flow reactor
简明释义
怜反应器
英英释义
例句
1.In our lab, we use a flow reactor 流动反应器 for continuous synthesis of pharmaceuticals.
在我们的实验室中,我们使用流动反应器进行药物的连续合成。
2.The flow reactor 流动反应器 allows for better control over temperature and pressure during reactions.
该流动反应器允许在反应过程中更好地控制温度和压力。
3.The chemical engineer designed a new flow reactor 流动反应器 to optimize the reaction time.
化学工程师设计了一种新的流动反应器来优化反应时间。
4.The efficiency of a flow reactor 流动反应器 can significantly reduce production costs.
一个流动反应器的效率可以显著降低生产成本。
5.Researchers are exploring the use of a flow reactor 流动反应器 for green chemistry applications.
研究人员正在探索将流动反应器用于绿色化学应用。
作文
In the field of chemical engineering, the design and operation of reactors are crucial for the efficiency and effectiveness of chemical processes. One type of reactor that has gained significant attention in recent years is the flow reactor. A flow reactor (流动反应器) is a system where reactants are continuously fed into the reactor while products are simultaneously removed. This continuous flow allows for better control over reaction conditions, such as temperature and concentration, which can lead to improved yields and selectivity of the desired products.The advantages of using a flow reactor (流动反应器) over traditional batch reactors are numerous. First and foremost, flow reactors (流动反应器) can operate at higher pressures and temperatures, enabling reactions that may not be feasible in batch systems. This is particularly beneficial for reactions that require extreme conditions to proceed efficiently. Additionally, the continuous nature of flow reactors (流动反应器) allows for real-time monitoring and adjustment of reaction parameters, leading to enhanced process optimization.Another significant benefit of flow reactors (流动反应器) is their ability to facilitate the safe handling of hazardous materials. In a batch reactor, large quantities of reactants are stored and processed at once, which can pose safety risks. Conversely, in a flow reactor (流动反应器), small amounts of materials are constantly flowing through the system, reducing the potential for dangerous accumulations and allowing for safer operations.Moreover, flow reactors (流动反应器) can also contribute to sustainability efforts in chemical manufacturing. By maximizing the efficiency of reactions and minimizing waste generation, these systems can help reduce the environmental impact of chemical processes. For instance, the integration of renewable energy sources, such as solar or wind power, with flow reactors (流动反应器) can further enhance their sustainability profile.The versatility of flow reactors (流动反应器) is another factor that makes them appealing to researchers and industry practitioners alike. They can be designed to accommodate a wide range of reaction types, including gas-liquid, liquid-liquid, and solid-liquid reactions. This adaptability allows for the exploration of novel reaction pathways and the development of new chemical processes that were previously unattainable with conventional batch reactors.In conclusion, the flow reactor (流动反应器) represents a significant advancement in chemical processing technology. Its continuous operation, enhanced safety features, and potential for increased efficiency make it an attractive option for both academic research and industrial applications. As the demand for more sustainable and efficient chemical processes continues to grow, the role of flow reactors (流动反应器) is likely to become increasingly important, paving the way for innovations that can transform the landscape of chemical engineering. The future of chemical synthesis may very well depend on the continued development and implementation of flow reactors (流动反应器).
在化学工程领域,反应器的设计和操作对化学过程的效率和效果至关重要。近年来,受到广泛关注的一种反应器类型是流动反应器。流动反应器(flow reactor)是一种系统,其中反应物不断地被送入反应器,同时产品也被同时移除。这种连续流动使得对反应条件(如温度和浓度)的控制更加精准,从而提高了所需产品的产率和选择性。使用流动反应器(flow reactor)相对于传统批量反应器的优点有很多。首先,流动反应器(flow reactor)可以在更高的压力和温度下运行,使得在批量系统中可能无法进行的反应变得可行。这对于需要极端条件才能有效进行的反应尤其有利。此外,流动反应器(flow reactor)的连续特性允许实时监测和调整反应参数,从而增强了工艺优化。流动反应器(flow reactor)的另一个显著好处是它们能够促进危险材料的安全处理。在批量反应器中,大量反应物一次性储存和处理,这可能带来安全风险。相反,在流动反应器(flow reactor)中,小量材料不断流经系统,减少了潜在的危险积聚,从而实现更安全的操作。此外,流动反应器(flow reactor)还可以为化学制造中的可持续发展努力作出贡献。通过最大化反应效率和最小化废物产生,这些系统可以帮助减少化学过程对环境的影响。例如,将可再生能源(如太阳能或风能)与流动反应器(flow reactor)结合使用,可以进一步提升其可持续性。流动反应器(flow reactor)的多样性也是使其对研究人员和行业从业者都具有吸引力的因素之一。它们可以设计成适应各种反应类型,包括气-液、液-液和固-液反应。这种适应性允许探索新的反应途径以及开发以前在传统批量反应器中无法实现的新化学过程。总之,流动反应器(flow reactor)代表了化学加工技术的重要进步。其连续操作、增强的安全特性和提高效率的潜力,使其成为学术研究和工业应用的吸引选项。随着对更可持续和高效的化学过程的需求不断增长,流动反应器(flow reactor)的角色可能会变得越来越重要,为化学工程的变革铺平道路。化学合成的未来可能确实依赖于流动反应器(flow reactor)的持续发展和实施。
