water shielding

简明释义

水屏蔽

英英释义

例句

1.The new building design includes water shielding to prevent moisture damage.

新建筑设计包括水屏障以防止潮湿损害。

2.In aquaculture, water shielding helps maintain optimal conditions for fish growth.

在水产养殖中，水屏障有助于维持鱼类生长的最佳条件。

3.The engineers used water shielding techniques to secure the dam's integrity.

工程师使用水屏障技术来确保大坝的完整性。

4.The construction team implemented water shielding to protect the foundation from flooding.

施工队实施了水屏障以保护基础免受洪水影响。

5.During heavy rains, water shielding can prevent water from entering basements.

在大雨期间，水屏障可以防止水进入地下室。

作文

In recent years, the concept of water shielding has gained significant attention in various fields, especially in environmental science and engineering. Water shielding refers to the use of water as a protective barrier against harmful elements, such as radiation or pollutants. This innovative approach not only provides a means of protection but also promotes sustainability by utilizing a natural resource. In this essay, we will explore the applications, benefits, and challenges associated with water shielding. One of the most prominent applications of water shielding is in nuclear facilities. Water is used as a primary shield against radiation emitted from nuclear reactors. The density and thickness of water effectively absorb and scatter gamma radiation, making it an ideal medium for protection. By implementing water shielding, facilities can ensure the safety of both workers and the surrounding environment. Additionally, the use of water in this context is advantageous because it is readily available and cost-effective compared to other shielding materials. Moreover, water shielding has found its way into the realm of waste management. Landfills often produce leachate, a toxic liquid that can seep into groundwater. To combat this issue, engineers have begun using water barriers to contain leachate and prevent contamination. By creating a water shielding system around landfills, we can protect our water supply and preserve the integrity of ecosystems. This method aligns with sustainable practices, as it minimizes the need for artificial barriers and utilizes a natural resource instead. In addition to these applications, water shielding can also play a crucial role in disaster management. During floods, water can act as a buffer zone, protecting infrastructure and communities from the devastating effects of rising waters. Engineers can design urban landscapes with water shielding features, such as retention ponds and wetlands, which help absorb excess water and reduce the risk of flooding. This proactive approach not only mitigates damage but also enhances the resilience of cities against climate change. However, despite its many benefits, water shielding does face certain challenges. One major concern is the potential for water contamination. If the water used for shielding becomes polluted, it could pose additional risks rather than mitigate them. Therefore, it is essential to monitor and maintain the quality of the water utilized in water shielding applications. Furthermore, there are logistical challenges in implementing large-scale water shielding systems, particularly in urban areas where space is limited. In conclusion, water shielding represents a promising approach to addressing various environmental and safety concerns. Its applications in nuclear facilities, waste management, and disaster preparedness highlight its versatility and effectiveness. While challenges remain, the potential benefits of water shielding make it a topic worthy of further research and exploration. As we continue to seek sustainable solutions to pressing global issues, embracing innovative concepts like water shielding will be crucial in safeguarding our planet for future generations.

近年来，“水屏障”的概念在各个领域，尤其是环境科学和工程学中引起了广泛关注。“水屏障”是指利用水作为对抗有害元素（如辐射或污染物）的保护屏障。这种创新方法不仅提供了一种保护手段，还通过利用自然资源促进可持续发展。在本文中，我们将探讨“水屏障”的应用、好处和挑战。 “水屏障”最突出的应用之一是在核设施中。水被用作核反应堆发出的辐射的主要屏障。水的密度和厚度有效地吸收和散射伽马辐射，使其成为理想的保护介质。通过实施“水屏障”，设施可以确保工人和周围环境的安全。此外，在这种情况下使用水是有利的，因为与其他屏蔽材料相比，它是现成的且具有成本效益的。 此外，“水屏障”也已进入废物管理领域。垃圾填埋场通常会产生渗滤液，这是一种可能渗入地下水的有毒液体。为了应对这一问题，工程师们开始使用水屏障来控制渗滤液并防止污染。通过在垃圾填埋场周围创建“水屏障”系统，我们可以保护水源，维护生态系统的完整性。这种方法符合可持续实践，因为它减少了对人工屏障的需求，而是利用自然资源。 除了这些应用外，“水屏障”在灾难管理中也可以发挥重要作用。在洪水期间，水可以作为缓冲区，保护基础设施和社区免受上升水位的破坏性影响。工程师可以设计带有“水屏障”特征的城市景观，例如蓄水池和湿地，帮助吸收多余的水并降低洪水风险。这种主动的方法不仅减轻了损失，还增强了城市对气候变化的韧性。 然而，尽管有许多好处，“水屏障”确实面临一些挑战。一个主要问题是水污染的潜在风险。如果用于屏障的水被污染，它可能会带来额外的风险而不是减轻风险。因此，监测和维护用于“水屏障”应用的水质至关重要。此外，在城市地区实施大规模“水屏障”系统时，空间有限也存在后勤挑战。 总之，“水屏障”代表了一种有前景的方法来应对各种环境和安全问题。它在核设施、废物管理和灾害准备中的应用突显了其多样性和有效性。尽管仍然存在挑战，但“水屏障”的潜在利益使其成为进一步研究和探索的主题。随着我们继续寻求应对紧迫全球问题的可持续解决方案，采用像“水屏障”这样的创新概念对于保护我们星球以造福未来几代人至关重要。