incrustation scale

简明释义

水垢

英英释义

例句

1.The technician noticed a build-up of incrustation scale on the pipes, which needed to be removed to ensure proper water flow.

技术人员注意到管道上有一层结垢，需要清除以确保水流畅通。

2.To improve efficiency, it's essential to remove any incrustation scale from the heat exchanger.

为了提高效率，必须去除热交换器上的任何结垢。

3.The plumber recommended using a special solution to dissolve the incrustation scale in the showerhead.

水管工建议使用特殊溶液来溶解淋浴头中的结垢。

4.The presence of incrustation scale in the aquarium can harm fish and other aquatic life.

水族箱中存在的结垢可能会伤害鱼类和其他水生生物。

5.Regular maintenance can prevent incrustation scale from forming in your heating system.

定期维护可以防止您的供热系统中形成结垢。

作文

In the world of science and engineering, understanding different phenomena is crucial for innovation and problem-solving. One such phenomenon that often goes unnoticed is the formation of deposits on various surfaces, commonly referred to as incrustation scale. This term describes the accumulation of minerals or other materials on a surface, which can occur in various environments, from industrial settings to natural bodies of water. The significance of incrustation scale cannot be overstated, as it affects not only the efficiency of machines but also the health of ecosystems.When we think about incrustation scale, it is essential to recognize its impact on industrial processes. For instance, in power plants, the buildup of incrustation scale in boilers and heat exchangers can lead to reduced heat transfer efficiency. This inefficiency means that more energy is required to produce the same amount of power, leading to higher operational costs and increased emissions. Engineers must regularly monitor and manage incrustation scale to ensure optimal performance and sustainability. The methods for controlling this buildup can include chemical treatments, physical cleaning, and even the design of equipment that minimizes scale formation.Moreover, incrustation scale is not limited to industrial applications. In natural environments, it plays a significant role in aquatic ecosystems. For example, the presence of incrustation scale in rivers and lakes can alter the habitat for fish and other aquatic organisms. Excessive scale can block sunlight from reaching underwater plants, disrupting photosynthesis and ultimately affecting the entire food chain. Understanding the dynamics of incrustation scale in these ecosystems is crucial for environmental conservation efforts. Researchers are constantly studying how different factors, such as water temperature and mineral content, influence the formation of incrustation scale in order to develop strategies to manage its impact on biodiversity.In addition to industrial and environmental concerns, incrustation scale also has implications for everyday life. Homeowners may encounter incrustation scale in the form of limescale buildup in appliances such as kettles, dishwashers, and water heaters. This type of scale can reduce the efficiency of these appliances, leading to increased energy consumption and the need for more frequent repairs. Understanding how to manage incrustation scale in household appliances can save money and extend their lifespan. Simple practices like using water softeners or descaling agents can effectively reduce the impact of incrustation scale in our homes.In conclusion, the concept of incrustation scale encompasses a wide range of issues across various fields, including industry, ecology, and daily life. By gaining a deeper understanding of this phenomenon, we can develop better strategies to manage its effects, leading to improved efficiency in industrial processes, healthier ecosystems, and more sustainable household practices. As we continue to innovate and address the challenges posed by incrustation scale, it becomes increasingly clear that knowledge is power when it comes to tackling the complexities of our world.

在科学和工程的世界中，理解不同现象对于创新和解决问题至关重要。一个常常被忽视的现象是各种表面上沉积物的形成，通常称为结垢。这个术语描述了矿物或其他材料在表面上的积累，这种情况可以发生在各种环境中，从工业环境到自然水体。结垢的重要性不容小觑，因为它不仅影响机器的效率，还影响生态系统的健康。当我们想到结垢时，必须认识到它对工业过程的影响。例如，在发电厂中，锅炉和热交换器中结垢的积聚会导致热传递效率降低。这种低效率意味着需要更多的能量来生产相同数量的电力，导致更高的运营成本和增加的排放。工程师必须定期监测和管理结垢以确保最佳性能和可持续性。控制这种积聚的方法可以包括化学处理、物理清洗，甚至是设计能够最小化结垢形成的设备。此外，结垢并不仅限于工业应用。在自然环境中，它在水生生态系统中发挥着重要作用。例如，河流和湖泊中结垢的存在可能会改变鱼类和其他水生生物的栖息地。过量的结垢可能会阻挡阳光照射到水下植物，干扰光合作用，并最终影响整个食物链。理解结垢在这些生态系统中的动态对于环境保护工作至关重要。研究人员不断研究不同因素（如水温和矿物质含量）如何影响结垢的形成，以制定管理其对生物多样性影响的策略。除了工业和环境问题外，结垢还对日常生活产生影响。房主可能会在水壶、洗碗机和热水器等电器中遇到结垢的形式。这种类型的结垢会降低这些电器的效率，导致能耗增加和更频繁的维修需求。了解如何在家用电器中管理结垢可以节省资金并延长其使用寿命。使用软水剂或除垢剂等简单做法可以有效减少家庭中结垢的影响。总之，结垢的概念涵盖了各个领域的广泛问题，包括工业、生态和日常生活。通过深入理解这一现象，我们可以制定更好的策略来管理其影响，从而提高工业过程的效率、保护生态系统的健康和实现更可持续的家庭实践。随着我们继续创新并应对结垢带来的挑战，知识在应对我们世界的复杂性方面变得越来越重要。