artificial lifted well

简明释义

1. 人工举升井; 2. 机械采油井;

英英释义

例句

1.The maintenance of an artificial lifted well is crucial to ensure its longevity.

维护人工提升井对于确保其使用寿命至关重要。

2.Using an artificial lifted well can significantly reduce the operational costs of extracting water.

使用人工提升井可以显著降低抽取水的运营成本。

3.The oil company installed an artificial lifted well to enhance production efficiency.

石油公司安装了一个人工提升井以提高生产效率。

4.The artificial lifted well technology is vital for remote areas lacking natural water sources.

对于缺乏自然水源的偏远地区，人工提升井技术至关重要。

5.Engineers designed the artificial lifted well to operate efficiently in harsh environments.

工程师设计了这个人工提升井，以便在恶劣环境中高效运行。

作文

In recent years, the concept of sustainability has gained significant attention in various fields, including engineering and environmental science. One innovative solution that has emerged is the use of an artificial lifted well, which refers to a man-made structure designed to extract groundwater efficiently while minimizing environmental impact. This technology plays a crucial role in areas where natural water sources are scarce or contaminated, providing communities with a reliable source of clean water.The principle behind an artificial lifted well is relatively simple yet effective. It utilizes pumps and filtration systems to draw water from underground aquifers. Unlike traditional wells, which may rely solely on gravity, these wells are equipped with mechanical systems that can elevate water to the surface, making it accessible for various uses, such as irrigation, drinking, and industrial processes. The ability to control the flow and quality of water extracted makes artificial lifted wells a preferred choice in many regions facing water scarcity.One of the primary advantages of using an artificial lifted well is its efficiency. In areas where the water table is low, traditional wells may struggle to provide sufficient water, leading to over-extraction and depletion of resources. However, with the implementation of an artificial lifted well, water can be accessed more reliably. Additionally, these wells can be equipped with renewable energy sources, such as solar panels, to power the pumps, further enhancing their sustainability.Moreover, artificial lifted wells contribute to the protection of ecosystems. By carefully managing groundwater extraction, these structures help maintain the balance of local hydrology, preventing issues such as land subsidence and saltwater intrusion. This is particularly important in coastal areas where freshwater resources are at risk of being contaminated by seawater due to over-extraction.The construction of an artificial lifted well involves several steps, including site assessment, drilling, and installation of pumping systems. Engineers must consider various factors, such as soil composition, depth of the water table, and potential environmental impacts. Once operational, regular maintenance is essential to ensure the longevity and efficiency of the system. This not only includes checking the mechanical components but also monitoring water quality to prevent contamination.In conclusion, the implementation of artificial lifted wells represents a significant advancement in water management technology. As communities around the world face increasing challenges related to water scarcity, this innovative solution offers a sustainable and efficient way to access vital resources. By prioritizing the development of artificial lifted wells, we can work towards a future where clean water is available to all, supporting both human health and environmental integrity.

近年来，可持续发展的概念在工程和环境科学等多个领域引起了广泛关注。出现的一种创新解决方案是使用人工提升井，这指的是一种人造结构，旨在有效提取地下水，同时最小化对环境的影响。这项技术在水源稀缺或受到污染的地区发挥着至关重要的作用，为社区提供可靠的清洁水源。人工提升井的原理相对简单而有效。它利用泵和过滤系统从地下含水层提取水。与传统井不同，后者可能仅依靠重力，这些井配备了机械系统，可以将水提升到地面，使其可用于灌溉、饮用和工业过程等多种用途。控制抽取水流和水质的能力使得人工提升井在许多面临水资源短缺的地区成为首选。使用人工提升井的主要优点之一是其效率。在水位较低的地区，传统井可能难以提供足够的水，导致资源的过度开采和枯竭。然而，通过实施人工提升井，水可以更可靠地被获取。此外，这些井可以配备可再生能源，例如太阳能电池板，为泵提供动力，进一步增强其可持续性。此外，人工提升井有助于保护生态系统。通过仔细管理地下水的抽取，这些结构有助于维持当地水文的平衡，防止土地沉降和盐水入侵等问题。这在沿海地区尤为重要，因为过度开采会导致淡水资源受到海水污染的风险。人工提升井的建设涉及几个步骤，包括现场评估、钻探和泵系统的安装。工程师必须考虑各种因素，例如土壤成分、水位深度和潜在的环境影响。一旦投入使用，定期维护对于确保系统的长期有效性至关重要。这不仅包括检查机械部件，还包括监测水质以防止污染。总之，人工提升井的实施代表了水资源管理技术的一项重大进展。随着世界各地社区面临与水资源短缺相关的日益严峻的挑战，这一创新解决方案提供了一种可持续和高效的方式来获取重要资源。通过优先发展人工提升井，我们可以朝着一个所有人都能获得清洁水的未来努力，支持人类健康和环境完整性。