turbidimetry
简明释义
英[/tɜrˈbɪdɪˌmɛtri/]美[/tɜrˈbɪdɪˌmɛtri/]
n. [分化] 比浊法;测浊法;[分化] 浑浊度测定
英英释义
Turbidimetry is a technique used to measure the concentration of suspended particles in a liquid by determining the amount of light scattered by the particles. | 浊度测定法是一种通过测量液体中悬浮颗粒散射光的数量来确定其浓度的技术。 |
单词用法
同义词
反义词
| 清晰度 | The clarity of the water was tested to ensure it was safe for drinking. | 水的清晰度经过测试,以确保其适合饮用。 | |
| 透明度 | High transparency in the liquid indicates low levels of suspended particles. | 液体的高透明度表明悬浮颗粒的含量低。 |
例句
1.Scatter turbidimetry was used to measure the serum level of CRP in 33 patients with AMI.
采用免疫散射比浊法测定33例AMI患者血清CRP的系列变化值,取其峰值。
2.Conclusion the titer of fosfomycin sodium determined by turbidimetry is rapid and feasible, and it is more significant to verify the se...
结论比浊法测定磷霉素钠效价快速、可行,对中间产品的检验更具有重要意义。
3.METHODS: The kinetic turbidimetry assay, stipulated in China Pharmacopeia (2005 Edition), was adopted for determination of bacterial endotoxin in Xuesaitong injection.
方法采用2005年版《中国药典》细菌内毒素的动态浊度法测定血塞通注射液内毒素。
4.The turbidimetry was used to evaluate the efficacy of surface modification, the optimal formation conditions of production were fixed.
主要研究了氢氧化镁的湿法表面改性的工艺过程,用浊度分析方法对改性效果进行了比较,确定了最佳工艺条件。
5.Objective to optimize the test protocols in the detection of D-dimer by immune turbidimetry, and to extend the detection ranges.
目的优化实验程序以拓展免疫比浊法定量检测d -二聚体的检测范围。
6.Objective To verify the feasibility of a method for determining the titer of fosfomycin sodium by turbidimetry.
目的验证比浊法测定磷霉素钠效价方法的可行性。
7.In environmental monitoring, turbidimetry helps assess the quality of drinking water.
在环境监测中,浊度测定法有助于评估饮用水的质量。
8.The laboratory uses turbidimetry to measure the cloudiness of water samples.
实验室使用浊度测定法来测量水样的浑浊度。
9.Researchers often rely on turbidimetry for analyzing sediment concentration in rivers.
研究人员经常依赖浊度测定法分析河流中的沉积物浓度。
10.Quality control in food production may involve turbidimetry to ensure clarity in beverages.
食品生产中的质量控制可能涉及浊度测定法以确保饮料的清澈度。
11.The turbidimetry technique is crucial for understanding algal blooms in lakes.
对于了解湖泊中的藻类繁殖,浊度测定法技术至关重要。
作文
Turbidimetry is a scientific technique used to measure the concentration of suspended particles in a liquid. This method is particularly important in various fields such as environmental science, chemistry, and biology. The basic principle of turbidimetry (浊度测定法) involves passing a beam of light through a sample and measuring the amount of light that is scattered or absorbed by the particles present in the solution. This scattering of light is directly proportional to the concentration of the particles, allowing researchers to quantify the turbidity of the sample.In environmental monitoring, turbidimetry (浊度测定法) is frequently employed to assess water quality. For instance, in rivers, lakes, and oceans, high turbidity can indicate pollution or the presence of sediments caused by erosion. By measuring the turbidity levels, scientists can determine the health of aquatic ecosystems and the potential impact of human activities on these environments. Additionally, turbidity measurements can help in the treatment of drinking water, ensuring that it meets safety standards before consumption.In the field of chemistry, turbidimetry (浊度测定法) serves as a crucial analytical technique for determining the concentration of various substances in a solution. For example, it can be used to analyze the concentration of proteins, fats, and other biomolecules in biological samples. This information is vital for research and clinical applications, as it helps in diagnosing diseases and monitoring biochemical processes within organisms.The application of turbidimetry (浊度测定法) extends beyond environmental and chemical analysis. In food science, this technique is utilized to assess the quality of beverages, such as juices and wines, where clarity is an important factor. High turbidity in these products may indicate spoilage or contamination, thus affecting consumer safety and product quality. Consequently, manufacturers often implement turbidity measurements as part of their quality control procedures.Moreover, the advancements in technology have significantly improved the precision and efficiency of turbidimetry (浊度测定法). Modern instruments are capable of providing rapid results, which is essential in situations where timely data is critical. For instance, during natural disasters like floods, quick assessments of water quality can help in emergency responses and public health decisions.In conclusion, turbidimetry (浊度测定法) is a versatile and valuable technique in various scientific disciplines. Its ability to provide quantitative data on the concentration of suspended particles makes it an indispensable tool for researchers and professionals working in environmental monitoring, chemistry, food science, and many other fields. As technology continues to evolve, the applications and effectiveness of turbidimetry (浊度测定法) will likely expand, further enhancing our understanding of complex systems and contributing to advancements in science and industry.
浊度测定法是一种用于测量液体中悬浮颗粒浓度的科学技术。这种方法在环境科学、化学和生物学等多个领域中尤为重要。turbidimetry(浊度测定法)的基本原理是将光束通过样品,并测量光被溶液中存在的颗粒散射或吸收的量。这种光的散射与颗粒的浓度成正比,从而使研究人员能够量化样品的浊度。在环境监测中,turbidimetry(浊度测定法)常用于评估水质。例如,在河流、湖泊和海洋中,高浊度可能表示污染或因侵蚀造成的沉积物的存在。通过测量浊度水平,科学家们可以确定水生生态系统的健康状况以及人类活动对这些环境的潜在影响。此外,浊度测量还可以帮助饮用水处理,确保其在消费前符合安全标准。在化学领域,turbidimetry(浊度测定法)作为一种关键的分析技术,用于确定溶液中各种物质的浓度。例如,它可以用于分析生物样本中蛋白质、脂肪和其他生物分子的浓度。这些信息对于研究和临床应用至关重要,因为它有助于诊断疾病和监测生物体内的生化过程。turbidimetry(浊度测定法)的应用不仅限于环境和化学分析。在食品科学中,这一技术被用于评估饮料的质量,如果汁和葡萄酒,其中清澈度是一个重要因素。这些产品中的高浊度可能表明变质或污染,从而影响消费者的安全和产品质量。因此,制造商通常将浊度测量作为其质量控制程序的一部分。此外,科技的进步显著提高了
