emergency cooling

简明释义

紧急冷却

英英释义

例句

1.During the fire drill, we practiced the emergency cooling measures for the chemical storage area.

在消防演习中，我们练习了化学品储存区的应急冷却措施。

2.The engineers designed a reliable emergency cooling system for the new spacecraft.

工程师为新航天器设计了一个可靠的应急冷却系统。

3.In case of a reactor overheating, the plant must activate the emergency cooling system to prevent a meltdown.

如果反应堆过热，工厂必须启动应急冷却系统以防止熔毁。

4.The emergency cooling procedure was implemented after the temperature exceeded safe levels in the laboratory.

在实验室温度超过安全水平后，实施了应急冷却程序。

5.When the server room reached critical temperatures, the emergency cooling fans kicked in automatically.

当服务器机房达到临界温度时，应急冷却风扇自动启动。

作文

In today's world, the importance of safety measures in various industries cannot be overstated. One critical aspect that often comes into play is the concept of emergency cooling. This term refers to the processes and systems put in place to rapidly reduce temperatures in situations where overheating poses a threat to equipment, personnel, or the environment. The need for emergency cooling arises in several contexts, including nuclear power plants, chemical manufacturing facilities, and even in large data centers that house servers and other sensitive electronic equipment.For instance, in a nuclear power plant, if the reactor core begins to overheat due to a malfunction, the consequences could be catastrophic. To prevent such disasters, these facilities are equipped with emergency cooling systems designed to quickly bring down the temperature of the reactor. These systems typically involve the circulation of water or other cooling fluids that absorb heat from the reactor core, ensuring that it remains within safe operational limits. The effectiveness of emergency cooling can mean the difference between a controlled situation and a full-blown crisis.Similarly, in chemical plants, reactions can sometimes become exothermic, meaning they release heat. If the heat generated exceeds the capacity of the cooling systems, it can lead to dangerous conditions. Here, emergency cooling systems are essential. They provide an additional layer of safety by allowing operators to quickly cool down reactors or storage tanks that may be at risk of overheating, thereby preventing potential explosions or toxic releases.Data centers also rely heavily on emergency cooling solutions. As technology advances, the demand for data processing increases, leading to higher heat generation from servers. If these machines overheat, they can fail, causing significant data loss and operational downtime. Therefore, data centers are equipped with sophisticated emergency cooling systems, including backup chillers and redundant cooling pathways, to ensure that the temperature remains stable even in the event of a primary cooling system failure.The implementation of emergency cooling systems is not just about technology; it also involves rigorous training and preparedness among staff. Personnel must be trained to recognize signs of overheating and to respond promptly to activate emergency cooling measures. Regular drills and maintenance checks are crucial to ensure that these systems function correctly when needed.Moreover, regulatory bodies often mandate specific standards for emergency cooling systems, emphasizing their role in maintaining safety across industries. Compliance with these regulations not only protects lives but also safeguards valuable assets and the environment.In conclusion, the term emergency cooling encapsulates a vital safety mechanism across various sectors. Whether in nuclear energy, chemical production, or data management, having reliable emergency cooling systems in place is essential for preventing disasters and ensuring operational continuity. As industries continue to evolve, the importance of maintaining effective emergency cooling protocols will only grow, highlighting the need for ongoing innovation and training in this critical area of safety management.

在当今世界，各个行业安全措施的重要性不言而喻。一个关键的方面是“应急冷却”的概念。这个术语指的是在过热对设备、人员或环境构成威胁的情况下，迅速降低温度的过程和系统。“应急冷却”的需求出现在多个场景中，包括核电站、化工制造设施，甚至是大型数据中心，这些地方存放着服务器和其他敏感电子设备。例如，在核电站，如果反应堆核心由于故障开始过热，后果可能是灾难性的。为了防止这种灾难，这些设施配备了设计用于快速降低反应堆温度的应急冷却系统。这些系统通常涉及循环水或其他冷却液体，这些液体吸收反应堆核心的热量，确保其保持在安全操作范围内。应急冷却的有效性可能意味着控制局势与全面危机之间的区别。同样，在化工厂中，反应有时会变得放热，意味着它们释放热量。如果产生的热量超过冷却系统的容量，就可能导致危险情况。在这里，应急冷却系统至关重要。它们提供了额外的安全层，使操作员能够迅速冷却可能面临过热风险的反应器或储罐，从而防止潜在的爆炸或有毒释放。数据中心也严重依赖应急冷却解决方案。随着技术的发展，对数据处理的需求增加，导致服务器产生更高的热量。如果这些机器过热，它们可能会故障，造成重大数据丢失和运营停机。因此，数据中心配备了复杂的应急冷却系统，包括备份冷却器和冗余冷却通道，以确保即使在主要冷却系统发生故障时，温度仍然保持稳定。实施应急冷却系统不仅仅是关于技术；它还涉及员工的严格培训和准备。人员必须接受培训，以识别过热的迹象，并及时响应以启动应急冷却措施。定期演练和维护检查对于确保这些系统在需要时正常工作至关重要。此外，监管机构通常要求应急冷却系统符合特定标准，强调其在各行业维持安全中的作用。遵守这些规定不仅保护生命，还保护宝贵的资产和环境。总之，应急冷却这个术语概括了各个行业的重要安全机制。无论是在核能、化工生产还是数据管理中，拥有可靠的应急冷却系统对于防止灾难和确保运营连续性至关重要。随着行业的不断发展，保持有效的应急冷却协议的重要性只会增加，突显了在这一关键安全管理领域持续创新和培训的必要性。