micropump

简明释义

英[ˈmaɪkrəʊpʌmp]美[ˈmaɪkroʊpʌmp]

n. 电渗激发器，[机] 微型泵

英英释义

单词用法

同义词

反义词

例句

1.A piezoelectric micropump based on MEMS technology is presented.

介绍了一种基于MEMS技术的压电微泵。

2.The fluid pressure equation is combined with vibration equation of silicon diaphragm to construct liquid-solid coupling system equations for a micropump.

液体压强矩阵方程和压电硅片振动有限元方程耦合，得到一个包含微泵进出口扩散管的液-固耦合系统振动方程。

3.It also indicates that the cleanness degree of devices and the purification of the working fluid will greatly influence the performance and working lifetime of the EHD micropump.

研究还表明，微泵的性能与工作寿命和实验环境的洁净度以及工作流体提纯密切相关。

4.Therefore, it is necessary to study the dynamic characteristics of valve-less micropump accompanying gas bubbles and cavitation.

因此本课题研究存在气泡和气穴时无阀微泵的动态特性是十分必要的。

5.Chapter Four, Chapter Five and Chapter Six belong to the second part, Research on the fabrication of DC MHD micropump.

第四章、第五章与第六章属于第二部分研究，磁流体推进式微型泵的研制。

6.A novel PDMS diaphragm micropump actuated by electromagnetic force is researched in this paper, which is small volume, easy manufacturing, and precise controlling.

本文研究一种新颖的电磁力驱动的PD MS膜片泵，具有体积小，制作简单，控制精度高的特点。

7.We present the design and fabrication proc ess of a novel electro-magnetically actuated micropump.

主要阐述了一种新型电磁驱动微泵的设计和制作工艺。

8.A piezoresistive micro pressure transducer fitted on the top of the chamber is used to measure the pressure pulsations in the micropump chamber.

采用安装在泵腔上的压阻式微型压力传感器完成微泵泵腔压力脉动测试。

9.In microfluidics, a micropump is essential for controlling fluid movement.

在微流体学中，微泵对于控制液体流动至关重要。

10.The micropump technology can be integrated into wearable devices.

该微泵技术可以集成到可穿戴设备中。

11.With a micropump, we can achieve better precision in laboratory experiments.

使用微泵，我们可以在实验室实验中实现更好的精度。

12.The new drug delivery system uses a micropump to provide precise dosages.

新的药物输送系统使用微泵提供精确的剂量。

13.Researchers are developing a micropump for targeted cancer therapy.

研究人员正在开发一种用于靶向癌症治疗的微泵。

作文

In recent years, the development of technology has led to significant advancements in various fields, including medicine, engineering, and environmental science. One of the most fascinating innovations in these areas is the micropump, a small device designed to move liquids or gases with precision and efficiency. The micropump can be defined as a miniature pump that is capable of delivering very small volumes of fluids, often at a controlled rate. This remarkable device has found applications in numerous sectors, making it an essential component in modern technology.The medical field has benefited greatly from the advent of the micropump. For instance, in drug delivery systems, micropumps are used to administer medication in a precise manner. This allows for better management of chronic diseases such as diabetes, where patients can receive insulin through a micropump implanted under the skin. The ability to control the flow rate of the medication ensures that patients receive the right dosage at the right time, improving their quality of life.Moreover, micropumps have also been integrated into diagnostic devices. They play a crucial role in lab-on-a-chip technologies, which enable rapid testing and analysis of biological samples. With the help of micropumps, these devices can manipulate tiny amounts of fluids, facilitating complex biochemical reactions on a miniature scale. This innovation not only speeds up the diagnostic process but also reduces the cost of testing, making healthcare more accessible to people around the world.In addition to medicine, micropumps have numerous applications in the field of engineering. They are used in various industrial processes where precise fluid control is required. For example, in the production of microelectronics, micropumps can accurately dispense chemicals needed for etching and cleaning circuits. Their ability to handle small volumes with high accuracy minimizes waste and enhances the overall efficiency of manufacturing processes.Environmental science is another area where micropumps have made a significant impact. In water treatment systems, micropumps are employed to deliver chemicals necessary for purification processes. They can also be used in monitoring systems to sample water from different sources, ensuring that contaminants are detected quickly. This capability is vital for maintaining safe drinking water and protecting ecosystems from pollution.The versatility of the micropump is further highlighted by its potential in emerging technologies such as microfluidics and biotechnology. As researchers continue to explore new applications for micropumps, we can expect to see even more innovative solutions that address some of the world's most pressing challenges.In conclusion, the micropump represents a remarkable advancement in technology that has transformed various fields, particularly medicine, engineering, and environmental science. Its ability to deliver precise amounts of fluids has opened up new possibilities for improving healthcare, enhancing industrial processes, and protecting our environment. As technology continues to evolve, the importance of micropumps will undoubtedly grow, paving the way for future innovations that can benefit society as a whole.

近年来，技术的发展在医学、工程和环境科学等多个领域带来了显著的进步。其中一个最令人着迷的创新是微泵，这是一种旨在精确高效地移动液体或气体的小型设备。微泵可以定义为一种微型泵，能够以可控的速率输送非常小的液体体积。这种非凡的设备在众多行业中找到了应用，使其成为现代技术中的重要组成部分。医疗领域从微泵的出现中受益匪浅。例如，在药物输送系统中，微泵用于以精确的方式给药。这使得慢性疾病（如糖尿病）患者能够通过植入皮肤下的微泵接收胰岛素。控制药物流动速率的能力确保患者在正确的时间获得正确的剂量，从而改善他们的生活质量。此外，微泵还被集成到诊断设备中。它们在芯片实验室技术中发挥着关键作用，使生物样本的快速测试和分析成为可能。在微泵的帮助下，这些设备可以操控微量液体，促进微型尺度上的复杂生化反应。这一创新不仅加快了诊断过程，还降低了测试成本，使全球更多人能够获得医疗保健。除了医学，微泵在工程领域也有许多应用。它们用于各种需要精确流体控制的工业过程。例如，在微电子生产中，微泵可以准确地分配用于蚀刻和清洁电路所需的化学品。它们处理小体积的高精度能力最大限度地减少了浪费，提高了制造过程的整体效率。环境科学是另一个微泵产生重大影响的领域。在水处理系统中，微泵被用来输送净化过程中所需的化学品。它们还可以用于监测系统，从不同来源取样水，确保迅速检测到污染物。这种能力对于维护安全饮用水和保护生态系统免受污染至关重要。微泵的多功能性在微流体学和生物技术等新兴技术中的潜力得到了进一步凸显。随着研究人员继续探索微泵的新应用，我们可以期待看到更多创新解决方案，以应对一些世界上最紧迫的挑战。总之，微泵代表了技术的一项显著进步，改变了医学、工程和环境科学等多个领域。它能够精确输送液体的能力为改善医疗保健、提升工业过程和保护环境开辟了新的可能性。随着技术的持续发展，微泵的重要性无疑会增长，为未来能够惠及整个社会的创新铺平道路。