borehole yield

简明释义

1. 钻孔出水量; 2. 钻孔流量;

英英释义

例句

1.To assess the sustainability of the water source, we need to monitor the borehole yield over several months.

为了评估水源的可持续性，我们需要在几个月内监测钻孔产水量。

2.The engineer calculated the borehole yield to determine the water supply for the new housing development.

工程师计算了钻孔产水量以确定新住宅区的水源供应。

3.A high borehole yield is essential for agricultural irrigation in arid regions.

在干旱地区，较高的钻孔产水量对农业灌溉至关重要。

4.The borehole yield was tested using a pump to ensure it meets the required standards.

通过使用泵对钻孔产水量进行测试，以确保其符合所需标准。

5.Local regulations dictate that the borehole yield must not exceed a certain limit to protect groundwater.

当地法规规定，钻孔产水量不得超过某一限制，以保护地下水。

作文

Boreholes are vertical shafts drilled into the ground to access groundwater or geothermal energy. One of the most important measurements in the context of boreholes is the borehole yield, which refers to the amount of water that can be extracted from a borehole over a specific period, usually measured in liters per second (L/s) or gallons per minute (GPM). Understanding borehole yield is crucial for various applications, including agriculture, municipal water supply, and industrial processes. When assessing the potential of a borehole, determining its borehole yield involves several factors, including the geological formation, the depth of the borehole, and the pumping rate. A higher borehole yield indicates that the borehole can provide a more substantial and more reliable water supply, making it a valuable resource for communities and industries alike. In agricultural settings, for example, farmers rely heavily on boreholes to irrigate their crops, especially in arid regions where surface water is scarce. The borehole yield directly impacts crop production; if the yield is insufficient, it may lead to water shortages, affecting the growth and health of the plants. Thus, understanding the borehole yield helps farmers make informed decisions about irrigation practices and crop management. Additionally, municipal water systems often depend on boreholes to meet the needs of residents. A city’s water supply can be significantly affected by the borehole yield. If the yield is low, the city may face challenges in providing adequate water to its population, leading to restrictions and increased costs for water. Therefore, city planners and engineers must evaluate the borehole yield when designing water supply systems to ensure sustainability and reliability. Industries also benefit from understanding borehole yield. Many manufacturing processes require substantial amounts of water, and industries often drill boreholes to secure a steady supply. A borehole with a high yield can support operations without interruption, while a low yield might necessitate additional investments in alternative water sources or storage solutions. To assess borehole yield, hydrogeologists typically conduct a pump test, where water is pumped from the borehole at a constant rate for a specific duration. During this test, the drawdown of water levels is monitored, and data is collected to analyze the aquifer's response. This information helps determine the sustainable yield of the borehole and informs management strategies for groundwater resources. In conclusion, the concept of borehole yield is vital in various fields, from agriculture to urban planning and industrial operations. By understanding the factors that influence borehole yield, stakeholders can make better decisions regarding water resource management, ensuring that future generations have access to this essential resource. As water scarcity becomes an increasingly pressing issue worldwide, the significance of studying and optimizing borehole yield cannot be overstated. Properly managed boreholes can provide sustainable water supplies, supporting both human activities and the natural environment. Ultimately, the effective management of borehole yield plays a critical role in promoting responsible water use and contributing to the overall health of ecosystems and communities.

钻孔是垂直地面钻入地下以获取地下水或地热能的井。与钻孔相关的最重要的测量之一是borehole yield，它指的是在特定时间内从钻孔中提取的水量，通常以每秒升（L/s）或每分钟加仑（GPM）来衡量。理解borehole yield对于农业、市政供水和工业过程等各种应用至关重要。在评估钻孔潜力时，确定其borehole yield涉及多个因素，包括地质构造、钻孔深度和抽水率。较高的borehole yield表明该钻孔可以提供更大且更可靠的水源，使其成为社区和工业的宝贵资源。例如，在农业环境中，农民在灌溉作物时严重依赖钻孔，尤其是在地表水稀缺的干旱地区。borehole yield直接影响作物生产；如果产量不足，可能导致水短缺，影响植物的生长和健康。因此，了解borehole yield帮助农民在灌溉实践和作物管理上做出明智的决策。此外，市政供水系统通常依赖于钻孔来满足居民的需求。一个城市的水供应可能会受到borehole yield的重大影响。如果产量低，城市可能面临为其人口提供足够水源的挑战，导致限制和水费上涨。因此，城市规划者和工程师在设计供水系统时必须评估borehole yield，以确保可持续性和可靠性。工业也受益于对borehole yield的理解。许多制造过程需要大量水，工业通常会钻孔以确保稳定的供应。具有高产量的钻孔可以支持不间断的操作，而低产量可能需要在替代水源或储存解决方案上进行额外投资。为了评估borehole yield，水文地质学家通常会进行抽水试验，在该试验中，以恒定的速率从钻孔中抽水特定时间。在此测试期间，监测水位的下降，并收集数据以分析含水层的反应。这些信息有助于确定钻孔的可持续产量，并为地下水资源的管理策略提供信息。总之，borehole yield的概念在农业、城市规划和工业运营等各个领域至关重要。通过了解影响borehole yield的因素，利益相关者可以在水资源管理上做出更好的决策，确保未来几代人能够获得这一基本资源。随着水资源短缺成为全球日益紧迫的问题，研究和优化borehole yield的重要性不容小觑。妥善管理的钻孔可以提供可持续的水供应，支持人类活动和自然环境。最终，borehole yield的有效管理在促进负责任的水使用和促进生态系统及社区的整体健康方面发挥着关键作用。