circulating tank

简明释义

循环柜

英英释义

例句

1.To maintain optimal water quality, we use a circulating tank system.

为了维持最佳水质，我们使用循环水箱系统。

2.In our aquarium, the circulating tank helps filter and aerate the water.

在我们的水族馆中，循环水箱帮助过滤和充氧水。

3.The laboratory relies on a circulating tank for its experiments with aquatic organisms.

实验室依赖于循环水箱进行水生生物的实验。

4.The design of the circulating tank ensures that all fish receive equal access to nutrients.

该循环水箱的设计确保所有鱼类均能平等获得营养。

5.The fish thrive in the conditions created by the circulating tank.

鱼类在由循环水箱创造的环境中茁壮成长。

作文

The concept of a circulating tank is pivotal in various engineering and scientific applications, particularly in fluid dynamics and environmental studies. A circulating tank is essentially a large container designed to hold a liquid, allowing for continuous movement and mixing of the fluid within it. This design not only facilitates the study of fluid behavior but also enhances the efficiency of processes that rely on liquid interactions.One of the primary uses of a circulating tank is in the field of aquaculture. In fish farming, maintaining optimal water quality is crucial for the health and growth of aquatic species. A circulating tank enables the constant filtering and aeration of water, ensuring that harmful substances are removed while oxygen levels remain sufficient. This system mimics natural environments, providing fish with a stable habitat conducive to growth.Moreover, circulating tanks are extensively used in chemical engineering for reactions that require precise temperature and concentration control. By circulating the reactants within the tank, engineers can ensure uniform distribution and prevent localized overheating or cooling, which could lead to inefficient reactions or even hazardous situations. This is particularly important in industries that produce pharmaceuticals, where the quality of the final product is paramount.In addition to these applications, circulating tanks play a significant role in research settings. Scientists often use them to simulate different environmental conditions to study the effects of pollutants on aquatic life. By controlling variables such as temperature, pH, and flow rate, researchers can gain insights into how various factors influence ecosystem health. This knowledge is essential for developing strategies to mitigate environmental impacts and protect vulnerable species.Furthermore, the design of a circulating tank can vary significantly depending on its intended use. Some tanks are equipped with sophisticated monitoring systems that track parameters such as water quality and flow rates, while others may be simpler in construction. Regardless of their complexity, the fundamental principle remains the same: to facilitate the movement and mixing of liquids to achieve desired outcomes.In conclusion, the circulating tank is an invaluable tool across multiple disciplines. Its ability to maintain optimal conditions for various processes makes it essential in aquaculture, chemical engineering, and environmental research. As technology advances, the designs and applications of circulating tanks will likely continue to evolve, further enhancing our capabilities in managing and understanding fluid dynamics. Through the effective use of circulating tanks, we can improve not only industrial processes but also contribute to the sustainability of our ecosystems, ensuring a healthier planet for future generations.

“循环水箱”的概念在各种工程和科学应用中至关重要，特别是在流体动力学和环境研究中。循环水箱本质上是一个大型容器，旨在容纳液体，允许其在其中持续流动和混合。这种设计不仅促进了对流体行为的研究，还提高了依赖液体相互作用的过程的效率。循环水箱的主要用途之一是在水产养殖领域。在鱼类养殖中，维持最佳水质对水生物种的健康和生长至关重要。循环水箱使水的持续过滤和充氧成为可能，确保有害物质被去除，而氧气水平保持充足。该系统模拟自然环境，为鱼类提供稳定的栖息地，有利于其生长。此外，循环水箱在化学工程中广泛用于需要精确温度和浓度控制的反应。通过在水箱内循环反应物，工程师可以确保均匀分布，防止局部过热或过冷，这可能导致反应效率低下甚至危险情况。这在生产药品的行业中尤为重要，因为最终产品的质量至关重要。除了这些应用，循环水箱在研究环境中也发挥着重要作用。科学家们经常使用它们模拟不同的环境条件，以研究污染物对水生生物的影响。通过控制温度、pH值和流速等变量，研究人员可以深入了解各种因素如何影响生态系统的健康。这些知识对于制定减轻环境影响和保护脆弱物种的策略至关重要。此外，循环水箱的设计可以根据其预期用途而显著不同。一些水箱配备了复杂的监测系统，可以跟踪水质和流量等参数，而其他水箱的结构可能较为简单。无论其复杂程度如何，基本原理保持不变：促进液体的运动和混合以实现所需的结果。总之，循环水箱是多个学科中不可或缺的工具。它维持各种过程的最佳条件，使其在水产养殖、化学工程和环境研究中至关重要。随着技术的发展，循环水箱的设计和应用可能会继续演变，进一步增强我们管理和理解流体动力学的能力。通过有效利用循环水箱，我们不仅可以改善工业过程，还可以为我们生态系统的可持续性做出贡献，确保未来几代人拥有一个更健康的星球。