起着关键作用。在这些情况下，工程师通常会等待系统达到平衡状态后再进行测量，以确保数据反映出真实的操作条件。同样，在流体动力学中，稳态测量意味着流动特性，如速度和压力，是稳定的，并且不随时间变化。这使得更好地理解流体在特定条件下的行为成为可能，从而使工程师能够设计出更高效的系统。例如，当测量管道中液体的流速时，必须让系统达到稳态，以便获得可以用于进一步分析的准确读数。此外，在电气工程中，稳态测量的概念同样重要。在分析电路时，工程师通常会关注电路对给定输入信号的稳态响应。这意味着在任何初始瞬态消退后，电路将产生一致的输出信号。通过专注于稳态行为，工程师可以简化计算并设计出更有效的电路。稳态测量的重要性不仅限于工程，还延伸到生物学和环境科学等多个领域。例如，在生态研究中，研究人员可能会检查生态系统内物种的种群，以确定它们如何随时间相互作用。通过确保在稳态期间进行测量，科学家可以对生态系统的动态得出更准确的结论。总之，稳态测量的概念在多个学科中都是基础。它通过确保在测量期间系统处于恒定状态，为获得准确可靠的数据提供了框架。无论是在工程、生物学还是环境科学中，理解和应用稳态原理对于有效的研究和实际应用至关重要。因此，研究人员和从业者必须优先考虑在实验中实现稳态条件，以增强其发现的有效性和可靠性。