shunts

简明释义

英[ʃʌnts]美[ʃʌnts]

n. 分流术

英英释义

单词用法

同义词

反义词

例句

1.The A40B series of precision current shunts come standard with a report of traceable calibration including data.

一系列的A40B精密电流分流器的标准配备的报告可追踪校准包括数据。

2.To compare transjugular intrahepatic portosystemic stent-shunts (TIPS) versus paracentesis for the treatment of refractory ascites in patients with cirrhosis.

比较经颈内静脉肝内门体静脉分流术(TIPS)对照腹水穿刺术用以治疗肝硬化病人并发难治性腹水的比较。

3.In its second half, the film shunts Hawking's research into the background, and concentrates on Jane's mounting unhappiness.

在电影的后半部分，霍金的学术研究隐入幕后，镜头专注于简越来越不幸福的生活。

4.External connection prevents proper operation of internal shunts and measurement system.

外部应注意内部分流和测量系统的连接。

5.These currents were monitored with the shunts in the current distribution box.

这些电流进行监测与在目前的配电箱的分流。

6.Optimized shunts for energy metering market, standard as well as customized solutions.

优化分流器适用于能源检测，有标准的和客户特殊需求的解决方案。

7.Some times, is exactly in order to like only then calmly shunting. Shunts is the form, cannot shunt is actually that silently mood.

有些的时候，恰是为了爱才静静躲开。躲开的是身影，躲不开的却是那份默默的情怀。

8.Like Knoppix, it shunts boot options off to switches you can type at the boot: prompt in the few seconds before it launches into the default.

和Knoppix一样，它没有使用引导选项而是使用了开关，在它开始默认的引导之前几秒钟，您可以在boot：提示符中输入这些开关。

9.In the hospital, the doctor explained how a shunt could help relieve pressure in the brain.

在医院，医生解释了如何通过一个分流器来缓解脑部压力。

10.The engineer designed a circuit that shunts excess current away from sensitive components.

工程师设计了一个电路，分流多余的电流，以保护敏感组件。

11.The electrical device has a built-in shunt to prevent overload.

该电气设备内置了一个分流器以防止过载。

12.The train system uses shunts to redirect trains to different tracks.

火车系统使用分流器将火车重定向到不同的轨道。

13.He installed a shunt in the plumbing to manage water flow more effectively.

他在管道中安装了一个分流器以更有效地管理水流。

作文

In the world of engineering and technology, various components play crucial roles in the functioning of complex systems. One such component is the device known as a shunt. A shunt refers to a connection that allows current to bypass a particular point in an electrical circuit. This can be essential for protecting sensitive components from overload or for directing current where it is most needed. In medical contexts, a shunt can also refer to a passage or bypass created surgically to redirect bodily fluids or gases from one location to another. For example, in patients with hydrocephalus, a cerebral shunt may be implanted to drain excess cerebrospinal fluid from the brain to another part of the body, thereby alleviating pressure and preventing damage. Understanding how shunts function and their importance in both engineering and medicine can provide insights into their significance in our daily lives. In electrical engineering, shunts are often used in circuits to measure the flow of current. By placing a shunt resistor in parallel with a load, engineers can accurately gauge how much current is passing through the circuit without interrupting the flow. This is particularly useful in applications where monitoring energy consumption is vital, such as in renewable energy systems or electric vehicles.On the medical front, the use of shunts has revolutionized treatment for various conditions. The development of shunts has allowed for minimally invasive procedures that can significantly improve patient outcomes. For instance, patients suffering from liver disease may require a transjugular intrahepatic portosystemic shunt (TIPS) to relieve pressure in the portal vein, which can lead to serious complications if left untreated. The creation of this shunt helps to redirect blood flow and reduces the risk of bleeding and other health issues. Moreover, the design and implementation of shunts are continually evolving, with researchers exploring new materials and techniques to enhance their effectiveness and reduce potential complications. The versatility of shunts is evident as they are utilized across various fields, from electronics to healthcare, showcasing their fundamental role in advancing technology and improving human health.In summary, the term shunt encapsulates a wide range of applications, both in engineering and medicine. Whether it is an electrical shunt that aids in circuit design or a medical shunt that saves lives, understanding this concept is essential for appreciating how interconnected our technological and biological systems are. As we continue to innovate and improve upon existing technologies, the role of shunts will undoubtedly remain significant, highlighting the importance of this seemingly simple yet profoundly impactful component in our modern world.

在工程和技术的世界中，各种组件在复杂系统的运行中扮演着至关重要的角色。其中一个这样的组件是被称为shunt的装置。shunt指的是一种连接，允许电流绕过电路中的特定点。这对于保护敏感组件免受过载或将电流引导到最需要的地方至关重要。在医学背景中，shunt也可以指通过外科手术创建的通道或旁路，以将体液或气体从一个位置重新导向另一个位置。例如，在患有脑积水的患者中，可能会植入脑室shunt以排出多余的脑脊液，从而减轻压力并防止损伤。理解shunts的功能及其在工程和医学中的重要性可以提供对其在我们日常生活中意义的洞察。在电气工程中，shunts通常用于电路中测量电流流动。通过在负载并联放置shunt电阻，工程师可以准确地衡量电路中通过的电流，而不会中断流动。这在监测能源消耗至关重要的应用中尤其有用，例如在可再生能源系统或电动车辆中。在医学方面，shunts的使用已彻底改变了各种疾病的治疗。shunts的发展使得微创手术成为可能，可以显著改善患者的预后。例如，患有肝病的患者可能需要进行经颈静脉肝内门体分流（TIPS）以缓解门静脉的压力，如果不加以治疗，可能会导致严重的并发症。创建这种shunt有助于重新引导血流，减少出血和其他健康问题的风险。此外，shunts的设计和实施正在不断发展，研究人员正在探索新材料和技术，以提高其有效性并减少潜在并发症。shunts的多样性显而易见，因为它们被广泛应用于各个领域，从电子学到医疗保健，展示了它们在推动技术进步和改善人类健康方面的基本作用。总之，shunt这个术语涵盖了广泛的应用，无论是在工程还是医学中。无论是帮助电路设计的电气shunt，还是拯救生命的医疗shunt，理解这一概念对于欣赏我们技术和生物系统之间的相互联系至关重要。随着我们不断创新和改进现有技术，shunts的作用无疑将继续显著，突显出这一看似简单但深远影响的组件在我们现代世界中的重要性。