defined ballasting

简明释义

规定压载

英英释义

例句

1.The defined ballasting process involves adjusting water levels in tanks for optimal performance.

在定义的压载过程中，需要调整水箱中的水位以达到最佳性能。

2.The ship's stability was improved significantly after implementing defined ballasting.

在实施定义的压载后，船只的稳定性显著提高。

3.To enhance maneuverability, the captain ordered a change in the defined ballasting strategy.

为了增强机动性，船长下令改变定义的压载策略。

4.Engineers must ensure that the defined ballasting is correctly calculated to prevent capsizing.

工程师必须确保定义的压载计算正确，以防止倾覆。

5.During the inspection, the crew verified that the defined ballasting met safety regulations.

在检查过程中，船员确认定义的压载符合安全规定。

作文

In the world of engineering and construction, the term defined ballasting refers to the process of adding weight or mass to a structure to improve its stability and performance. This concept is particularly significant in the context of maritime engineering, where ships and boats require precise weight distribution to maintain balance and prevent capsizing. The practice of defined ballasting involves careful calculations and considerations of various factors, including the vessel's design, intended use, and environmental conditions. For instance, when a ship is loaded with cargo, it is essential to ensure that the weight is evenly distributed across the hull. Uneven weight distribution can lead to dangerous situations, such as listing or rolling, which can compromise the safety of the crew and the integrity of the vessel. By implementing defined ballasting, engineers can strategically place ballast materials, such as water, sand, or metal, to achieve the desired center of gravity and enhance stability. Moreover, defined ballasting is not limited to maritime applications. In civil engineering, similar principles apply when constructing buildings and bridges. Engineers must consider the weight of the materials used and how they affect the overall stability of the structure. For example, in the construction of a high-rise building, defined ballasting may involve incorporating heavy materials in the foundation to counteract wind forces and seismic activity. This ensures that the building remains upright and secure under various conditions. The importance of defined ballasting extends beyond just stability; it also plays a crucial role in optimizing performance. In the case of racing yachts, for instance, crews often adjust their ballast to achieve the best speed and maneuverability in different wind conditions. By shifting the weight within the vessel, they can enhance its hydrodynamic efficiency and reduce drag, ultimately improving their chances of winning a race. Furthermore, the concept of defined ballasting is increasingly relevant in the context of sustainability and environmental considerations. As the construction industry faces pressure to reduce its carbon footprint, engineers are exploring innovative materials and methods for ballasting that minimize environmental impact. For example, using recycled materials as ballast not only helps with weight distribution but also contributes to waste reduction and resource conservation. In conclusion, defined ballasting is a critical aspect of engineering that influences the safety, stability, and performance of various structures, from ships to skyscrapers. Understanding and applying this concept effectively can lead to more resilient designs and improved functionality. As the industry continues to evolve, the principles of defined ballasting will remain integral to ensuring that our built environment can withstand the challenges posed by nature and human activity.

在工程和建筑领域，术语定义的压载指的是向结构中添加重量或质量以改善其稳定性和性能的过程。这个概念在海洋工程的背景下尤为重要，因为船舶和小艇需要精确的重量分布来保持平衡，防止翻覆。定义的压载的实践涉及对各种因素进行仔细计算和考虑，包括船只的设计、预期用途和环境条件。例如，当一艘船装载货物时，确保重量均匀分布在船体上是至关重要的。不均匀的重量分布可能导致危险情况，例如倾斜或滚动，这可能会危及船员的安全和船只的完整性。通过实施定义的压载，工程师可以战略性地放置压载材料，如水、沙子或金属，以实现所需的重心并增强稳定性。此外，定义的压载不仅限于海洋应用。在土木工程中，类似的原则适用于建筑物和桥梁的建造。工程师必须考虑所使用材料的重量以及它们如何影响结构的整体稳定性。例如，在高层建筑的建设中，定义的压载可能涉及在基础中加入重型材料，以抵消风力和地震活动。这确保了建筑物在各种条件下保持直立和安全。定义的压载的重要性不仅仅体现在稳定性上；它在优化性能方面也发挥着关键作用。在赛车帆船的情况下，例如，船员通常会调整他们的压载，以在不同的风速条件下达到最佳速度和机动性。通过在船内移动重量，他们可以提高其水动力效率，减少阻力，从而最终提高获胜的机会。此外，定义的压载的概念在可持续性和环境考量的背景下越来越相关。随着建筑行业面临减少碳足迹的压力，工程师正在探索创新的材料和方法来进行压载，以最小化环境影响。例如，使用回收材料作为压载不仅有助于重量分配，还促进了废物减少和资源保护。总之，定义的压载是工程中的一个关键方面，影响着各种结构的安全性、稳定性和性能，从船舶到摩天大楼。有效理解和应用这一概念可以带来更具韧性的设计和更好的功能。随着行业的不断发展，定义的压载的原则将继续对确保我们的建筑环境能够抵御自然和人类活动带来的挑战至关重要。