automatic analyser

简明释义

自动分析计

英英释义

例句

1.Using an automatic analyser can significantly reduce human error in chemical analysis.

使用自动分析仪可以显著减少化学分析中的人为错误。

2.In research labs, an automatic analyser is essential for high-throughput screening.

在研究实验室中，自动分析仪对高通量筛选至关重要。

3.The laboratory invested in a new automatic analyser to improve the efficiency of blood tests.

实验室投资了一台新的自动分析仪以提高血液检测的效率。

4.The automatic analyser can handle multiple samples simultaneously, saving time.

这台自动分析仪可以同时处理多个样本，从而节省时间。

5.The automatic analyser provided quick results for the water quality testing.

这台自动分析仪为水质检测提供了快速结果。

作文

In the modern world, technology has transformed various industries, enhancing efficiency and accuracy in numerous processes. One notable advancement is the development of the automatic analyser, a device that automates the analysis of samples in laboratories. This innovation has revolutionized fields such as chemistry, biology, and environmental science. The automatic analyser is designed to perform a wide range of tests with minimal human intervention, significantly reducing the time required for analysis and increasing the reliability of results.The primary function of an automatic analyser is to process samples quickly and accurately. For instance, in a clinical laboratory, blood samples can be analyzed for various parameters such as glucose levels, cholesterol, and electrolytes. The automatic analyser uses advanced technologies, including spectrophotometry and chromatography, to measure these substances precisely. As a result, healthcare professionals can receive timely information about a patient's health, enabling them to make informed decisions regarding treatment.Moreover, the use of an automatic analyser minimizes the risk of human error. Traditional manual analysis can be prone to mistakes due to factors such as fatigue or misreading results. However, with an automatic analyser, the process is standardized, ensuring consistency in measurements. This reliability is crucial, especially in critical situations where accurate data can impact patient outcomes.In addition to improving accuracy, automatic analysers also enhance productivity. Laboratories often deal with a high volume of samples, and processing them manually can be time-consuming. By implementing an automatic analyser, labs can handle larger workloads efficiently. This capability is particularly beneficial during peak times, such as flu season or public health crises, when the demand for testing increases significantly.Furthermore, the integration of automation in analysis allows for better resource allocation. With automatic analysers, skilled technicians can focus on more complex tasks that require their expertise, rather than spending time on routine analyses. This shift not only optimizes the use of human resources but also fosters a more engaging work environment for laboratory staff.Environmental science also benefits from the use of automatic analysers. These devices are employed to monitor pollutants in air and water samples, providing critical data for assessing environmental health. By automating the analysis process, researchers can obtain real-time results, which are essential for making timely interventions to protect ecosystems and public health.Despite the numerous advantages of automatic analysers, it is essential to acknowledge their limitations. While they significantly reduce human involvement, they still require regular maintenance and calibration to ensure optimal performance. Additionally, the initial investment in automatic analysers can be substantial, posing a challenge for smaller laboratories with limited budgets.In conclusion, the advent of the automatic analyser marks a significant milestone in laboratory technology. Its ability to automate the analysis process not only enhances accuracy and efficiency but also improves overall productivity in various fields. As technology continues to advance, we can expect further innovations that will refine the capabilities of automatic analysers, ultimately benefiting society by providing quicker and more reliable analytical results.

在现代世界中，科技已经改变了各个行业，提高了许多过程的效率和准确性。一个显著的进步是开发了自动分析仪，这是一种能够自动分析实验室样本的设备。这项创新彻底改变了化学、生物学和环境科学等领域。自动分析仪旨在以最少的人为干预来执行广泛的测试，显著减少分析所需的时间，并提高结果的可靠性。自动分析仪的主要功能是快速、准确地处理样本。例如，在临床实验室中，可以分析血液样本中的各种参数，如葡萄糖水平、胆固醇和电解质。自动分析仪使用包括分光光度法和色谱法在内的先进技术来精确测量这些物质。因此，医疗专业人员可以及时获得有关患者健康的信息，使他们能够就治疗做出明智的决策。此外，使用自动分析仪可以最小化人为错误的风险。传统的手动分析可能由于疲劳或误读结果等因素而容易出错。然而，使用自动分析仪，该过程是标准化的，确保测量的一致性。这种可靠性至关重要，特别是在关键情况下，准确的数据可能会影响患者的结果。除了提高准确性外，自动分析仪还提高了生产力。实验室通常处理大量样本，手动处理可能耗时费力。通过实施自动分析仪，实验室可以有效地处理更大的工作量。这种能力在高峰时期（如流感季节或公共卫生危机）尤为有利，此时对检测的需求显著增加。此外，分析中的自动化整合使资源分配得到了改善。通过自动分析仪，熟练的技术人员可以专注于更复杂的任务，而不是花时间在常规分析上。这一转变不仅优化了人力资源的使用，还为实验室员工创造了更具吸引力的工作环境。环境科学也受益于使用自动分析仪。这些设备用于监测空气和水样本中的污染物，为评估环境健康提供关键数据。通过自动化分析过程，研究人员可以获得实时结果，这对于及时采取干预措施以保护生态系统和公众健康至关重要。尽管自动分析仪具有众多优点，但仍需承认其局限性。虽然它们显著减少了人为参与，但仍需定期维护和校准，以确保最佳性能。此外，自动分析仪的初始投资可能相当可观，这对预算有限的小型实验室来说是一个挑战。总之，自动分析仪的出现标志着实验室技术的重要里程碑。它自动化分析过程的能力不仅提高了准确性和效率，还提高了各个领域的整体生产力。随着技术的不断进步，我们可以期待进一步的创新，这将完善自动分析仪的能力，最终通过提供更快、更可靠的分析结果造福社会。