heavy water content meter

简明释义

重水含量计

英英释义

例句

1.Accurate results from the heavy water content meter are crucial for nuclear research.

来自重水含量计的准确结果对核研究至关重要。

2.Researchers rely on the heavy water content meter to analyze water samples from various sources.

研究人员依靠重水含量计分析来自不同来源的水样。

3.The lab technician used a heavy water content meter to measure the isotopic composition of the sample.

实验室技术员使用重水含量计来测量样品的同位素组成。

4.Before conducting the experiment, we calibrated the heavy water content meter to ensure accurate readings.

在进行实验之前，我们校准了重水含量计以确保读数准确。

5.The heavy water content meter indicated a high level of deuterium in the solution.

该重水含量计显示溶液中氘的含量很高。

作文

In recent years, the importance of accurate measurements in various scientific fields has become increasingly evident. One such measurement is the water content in different substances, particularly in industrial applications. To achieve precise readings, scientists and engineers often rely on specialized instruments like the heavy water content meter. This device is crucial for determining the concentration of heavy water, which is chemically known as deuterium oxide (D2O). Heavy water is not only used in nuclear reactors but also plays a significant role in various chemical reactions and biological processes.The heavy water content meter operates on the principle of measuring the density or refractive index of a sample. Since heavy water has distinct physical properties compared to regular water, the meter can provide accurate readings that help researchers understand the sample's composition. For instance, in nuclear research, maintaining the correct ratio of heavy water is essential for the efficient operation of reactors. Therefore, using a heavy water content meter ensures that the levels are monitored continuously, preventing any potential issues that could arise from improper concentrations.Moreover, the application of the heavy water content meter extends beyond nuclear energy. In the pharmaceutical industry, heavy water is sometimes used in drug development and testing. By using this meter, scientists can ascertain the purity and concentration of heavy water in their formulations, ensuring that the products meet safety and regulatory standards. The ability to measure heavy water content accurately is vital for both product efficacy and compliance with health regulations.The technology behind the heavy water content meter has also evolved significantly over the years. Modern meters are equipped with advanced sensors and digital displays, allowing for real-time data analysis and easy interpretation of results. This advancement not only increases the efficiency of measurements but also reduces the likelihood of human error, which can be critical in high-stakes environments such as laboratories and industrial plants.In conclusion, the heavy water content meter is an indispensable tool in both scientific and industrial contexts. Its ability to provide accurate measurements of heavy water concentration aids in various applications, from nuclear energy to pharmaceuticals. As technology continues to advance, we can expect even more sophisticated devices that enhance our understanding of heavy water and its implications in different fields. Ultimately, the reliance on such instruments underscores the broader need for precision in scientific endeavors, reinforcing the idea that accurate measurements are fundamental to innovation and safety in modern society.

近年来，在各个科学领域，准确测量的重要性日益明显。其中一种测量是不同物质中的水分含量，特别是在工业应用中。为了实现精确的读数，科学家和工程师通常依赖于专门的仪器，如重水含量计。该设备对于确定重水的浓度至关重要，重水的化学名称为氘氧化物（D2O）。重水不仅用于核反应堆中，还在各种化学反应和生物过程中发挥重要作用。重水含量计的工作原理是测量样品的密度或折射率。由于重水与普通水具有不同的物理特性，因此该仪器可以提供准确的读数，帮助研究人员了解样品的成分。例如，在核研究中，保持重水的正确比例对于反应堆的有效运行至关重要。因此，使用重水含量计可以确保水平得到持续监测，防止因浓度不当而引发的潜在问题。此外，重水含量计的应用超出了核能领域。在制药行业中，重水有时用于药物开发和测试。通过使用此仪器，科学家可以确定其配方中重水的纯度和浓度，确保产品符合安全和监管标准。准确测量重水含量的能力对产品的有效性和遵守健康法规至关重要。重水含量计背后的技术也在多年来显著发展。现代仪器配备了先进的传感器和数字显示屏，允许实时数据分析和易于解释的结果。这一进步不仅提高了测量的效率，还减少了人为错误的可能性，而人为错误在实验室和工业厂房等高风险环境中可能至关重要。总之，重水含量计是科学和工业环境中不可或缺的工具。它能够提供重水浓度的准确测量，帮助在核能和制药等各种应用中发挥作用。随着技术的不断进步，我们可以期待更复杂的设备，增强我们对重水及其在不同领域影响的理解。最终，对这些仪器的依赖强调了科学工作中对精确性的更广泛需求，强化了准确测量是现代社会创新和安全的基础这一理念。