economizer cycle

简明释义

省热装置循环系统

英英释义

例句

1.Our new chiller is equipped with an advanced economizer cycle 节能循环 that optimizes performance.

我们的新冷却器配备了先进的节能循环 economizer cycle，优化了性能。

2.The HVAC system in our office utilizes an economizer cycle 节能循环 to reduce energy consumption during mild weather.

我们办公室的暖通空调系统利用节能循环 economizer cycle 在温和天气中减少能源消耗。

3.The economizer cycle 节能循环 allows for free cooling by using outside air when conditions are favorable.

当条件适宜时，节能循环 economizer cycle 通过使用外部空气实现免费制冷。

4.By implementing an economizer cycle 节能循环, the building's energy efficiency has improved significantly.

通过实施节能循环 economizer cycle，建筑的能源效率显著提高。

5.During the summer months, the economizer cycle 节能循环 helps maintain comfortable indoor temperatures without excessive energy use.

在夏季，节能循环 economizer cycle 帮助维持舒适的室内温度，而无需过多的能源使用。

作文

The concept of the economizer cycle is crucial in understanding energy efficiency in modern heating, ventilation, and air conditioning (HVAC) systems. An economizer cycle refers to a specific operational strategy that optimizes the use of outdoor air to reduce the energy consumption of mechanical cooling systems. By leveraging favorable outdoor conditions, this cycle allows buildings to maintain comfortable indoor climates while minimizing reliance on traditional cooling methods. In essence, the economizer cycle operates by using sensors to monitor the temperature and humidity levels of both indoor and outdoor air. When the outdoor air is cooler and less humid than the indoor air, the system can introduce this fresh air into the building, effectively cooling it without the need for mechanical refrigeration. This process not only reduces energy costs but also enhances indoor air quality by increasing ventilation rates.The advantages of implementing an economizer cycle are manifold. Firstly, it significantly lowers operating costs by reducing the workload on chillers and other cooling equipment. This reduction in energy consumption translates to lower utility bills, which can be particularly beneficial for large commercial buildings that typically have high energy demands. Secondly, the economizer cycle contributes to sustainability efforts by decreasing the overall carbon footprint of a building. By using natural cooling methods, buildings can operate more efficiently, aligning with global initiatives aimed at reducing greenhouse gas emissions.Moreover, the economizer cycle can improve the longevity of HVAC systems. By minimizing the time that mechanical cooling systems are in operation, wear and tear on equipment is reduced, leading to lower maintenance costs and extended equipment life. This aspect is particularly important for facility managers and building owners who seek to maximize their return on investment.However, it is essential to note that the effectiveness of the economizer cycle is highly dependent on local climate conditions. In regions where outdoor temperatures do not frequently fall below indoor temperatures, the benefits of using an economizer cycle may be limited. Therefore, it is vital for engineers and designers to carefully evaluate the climate data and building requirements before integrating this system into new or existing facilities.In conclusion, the economizer cycle represents a significant advancement in energy-efficient building design. By harnessing the power of outdoor air, this innovative approach not only reduces energy costs but also promotes environmental sustainability. As building codes and regulations increasingly emphasize energy efficiency, the adoption of economizer cycles will likely become more prevalent in the quest for greener buildings. Understanding and implementing this cycle can lead to substantial benefits for both building occupants and the environment at large.

“经济器循环”这一概念对于理解现代供暖、通风和空调（HVAC）系统中的能源效率至关重要。“经济器循环”是指一种特定的操作策略，旨在优化户外空气的使用，以减少机械制冷系统的能耗。通过利用有利的户外条件，该循环允许建筑物在最大限度减少对传统制冷方法的依赖的同时，保持舒适的室内气候。从本质上讲，“经济器循环”通过使用传感器监测室内和室外空气的温度和湿度水平来运行。当户外空气比室内空气更凉爽且湿度更低时，系统可以将新鲜空气引入建筑，有效地在不需要机械制冷的情况下进行冷却。这一过程不仅降低了能源成本，还通过增加通风率提高了室内空气质量。实施“经济器循环”的优势是多方面的。首先，它通过减少冷却设备的工作负荷显著降低了运营成本。这种能耗的减少转化为较低的水电费，这对通常具有高能耗的大型商业建筑尤其有利。其次，“经济器循环”通过减少建筑的整体碳足迹，促进可持续发展努力。通过使用自然冷却方法，建筑可以更高效地运作，从而与全球减少温室气体排放的倡议相一致。此外，“经济器循环”还可以改善HVAC系统的使用寿命。通过最小化机械制冷系统的运行时间，设备的磨损和撕裂得以减少，从而降低维护成本并延长设备的使用寿命。对于寻求最大化投资回报的设施管理者和建筑所有者而言，这一点尤为重要。然而，必须注意的是，“经济器循环”的有效性在很大程度上取决于当地的气候条件。在户外温度不经常低于室内温度的地区，使用“经济器循环”的好处可能会有限。因此，工程师和设计师在将该系统集成到新建或现有设施中之前，仔细评估气候数据和建筑需求是至关重要的。总之，“经济器循环”代表了能源高效建筑设计的重要进步。通过利用户外空气的力量，这种创新的方法不仅降低了能源成本，还促进了环境的可持续性。随着建筑规范和法规越来越强调能源效率，“经济器循环”的采用在追求更绿色建筑的过程中可能会变得更加普遍。理解和实施这一循环可以为建筑居住者和整个环境带来重大益处。