hydronic

简明释义

英[haɪˈdrɒnɪk]美[haɪˈdrɑːnɪk]

adj. 液体循环加热的；液体循环冷却的

英英释义

单词用法

同义词

反义词

例句

1.Traditional hydronic sizing methods can be used for selecting pumps, expansion tanks, heat exchangers, and air removal devices, as long as the heat transfer liquid's thermal properties are considered.

传统的液体循环加热体量法在泵、蒸发器、热交换器和空气移动装置的选择中可以应用，在考虑载热流体的热血特性的情况下。

2.Danfoss floor heating Hydronics is offering a wide range of hydronic floor heating controls, easy to install and providing optimum temperature control.

丹佛斯地面水采暖提供广泛的产品，易于安装并提供理想的温度控制。

3.Terrazzo flooring contains hydronic radiant heating.

水磨石地板还能液体循环辐射加热。

4.Traditional hydronic sizing methods can be used for selecting pumps, expansion tanks, heat exchangers, and air removal devices, as long as the heat transfer liquid's thermal properties are considered.

传统的液体循环加热体量法在泵、蒸发器、热交换器和空气移动装置的选择中可以应用，在考虑载热流体的热血特性的情况下。

5.In the paper, the formula of economic friction factor for hydronic heating system with intermediate boosting pump station and different laying mode is derived theoretically.

本文从理论上推导出带中间增压泵站、有不同敷设方式的热水供热网经济比摩阻的计算公式。

6.Provide your customers with a quality installation using hydronic components you know you can depend on heating season after heating season.

提供进行优质安装所需的液体循环加热部件，在供暖季节到来后，可以安心地享受了。

7.Watts Series AS air Scoop which is designed for efficient separation of air from water in hydronic heating systems can also be installed.

美国瓦茨系列A S导气罩专用于有效地将气体从循环加热系统的水中分离出气体，因此也可安装这种导气罩。

8.In a hydronic 水力的 cooling system, chilled water is circulated to cool the air.

在水力的冷却系统中，冷却水被循环以冷却空气。

9.The hydronic 水力的 boiler provides hot water for the entire building.

该水力的锅炉为整个建筑提供热水。

10.The building's heating system is designed to be hydronic 水力的, using water to transfer heat efficiently.

这栋建筑的供暖系统设计为水力的，使用水有效地传递热量。

11.We installed a hydronic 水力的 radiant floor heating system in our new home.

我们在新家安装了一个水力的辐射地板供暖系统。

12.The hydronic 水力的 heating system is more energy-efficient compared to traditional systems.

与传统系统相比，水力的供暖系统更加节能。

作文

In recent years, the concept of energy efficiency has gained significant attention in various sectors, particularly in heating and cooling systems. One of the most effective methods employed in modern buildings is the use of hydronic systems. A hydronic system utilizes water as a medium for heat transfer, making it a popular choice for both residential and commercial applications. This essay will explore the advantages of hydronic systems, their working principles, and their impact on energy conservation.Firstly, the primary advantage of hydronic systems is their efficiency. Unlike traditional air-based heating systems, which can lose heat through ductwork, hydronic systems deliver warmth directly through pipes filled with heated water. This direct delivery minimizes heat loss, allowing for a more consistent and comfortable indoor temperature. Furthermore, because water is a better conductor of heat than air, hydronic systems can achieve the desired temperature with less energy consumption.Secondly, hydronic systems are versatile and can be used for various applications. They can provide both heating and cooling, depending on the needs of the building. In winter, the system can circulate hot water through radiators or underfloor heating, while in summer, chilled water can be circulated to cool the space. This dual functionality makes hydronic systems an attractive option for homeowners and businesses looking to invest in a long-term solution for climate control.Moreover, hydronic systems contribute to improved air quality. Traditional forced-air systems can stir up dust, allergens, and other pollutants, leading to poor indoor air quality. In contrast, hydronic systems do not rely on air movement to distribute heat, which means they do not circulate these contaminants. As a result, spaces heated by hydronic systems often have cleaner air, benefiting individuals with allergies or respiratory issues.Another important aspect of hydronic systems is their compatibility with renewable energy sources. Many hydronic systems can be integrated with solar thermal panels or geothermal systems, allowing for even greater energy savings. By harnessing renewable energy, these systems can significantly reduce reliance on fossil fuels, promoting sustainability and reducing greenhouse gas emissions.However, it is essential to consider the installation and maintenance costs associated with hydronic systems. While they may require a higher initial investment compared to traditional systems, the long-term savings on energy bills and the benefits of increased comfort and air quality often outweigh these initial costs. Additionally, regular maintenance is crucial to ensure the system operates efficiently and lasts for many years.In conclusion, hydronic systems represent a significant advancement in heating and cooling technology. Their efficiency, versatility, and positive impact on indoor air quality make them a compelling choice for modern buildings. As we continue to prioritize energy conservation and environmental sustainability, hydronic systems will likely play an increasingly important role in our efforts to create comfortable and eco-friendly living spaces. The adoption of hydronic technology can lead us toward a more sustainable future, where energy efficiency is at the forefront of our architectural designs and daily lives.

近年来，能源效率的概念在各个领域引起了显著关注，特别是在供暖和制冷系统中。现代建筑中采用的最有效方法之一是使用水力系统。水力系统利用水作为热量传递的介质，使其成为住宅和商业应用中的热门选择。本文将探讨水力系统的优点、工作原理及其对节能的影响。首先，水力系统的主要优点是其效率。与传统的空气供暖系统相比，后者可能会通过管道损失热量，水力系统通过充满热水的管道直接提供温暖。这种直接传递最小化了热量损失，使室内温度更一致、更舒适。此外，由于水的导热性能优于空气，水力系统能够以更少的能量消耗达到所需温度。其次，水力系统具有多功能性，可用于各种应用。根据建筑的需求，它们可以提供供暖和制冷。在冬季，系统可以通过散热器或地板采暖循环热水，而在夏季，可以循环冷却水以降温。这种双重功能使得水力系统成为希望投资于长期气候控制解决方案的房主和企业的有吸引力的选择。此外，水力系统有助于改善空气质量。传统的强制空气系统可能会搅动灰尘、过敏原和其他污染物，导致室内空气质量差。相反，水力系统不依赖空气流动来分配热量，这意味着它们不会循环这些污染物。因此，使用水力系统加热的空间通常空气更清洁，有利于过敏或呼吸问题的人士。水力系统的另一个重要方面是其与可再生能源的兼容性。许多水力系统可以与太阳能热能面板或地热系统集成，从而实现更大的节能效果。通过利用可再生能源，这些系统可以显著减少对化石燃料的依赖，促进可持续发展并减少温室气体排放。然而，考虑与水力系统相关的安装和维护成本是至关重要的。虽然与传统系统相比，它们可能需要更高的初始投资，但长期的能源账单节省以及提高的舒适度和空气质量的好处通常超过这些初始成本。此外，定期维护对于确保系统高效运行并使用多年至关重要。总之，水力系统代表了供暖和制冷技术的重大进步。它们的效率、多功能性以及对室内空气质量的积极影响使其成为现代建筑的有力选择。随着我们继续优先考虑节能和环境可持续性，水力系统在我们努力创造舒适和环保的生活空间中可能会发挥越来越重要的作用。采用水力技术可以引导我们走向更可持续的未来，在这个未来中，能源效率处于我们建筑设计和日常生活的前沿。