fluid sampling

简明释义

流体取样

英英释义

例句

1.During the medical examination, the doctor recommended fluid sampling to check for infections.

在医疗检查中，医生建议进行流体取样以检查感染情况。

2.In a laboratory, fluid sampling is crucial for testing the properties of various liquids.

在实验室中，流体取样对于测试各种液体的性质至关重要。

3.The technician performed fluid sampling to analyze the oil quality in the engine.

技术员进行了流体取样以分析发动机中的油质。

4.The research team conducted fluid sampling from the geothermal wells to study temperature variations.

研究小组从地热井中进行了流体取样以研究温度变化。

5.Environmental scientists use fluid sampling to assess water quality in rivers and lakes.

环境科学家使用流体取样来评估河流和湖泊中的水质。

作文

Fluid sampling is a critical process used in various scientific and industrial fields to collect samples of liquids for analysis. The significance of fluid sampling (流体采样) cannot be overstated, as it plays a vital role in ensuring the quality and safety of products, as well as in conducting research and development activities. In this essay, I will explore the methods, applications, and importance of fluid sampling (流体采样) in different sectors.One of the primary methods of fluid sampling (流体采样) involves using specialized equipment to extract a portion of liquid from a larger body. This can be done in various ways, including grab sampling, where a sample is taken at a specific point in time, or composite sampling, where multiple samples are combined to provide a more representative analysis over a period. Each method has its advantages and disadvantages, depending on the purpose of the sampling and the nature of the fluid being tested.In the environmental sector, fluid sampling (流体采样) is essential for monitoring water quality in rivers, lakes, and oceans. Environmental scientists often collect water samples to test for contaminants, pollutants, and other harmful substances that could affect ecosystems and human health. By analyzing these samples, researchers can identify trends in water quality and develop strategies to mitigate pollution.In the medical field, fluid sampling (流体采样) is crucial for diagnosing diseases and monitoring patient health. Blood, urine, and cerebrospinal fluid samples are routinely collected for laboratory analysis. These samples can reveal important information about a patient's condition, such as the presence of infections, metabolic disorders, or other health issues. The accuracy of medical diagnoses heavily relies on the quality of fluid sampling (流体采样), making it an indispensable part of modern healthcare.The food and beverage industry also relies on fluid sampling (流体采样) to ensure product safety and quality. Manufacturers routinely test liquids such as juices, milk, and oils to detect any microbial contamination or chemical residues. By implementing rigorous sampling protocols, companies can maintain high standards of hygiene and comply with regulatory requirements. This not only protects consumers but also enhances the brand's reputation and trustworthiness in the market.Moreover, fluid sampling (流体采样) is vital in the oil and gas industry. Engineers and geologists collect fluid samples from drilling sites to analyze the composition of petroleum reservoirs. This information is crucial for determining the viability of extraction operations and for assessing environmental impacts. Accurate fluid sampling (流体采样) helps companies make informed decisions about resource management and sustainability practices.In conclusion, fluid sampling (流体采样) is an essential practice across multiple disciplines, serving various purposes from environmental monitoring to medical diagnostics and industrial quality control. The methods employed in fluid sampling (流体采样) must be carefully selected based on the specific requirements of each field to ensure accurate and reliable results. As technology advances, the techniques for fluid sampling (流体采样) continue to evolve, enabling more efficient and precise analyses that benefit society as a whole.

流体采样是一个关键过程，广泛应用于各种科学和工业领域，用于收集液体样本以进行分析。流体采样的重要性不容忽视，因为它在确保产品质量和安全以及进行研发活动中发挥着至关重要的作用。在本文中，我将探讨流体采样的方法、应用及其在不同领域的重要性。流体采样的主要方法之一是使用专门的设备从较大体积的液体中提取一部分样本。这可以通过多种方式完成，包括抓取采样，即在特定时间点进行样本采集，或复合采样，即将多个样本结合以提供更具代表性的分析。每种方法都有其优缺点，具体取决于采样的目的和被测试液体的性质。在环境部门，流体采样对于监测河流、湖泊和海洋的水质至关重要。环境科学家经常收集水样，以测试污染物、有害物质和其他可能影响生态系统和人类健康的物质。通过分析这些样本，研究人员可以识别水质趋势并制定减轻污染的策略。在医疗领域，流体采样对于诊断疾病和监测患者健康至关重要。血液、尿液和脑脊液样本通常被收集用于实验室分析。这些样本可以揭示有关患者状况的重要信息，如感染的存在、新陈代谢紊乱或其他健康问题。医疗诊断的准确性在很大程度上依赖于流体采样的质量，使其成为现代医疗保健中不可或缺的一部分。食品和饮料行业也依赖流体采样来确保产品的安全性和质量。制造商定期检测果汁、牛奶和油等液体，以检测微生物污染或化学残留物。通过实施严格的采样协议，公司可以保持高标准的卫生，并遵守监管要求。这不仅保护了消费者，还增强了品牌在市场上的声誉和可信度。此外，流体采样在石油和天然气行业中至关重要。工程师和地质学家从钻探现场收集流体样本，以分析石油储层的成分。这些信息对于确定开采操作的可行性以及评估环境影响至关重要。准确的流体采样帮助公司做出有关资源管理和可持续实践的明智决定。总之，流体采样在多个学科中是一项基本实践，服务于从环境监测到医学诊断和工业质量控制等各种目的。流体采样中采用的方法必须根据各个领域的具体要求进行仔细选择，以确保准确可靠的结果。随着技术的进步，流体采样的技术不断发展，使得更高效、更精确的分析成为可能，从而使整个社会受益。