laboratory scale

简明释义

实验室规模

英英释义

例句

1.The researchers conducted experiments on a laboratory scale 实验室规模 to test the new chemical reactions.

研究人员在实验室规模 laboratory scale上进行实验，以测试新的化学反应。

2.The findings from the laboratory scale 实验室规模 studies were crucial for the final product development.

来自实验室规模 laboratory scale研究的发现对最终产品开发至关重要。

3.Before scaling up to industrial production, we need to optimize the process at a laboratory scale 实验室规模.

在扩大到工业生产之前，我们需要在实验室规模 laboratory scale上优化过程。

4.Using laboratory scale 实验室规模 equipment allows for precise measurements and control during experiments.

使用实验室规模 laboratory scale设备可以在实验过程中实现精确的测量和控制。

5.The team successfully developed a prototype on a laboratory scale 实验室规模 before moving to pilot testing.

团队在进行试点测试之前，成功地在实验室规模 laboratory scale上开发了一个原型。

作文

In the field of scientific research, the term laboratory scale refers to experiments or processes that are conducted in a controlled environment, typically within a laboratory setting. This scale is crucial for researchers as it allows them to manipulate variables and observe results in a manageable and safe way. When scientists develop new drugs, for example, they often start their research on a laboratory scale. This means they will synthesize compounds in small quantities to test their effectiveness and safety before moving on to larger-scale production. The significance of conducting experiments on a laboratory scale cannot be overstated. It provides an opportunity to refine methodologies and troubleshoot potential issues without the high costs associated with full-scale production. For instance, if a chemical reaction does not yield the expected results, researchers can easily adjust the parameters like temperature, concentration, or time on a smaller scale. This iterative process is essential for innovation and helps ensure that when a project moves to a larger scale, it is more likely to succeed. Moreover, working on a laboratory scale allows for thorough documentation and analysis of data. Researchers can collect a wealth of information regarding the behavior of materials and reactions in a controlled setting. This data is invaluable, not only for the current project but also for future research. It contributes to the broader scientific knowledge base and can lead to advancements in various fields, such as medicine, engineering, and environmental science. However, transitioning from a laboratory scale to a larger scale can pose challenges. Factors such as heat transfer, mass transfer, and reaction kinetics can behave differently when scaled up. For example, a reaction that proceeds smoothly in a small flask might become inefficient in a large reactor due to differences in mixing and temperature distribution. Therefore, researchers must carefully consider these factors and conduct pilot studies before full-scale implementation. In conclusion, the concept of laboratory scale is fundamental in the scientific community. It represents a critical step in the research and development process, allowing scientists to explore ideas, test hypotheses, and gather data in a controlled environment. The insights gained from laboratory scale experiments pave the way for successful larger-scale applications, ultimately driving innovation and progress across various industries. Whether it's developing new pharmaceuticals, creating sustainable materials, or advancing technology, the importance of starting at the laboratory scale cannot be overlooked. It is this careful and methodical approach that ensures the reliability and efficacy of scientific endeavors, leading to breakthroughs that can benefit society as a whole.

在科学研究领域，术语laboratory scale指的是在受控环境中进行的实验或过程，通常是在实验室内进行。这一规模对研究人员至关重要，因为它允许他们操控变量并以可管理和安全的方式观察结果。例如，当科学家开发新药时，他们通常会在laboratory scale上开始研究。这意味着他们会合成小量化合物，以测试其有效性和安全性，然后再转向大规模生产。在laboratory scale上进行实验的重要性不容忽视。它提供了一个机会来完善方法论，并在不涉及全规模生产的高成本情况下解决潜在问题。例如，如果某个化学反应没有产生预期的结果，研究人员可以轻松调整参数，如温度、浓度或时间，而不会造成太大损失。这一迭代过程对于创新至关重要，并有助于确保当项目转向更大规模时，更有可能成功。此外，在laboratory scale上工作还允许对数据进行全面的记录和分析。研究人员可以在受控环境中收集大量关于材料和反应行为的信息。这些数据是无价的，不仅对当前项目，而且对未来研究也具有重要意义。它为更广泛的科学知识基础做出贡献，并可能导致医学、工程和环境科学等多个领域的进步。然而，从laboratory scale过渡到更大规模可能会带来挑战。热传递、质量传递和反应动力学等因素在放大时可能表现不同。例如，在小烧瓶中顺利进行的反应，可能由于混合和温度分布的差异而在大型反应器中变得低效。因此，研究人员必须仔细考虑这些因素，并在全面实施之前进行试点研究。总之，laboratory scale的概念在科学界是基础性的。它代表了研究和开发过程中的关键步骤，允许科学家在受控环境中探索想法、测试假设并收集数据。从laboratory scale实验中获得的见解为成功的大规模应用铺平了道路，最终推动了各个行业的创新和进步。无论是开发新药、创造可持续材料，还是推动技术进步，开始于laboratory scale的重要性都不可忽视。正是这种谨慎而系统的方法确保了科学努力的可靠性和有效性，导致能够惠及整个社会的突破。