low-pressure well

简明释义

低压井;

英英释义

A low-pressure well is a type of well that operates under lower than normal pressure conditions, typically used for extracting water or other fluids from underground sources without the need for high-pressure pumps.

低压井是一种在低于正常压力条件下运行的井,通常用于从地下水源提取水或其他液体,而无需高压泵。

例句

1.Using a low-pressure well 低压井 can help in reducing energy costs for water supply systems.

使用低压井 low-pressure well可以帮助降低供水系统的能源成本。

2.The engineers decided to drill a low-pressure well 低压井 to minimize the risk of blowouts during extraction.

工程师们决定钻探一个低压井 low-pressure well以减少在提取过程中喷发的风险。

3.The low-pressure well 低压井 was installed to support local agriculture by providing a steady water source.

安装了低压井 low-pressure well以通过提供稳定的水源来支持当地农业。

4.During the geological survey, they found a promising site for a low-pressure well 低压井 that could yield high-quality groundwater.

在地质勘查中,他们发现了一个有前景的地点,可以建立一个低压井 low-pressure well,可能会产生高质量的地下水。

5.The city council approved funding for the construction of a low-pressure well 低压井 to enhance the drinking water supply.

市议会批准了建设一个低压井 low-pressure well的资金,以增强饮用水供应。

作文

In the field of oil and gas extraction, the term low-pressure well refers to a type of well that operates under lower pressure conditions compared to conventional wells. Understanding the characteristics and implications of low-pressure well technology is essential for engineers and geologists alike. These wells are typically drilled in areas where the reservoir pressure is insufficient to drive the hydrocarbons to the surface naturally. As a result, additional methods such as artificial lift systems may be required to enhance production rates.The advantages of low-pressure well systems include reduced operational risks and lower costs associated with drilling and completion. Since these wells do not require high-pressure equipment, the initial investment can be significantly less. Moreover, the environmental impact is often minimized due to the controlled nature of the extraction process. For instance, the chances of blowouts or uncontrolled releases of gas are considerably lower in low-pressure well operations.However, there are challenges associated with low-pressure well development. One of the primary concerns is the potential for decreased production efficiency. Because these wells rely on external mechanisms to bring hydrocarbons to the surface, they may not yield as much output as their high-pressure counterparts. This can lead to longer payback periods for investments made in these wells. Additionally, the maintenance of artificial lift systems can incur ongoing costs that must be managed carefully.Another important aspect of low-pressure well operations is the geological considerations involved in site selection. Engineers must conduct thorough assessments of the subsurface conditions to determine if a low-pressure well is a viable option. Factors such as rock permeability, fluid viscosity, and the presence of natural fractures all play a crucial role in the decision-making process. The goal is to identify reservoirs that, while low in pressure, still hold sufficient quantities of hydrocarbons to justify the investment.In recent years, advancements in technology have improved the efficiency of low-pressure well operations. New drilling techniques and enhanced recovery methods have made it possible to extract resources from these wells more effectively. For example, the use of advanced sensors and monitoring systems allows operators to optimize production and reduce downtime. Furthermore, innovations in materials science have led to the development of more durable components that can withstand the unique challenges posed by low-pressure well environments.In conclusion, the concept of low-pressure well is an integral part of modern oil and gas extraction practices. While they present both opportunities and challenges, the continued evolution of technology promises to enhance their viability. By understanding the intricacies of low-pressure well operations, industry professionals can make informed decisions that contribute to sustainable energy production and resource management.

在石油和天然气开采领域,术语低压井指的是一种在较低压力条件下运行的井,与传统井相比。这种低压井技术的特征和影响,对于工程师和地质学家来说至关重要。这些井通常钻探于储层压力不足以自然将烃体推送到地表的地区。因此,可能需要额外的方法,比如人工举升系统,以提高生产率。低压井系统的优势包括降低操作风险和与钻探及完井相关的成本。由于这些井不需要高压设备,初始投资可以显著减少。此外,由于提取过程的可控性,环境影响往往也会减小。例如,在低压井操作中,井喷或气体失控释放的几率明显较低。然而,开发低压井也面临挑战。主要问题之一是生产效率可能下降。因为这些井依赖外部机制将烃体带到地表,所以它们的产量可能不如高压井。这可能导致对这些井的投资回收期延长。此外,人工举升系统的维护可能会产生持续的成本,需要谨慎管理。低压井操作的另一个重要方面是选址时的地质考虑。工程师必须对地下条件进行全面评估,以确定低压井是否为可行选项。岩石的渗透性、流体粘度以及自然裂缝的存在等因素都在决策过程中发挥着关键作用。目标是识别那些虽然压力低但仍然拥有足够烃体数量以证明投资合理的储层。近年来,技术的进步改善了低压井的操作效率。新的钻探技术和增强回收方法使得从这些井中提取资源变得更加有效。例如,使用先进的传感器和监测系统使运营商能够优化生产并减少停机时间。此外,材料科学的创新促进了更耐用组件的开发,这些组件能够承受低压井环境所带来的独特挑战。总之,低压井的概念是现代石油和天然气开采实践的重要组成部分。虽然它们既带来了机会,也面临挑战,但技术的不断发展有望增强其可行性。通过理解低压井操作的复杂性,行业专业人士可以做出明智的决策,为可持续能源生产和资源管理做出贡献。