partly filled tank

简明释义

半载舱

英英释义

例句

1.I realized that the partly filled tank 部分加满的油箱 would not last through the weekend camping trip.

我意识到这个部分加满的油箱在周末露营旅行中不会撑过。

2.Before starting the journey, I checked the partly filled tank 部分加满的油箱 to ensure I had enough gas.

在开始旅程之前，我检查了部分加满的油箱，以确保我有足够的汽油。

3.The car's fuel gauge indicated that it was running low, as the partly filled tank 部分加满的油箱 was only a quarter full.

汽车的油表显示油量不足，因为油箱部分加满的油箱只有四分之一满。

4.The partly filled tank 部分加满的油箱 was enough for a short trip to the nearby town.

这个部分加满的油箱足够我短途前往附近的小镇。

5.During the inspection, the technician noted that the partly filled tank 部分加满的油箱 could lead to inaccurate readings.

在检查过程中，技术人员指出部分加满的油箱可能导致读数不准确。

作文

In the world of engineering and fluid dynamics, understanding the behavior of liquids in various containers is crucial. One common scenario that engineers and scientists encounter is dealing with a partly filled tank, which refers to a tank that contains liquid but is not completely full. This situation can arise in numerous applications, from water storage systems to fuel tanks in vehicles. The implications of having a partly filled tank are significant, as they affect pressure, stability, and even the efficiency of the system. When analyzing a partly filled tank, one must consider the physical properties of the liquid inside. For example, the density, viscosity, and temperature of the liquid can all influence how it behaves within the tank. In many cases, the surface tension of the liquid can also play a role, especially if the tank has a narrow opening or if the liquid is volatile. Additionally, the shape of the tank can impact how the liquid moves and settles within it. Another important factor to consider is the effect of gravity on a partly filled tank. When the tank is tilted or moved, the liquid inside will shift, potentially causing sloshing or uneven distribution. This can lead to challenges in maintaining stability, especially in larger tanks or those used in transportation, such as fuel tanks in trucks or airplanes. Engineers must design these tanks with features that minimize the risks associated with liquid movement, such as baffles or specialized shapes that reduce slosh. Moreover, safety considerations are paramount when dealing with a partly filled tank. For instance, in the case of fuel tanks, a tank that is not full may create a flammable vapor space above the liquid. This can lead to dangerous situations if not properly managed. Therefore, it is essential for engineers to implement safety measures, such as venting systems, to prevent pressure build-up and potential explosions. From a practical perspective, monitoring the level of liquid in a partly filled tank is critical for operational efficiency. Technologies such as ultrasonic sensors or float switches can provide real-time data on liquid levels, allowing operators to make informed decisions about refilling or managing the tank's contents. This data is invaluable for industries that rely on precise measurements, such as chemical processing or water treatment facilities. In conclusion, a partly filled tank is more than just a simple container; it represents a complex interplay of physics, engineering, and safety considerations. Understanding the dynamics of a partly filled tank is essential for ensuring that systems operate smoothly and safely. As technology advances, the methods for monitoring and managing these tanks will continue to evolve, leading to greater efficiency and safety in various industries. Whether in engineering, environmental science, or everyday life, the concept of a partly filled tank remains a fundamental aspect of fluid management that requires careful consideration and expertise.

在工程和流体动力学的世界中，理解液体在各种容器中的行为至关重要。工程师和科学家经常遇到的一种常见情况是处理一个部分填充的水箱，它指的是一个装有液体但并未完全满的水箱。这种情况可以在许多应用中出现，从水储存系统到车辆的燃料箱。拥有一个部分填充的水箱的影响是显着的，因为它们会影响压力、稳定性，甚至系统的效率。在分析一个部分填充的水箱时，必须考虑内部液体的物理特性。例如，液体的密度、粘度和温度都能影响其在水箱内的行为。在许多情况下，液体的表面张力也可能发挥作用，尤其是在水箱开口狭窄或液体易挥发的情况下。此外，水箱的形状也会影响液体在其中的运动和沉淀。另一个需要考虑的重要因素是重力对部分填充的水箱的影响。当水箱倾斜或移动时，内部的液体会移动，可能导致晃动或不均匀分布。这可能导致在保持稳定性方面的挑战，特别是在较大的水箱或运输用水箱中，例如卡车或飞机的燃料箱。工程师必须设计这些水箱，以减少液体运动带来的风险，例如使用挡板或专门的形状以减少晃动。此外，处理部分填充的水箱时安全考虑至关重要。例如，在燃料箱的情况下，一个不满的水箱可能在液体上方产生可燃气体空间。如果不加以管理，这可能导致危险情况。因此，工程师必须实施安全措施，例如通风系统，以防止压力积聚和潜在的爆炸。从实际的角度来看，监测部分填充的水箱中液体的水平对于操作效率至关重要。超声波传感器或浮球开关等技术可以提供实时的液位数据，使操作人员能够就补充或管理水箱内容做出明智的决策。这些数据对于依赖精确测量的行业（如化学加工或水处理设施）来说是无价的。总之，部分填充的水箱不仅仅是一个简单的容器；它代表了物理学、工程学和安全考虑之间复杂的相互作用。理解部分填充的水箱的动态对于确保系统平稳安全地运行至关重要。随着技术的进步，监测和管理这些水箱的方法将继续发展，从而提高各行业的效率和安全性。无论是在工程、环境科学还是日常生活中，部分填充的水箱的概念仍然是流体管理的基本方面，需要仔细考虑和专业知识。