cooling grid

简明释义

排管蒸发器

英英释义

例句

1.In hot climates, a well-placed cooling grid can significantly reduce air conditioning costs.

在炎热的气候中，合理设置的冷却网格可以显著降低空调费用。

2.The cooling grid in the server room helps maintain an ideal operating temperature for the servers.

服务器机房中的冷却网格有助于维持服务器的理想工作温度。

3.Engineers designed a cooling grid to prevent overheating in the power plant.

工程师设计了一个冷却网格以防止发电厂过热。

4.A malfunctioning cooling grid can lead to equipment failure and costly repairs.

故障的冷却网格可能导致设备故障和昂贵的维修费用。

5.The new factory has an advanced cooling grid that ensures optimal temperature control for the machinery.

新工厂拥有先进的冷却网格，确保机器的最佳温度控制。

作文

In the realm of modern technology and infrastructure, the concept of a cooling grid has gained significant attention. A cooling grid refers to a network designed to manage and distribute cooling resources effectively across various facilities, particularly in urban environments. This system is crucial for maintaining optimal temperatures in buildings, especially during hot weather or in industrial settings where heat generation is substantial. The importance of a cooling grid cannot be overstated, as it plays a pivotal role in energy efficiency, environmental sustainability, and overall comfort.One of the primary benefits of implementing a cooling grid is its ability to reduce energy consumption. Traditional cooling methods often rely on individual air conditioning units that consume vast amounts of electricity, leading to high operational costs and increased carbon emissions. In contrast, a cooling grid centralizes cooling resources, allowing for better control and distribution of chilled water or air. This centralized approach not only optimizes energy use but also minimizes the environmental impact associated with cooling systems.Furthermore, a cooling grid enhances resilience in urban areas. As cities continue to grow and face the challenges of climate change, the need for efficient cooling solutions becomes more pressing. Heat waves can lead to increased energy demand, which may overwhelm existing power grids and result in blackouts. By utilizing a cooling grid, cities can better manage heat loads and distribute cooling resources where they are needed most, ensuring that critical infrastructures remain functional even during extreme weather conditions.The implementation of a cooling grid also promotes social equity. Many low-income neighborhoods suffer from inadequate cooling solutions, leading to health risks during heat events. By establishing a cooling grid, municipalities can provide access to cooling resources for all residents, reducing the disparity between affluent and disadvantaged communities. This equitable approach fosters a sense of community and ensures that everyone can enjoy a comfortable living environment, regardless of their economic status.Moreover, the integration of smart technologies into a cooling grid can further enhance its effectiveness. Smart sensors and IoT devices can monitor temperature and humidity levels in real-time, allowing for dynamic adjustments to cooling outputs based on current conditions. This data-driven approach not only improves energy efficiency but also enhances user comfort by providing tailored cooling solutions that respond to individual needs.In conclusion, the concept of a cooling grid represents a significant advancement in how we approach cooling in urban environments. By centralizing and optimizing cooling resources, we can reduce energy consumption, enhance resilience to climate change, promote social equity, and leverage smart technologies for better management. As cities continue to evolve and face new challenges, the adoption of a cooling grid will undoubtedly play a critical role in shaping sustainable and livable urban spaces for future generations.

在现代技术和基础设施的领域中，‘cooling grid’的概念受到了广泛关注。‘cooling grid’指的是一个设计用于有效管理和分配冷却资源的网络，特别是在城市环境中。该系统对于在炎热天气或工业环境中保持建筑物的最佳温度至关重要，因为这些地方的热量产生是相当显著的。‘cooling grid’的重要性不容小觑，因为它在能源效率、环境可持续性和整体舒适度方面发挥着关键作用。实施‘cooling grid’的主要好处之一是能够减少能源消耗。传统的冷却方法通常依赖于单独的空调设备，这些设备消耗大量电力，导致高昂的运营成本和增加的碳排放。相比之下，‘cooling grid’集中冷却资源，使得冷却水或空气的控制和分配更为高效。这种集中化的方法不仅优化了能源使用，还最小化了与冷却系统相关的环境影响。此外，‘cooling grid’增强了城市地区的韧性。随着城市不断发展并面临气候变化的挑战，对高效冷却解决方案的需求变得愈发紧迫。热浪会导致能源需求增加，这可能会使现有电网不堪重负，从而导致停电。通过利用‘cooling grid’，城市可以更好地管理热负荷，并在最需要的地方分配冷却资源，确保关键基础设施在极端天气条件下仍能正常运作。建立‘cooling grid’也促进了社会公平。许多低收入社区遭受冷却解决方案不足的问题，在热事件期间面临健康风险。通过建立‘cooling grid’，市政当局可以为所有居民提供冷却资源的获取，从而减少富裕与贫困社区之间的差距。这种公平的做法促进了社区感，并确保每个人都能享有舒适的居住环境，无论其经济状况如何。此外，将智能技术整合到‘cooling grid’中可以进一步增强其有效性。智能传感器和物联网设备可以实时监测温度和湿度水平，允许根据当前条件动态调整冷却输出。这种数据驱动的方法不仅提高了能源效率，还通过提供响应个体需求的量身定制的冷却解决方案来增强用户舒适度。总之，‘cooling grid’的概念代表了我们在城市环境中处理冷却问题的一项重大进步。通过集中和优化冷却资源，我们可以减少能源消耗，提高对气候变化的韧性，促进社会公平，并利用智能技术进行更好的管理。随着城市的不断演变并面临新的挑战，采用‘cooling grid’无疑将在塑造可持续和宜居的城市空间方面发挥关键作用，为未来几代人服务。