engineer's alarm

简明释义

轮机员报警器

英英释义

例句

1.During the maintenance check, the technician noted that the engineer's alarm had not been reset.

在维护检查中，技术员注意到工程师警报没有被重置。

2.The engineer's alarm indicated a leak in the pipeline that needed immediate attention.

工程师警报显示管道存在泄漏，需要立即处理。

3.The system triggered an engineer's alarm when the temperature exceeded safe limits.

当温度超过安全限制时，系统触发了工程师警报。

4.After the power outage, the engineer's alarm system was crucial for identifying the affected machines.

停电后，工程师警报系统对于识别受影响的机器至关重要。

5.The factory's engineer's alarm went off, alerting staff to a potential equipment failure.

工厂的工程师警报响起，提醒员工可能发生设备故障。

作文

In the world of engineering, safety is paramount. Engineers are tasked with designing systems, structures, and processes that not only meet functional requirements but also ensure the safety of users and the environment. One of the critical tools in an engineer's toolkit is the concept of the engineer's alarm (工程师的警报), which serves as a warning system for potential failures or hazards. This essay will explore the significance of the engineer's alarm (工程师的警报) in engineering practices, its implementation in various fields, and its impact on safety and efficiency.Firstly, the engineer's alarm (工程师的警报) is designed to alert engineers and operators to abnormal conditions that may indicate a failure or risk. For instance, in civil engineering, structural health monitoring systems utilize sensors to detect stress, strain, and vibrations in buildings and bridges. When these sensors identify values beyond acceptable thresholds, they trigger an engineer's alarm (工程师的警报), prompting immediate investigation and action. This proactive approach helps prevent catastrophic failures, such as bridge collapses or building evacuations, ensuring public safety.Moreover, in the field of software engineering, the engineer's alarm (工程师的警报) can manifest as debugging tools and error alerts that notify developers of issues in their code. For example, when a program encounters unexpected input or behaves abnormally, an engineer's alarm (工程师的警报) in the form of error messages or logs is generated. This allows engineers to quickly address bugs and improve the reliability of software applications, ultimately enhancing user experience and satisfaction.In the realm of mechanical engineering, the engineer's alarm (工程师的警报) plays a crucial role in monitoring machinery and equipment. Automated systems equipped with sensors can detect anomalies such as overheating, excessive vibrations, or unusual noises. When these parameters exceed predefined limits, an engineer's alarm (工程师的警报) is triggered, alerting maintenance teams to perform necessary inspections or repairs. This not only prevents costly breakdowns but also extends the lifespan of machinery, contributing to overall operational efficiency.Furthermore, the implementation of the engineer's alarm (工程师的警报) has evolved with advancements in technology. With the rise of the Internet of Things (IoT), engineers can now deploy smart sensors that provide real-time data and alerts via mobile applications. This innovation allows for remote monitoring and instant notifications, enabling engineers to respond swiftly to potential issues, regardless of their location. Such capabilities are particularly valuable in industries like energy, where timely responses to alarms can prevent accidents and environmental disasters.In conclusion, the engineer's alarm (工程师的警报) is an indispensable component of modern engineering practices. It enhances safety by providing early warnings of potential failures, thereby allowing engineers to take preventive measures. Whether in civil, software, or mechanical engineering, the effective implementation of the engineer's alarm (工程师的警报) contributes to increased reliability, efficiency, and overall safety. As technology continues to advance, the role of the engineer's alarm (工程师的警报) will undoubtedly become more sophisticated, further safeguarding both people and infrastructure.

在工程领域，安全至关重要。工程师的任务是设计系统、结构和流程，不仅要满足功能要求，还要确保用户和环境的安全。工程师工具箱中的一个关键工具就是工程师的警报，它作为潜在故障或危险的警告系统。本文将探讨工程师的警报在工程实践中的重要性、在各个领域的实施以及其对安全和效率的影响。首先，工程师的警报旨在提醒工程师和操作人员异常情况，这些情况可能表明故障或风险。例如，在土木工程中，结构健康监测系统利用传感器检测建筑物和桥梁的应力、应变和振动。当这些传感器识别到超出可接受阈值的数值时，它们会触发工程师的警报，促使立即调查和采取行动。这种主动的方法有助于防止灾难性故障，如桥梁坍塌或建筑物疏散，确保公众安全。此外，在软件工程领域，工程师的警报可以表现为调试工具和错误警报，通知开发人员代码中的问题。例如，当程序遇到意外输入或异常行为时，会生成以工程师的警报形式出现的错误消息或日志。这使得工程师能够快速解决错误，提高软件应用的可靠性，从而增强用户体验和满意度。在机械工程领域，工程师的警报在监控机械和设备方面发挥着至关重要的作用。配备传感器的自动化系统可以检测异常情况，例如过热、过度振动或异常噪音。当这些参数超过预定义的限制时，工程师的警报被触发，提醒维护团队进行必要的检查或维修。这不仅防止了昂贵的故障，还延长了机械的使用寿命，从而有助于整体运营效率。此外，随着技术的进步，工程师的警报的实施也在不断演变。随着物联网（IoT）的兴起，工程师现在可以部署智能传感器，通过移动应用提供实时数据和警报。这一创新允许远程监控和即时通知，使工程师能够迅速响应潜在问题，无论他们身在何处。这种能力在能源等行业尤为重要，因为及时响应警报可以防止事故和环境灾难。总之，工程师的警报是现代工程实践中不可或缺的组成部分。它通过提供潜在故障的早期警告来增强安全性，从而使工程师能够采取预防措施。无论是在土木、软件还是机械工程中，工程师的警报的有效实施都能提高可靠性、效率和整体安全性。随着技术的不断进步，工程师的警报的作用无疑将变得更加复杂，进一步保护人类和基础设施。