reaction vessel

简明释义

反应器

英英释义

例句

1.The design of the reaction vessel allows for easy cleaning and maintenance between experiments.

该反应容器的设计便于在实验之间进行清洁和维护。

2.In this experiment, we will use a glass reaction vessel to observe the color change.

在这个实验中，我们将使用一个玻璃反应容器来观察颜色变化。

3.After mixing the reagents in the reaction vessel, a vigorous reaction was observed.

在反应容器中混合试剂后，观察到了剧烈的反应。

4.The chemist carefully monitored the temperature inside the reaction vessel to ensure optimal conditions.

化学家仔细监测反应容器内的温度，以确保最佳条件。

5.Safety precautions are essential when working with a reaction vessel that contains hazardous materials.

在处理含有危险材料的反应容器时，安全预防措施至关重要。

作文

In the field of chemistry, the term reaction vessel refers to a container where chemical reactions take place. These vessels are designed to hold reactants and facilitate their interaction under controlled conditions. The importance of a reaction vessel cannot be understated, as it plays a crucial role in both laboratory experiments and industrial processes. Understanding the characteristics and functions of a reaction vessel is essential for anyone involved in chemical research or production.A typical reaction vessel can be made from various materials, including glass, stainless steel, or specialized polymers, depending on the nature of the chemicals being used. For example, glass vessels are commonly used in laboratories due to their inertness and transparency, which allows scientists to observe reactions easily. On the other hand, stainless steel vessels are often employed in industrial settings where high pressures and temperatures are involved. The choice of material is critical because it must withstand the conditions of the reaction without reacting with the substances inside.The design of a reaction vessel also varies significantly based on the type of reaction it is intended for. Some vessels are equipped with stirring mechanisms to ensure that the reactants are evenly mixed, while others may have heating or cooling jackets to maintain specific temperature conditions. Additionally, some reaction vessels come with pressure relief valves to safely manage the build-up of gases during a reaction. These features enhance the efficiency and safety of chemical processes.In academic research, the use of a reaction vessel allows chemists to explore the properties of substances and develop new compounds. For instance, when synthesizing a new drug, researchers will carefully select a reaction vessel that can accommodate the necessary reactants and conditions. The ability to control variables such as temperature, pressure, and concentration within the reaction vessel is vital for achieving desired outcomes and ensuring reproducibility in experiments.Moreover, the scale of the reaction vessel can vary widely. In laboratory settings, small-scale vessels are often used to minimize waste and allow for quick experimentation. Conversely, in industrial applications, large-scale reaction vessels are necessary to produce significant quantities of products efficiently. This scalability is an important consideration in the design and selection of a reaction vessel, as it directly impacts production costs and feasibility.Safety is another critical aspect associated with reaction vessels. Chemical reactions can sometimes be hazardous, producing toxic gases or generating heat that can lead to explosions. Therefore, understanding the limitations and potential risks associated with a reaction vessel is essential for anyone working in a chemistry-related field. Proper training and adherence to safety protocols can help mitigate these risks, ensuring a safe working environment.In conclusion, a reaction vessel is a fundamental component in the study and application of chemistry. Its design, material, and functionality are tailored to facilitate chemical reactions effectively and safely. Whether in a laboratory or an industrial setting, the role of a reaction vessel is indispensable in advancing our understanding of chemical processes and developing new materials. As we continue to explore the vast world of chemistry, the significance of the reaction vessel will undoubtedly remain at the forefront of scientific innovation and discovery.

在化学领域，术语反应容器指的是进行化学反应的容器。这些容器旨在容纳反应物，并在受控条件下促进它们的相互作用。反应容器的重要性不容小觑，因为它在实验室实验和工业过程中的作用至关重要。理解反应容器的特性和功能对于任何参与化学研究或生产的人来说都是必不可少的。典型的反应容器可以由多种材料制成，包括玻璃、不锈钢或专用聚合物，具体取决于所使用化学品的性质。例如，由于其惰性和透明性，玻璃容器通常在实验室中使用，这使科学家能够轻松观察反应。另一方面，不锈钢容器通常用于涉及高压和高温的工业环境。材料的选择至关重要，因为它必须在不与内部物质反应的情况下承受反应的条件。反应容器的设计也因其预期的反应类型而有很大不同。有些容器配备搅拌机制，以确保反应物均匀混合，而其他容器可能具有加热或冷却夹套，以维持特定的温度条件。此外，有些反应容器配备压力释放阀，以安全管理反应过程中气体的积聚。这些功能提高了化学过程的效率和安全性。在学术研究中，使用反应容器使化学家能够探索物质的性质并开发新化合物。例如，在合成新药物时，研究人员将仔细选择一个反应容器，以容纳必要的反应物和条件。控制反应容器内的温度、压力和浓度等变量的能力对于实现所需结果和确保实验的可重复性至关重要。此外，反应容器的规模可以有很大差异。在实验室环境中，通常使用小规模容器以最小化废物并允许快速实验。相反，在工业应用中，大规模的反应容器是必要的，以有效地生产大量产品。这种可扩展性是设计和选择反应容器时的重要考虑因素，因为它直接影响生产成本和可行性。安全性是与反应容器相关的另一个关键方面。化学反应有时可能是危险的，可能产生有毒气体或产生导致爆炸的热量。因此，理解与反应容器相关的限制和潜在风险对于在化学相关领域工作的人来说至关重要。适当的培训和遵循安全协议可以帮助减轻这些风险，确保安全的工作环境。总之，反应容器是研究和应用化学的基本组成部分。其设计、材料和功能旨在有效且安全地促进化学反应。无论是在实验室还是工业环境中，反应容器的作用在推动我们对化学过程的理解和新材料的开发中都是不可或缺的。随着我们继续探索广阔的化学世界，反应容器的重要性无疑将在科学创新和发现的最前沿保持不变。