thermic

简明释义

英[ˈθɜːmɪk]美[ˈθɜːrmɪk]

adj. 热的；由热造成的；热量的

英英释义

单词用法

同义词

反义词

例句

1.There was no change in ETR of each source rock interval with the increase of depth in the oil window, which indicated ETR had excellent thermic stability.

在生油窗内同一套烃源岩样品的ETR随深度（成熟度）增加无明显变化，具有很好的热稳定性；

2.The material choices took in consideration maintenance in a long term and thermic performance, calculated by an specialist for each area of the house.

材料的选择考虑到了长期的维护和保温隔热性能，并且住宅的每个区域也都经过专家的考量。

3.ABSTRACT: Are you drinking wine at the right temperature? An Australian winery added ecto-thermic stickers on their wine labels to detect the temperature of the liquid.

摘要：你喝葡萄酒的温度对吗？澳洲一家酒庄在酒标上加上了感温贴纸检测酒液温度。

4.A new type of passive solar heating element, fluid convective thermic diode with partition, is developed.

对一种新型的太阳能采暖部件——隔板式液体对流二极管进行了实验研究。

5.Fiber provides a plethora of benefits from increasing the thermic effect (calories burned from digestion) of a meal, to trapping and evacuating excess fats.

纤维提供了大量的好处，能够促进饮食中卡路里的消耗，抑制消除多余的脂肪。

6.The thermic rays emitted by the explosion burned the pattern of this woman's kimono upon her back.

爆炸释放的热辐射将她所着和服背后的花纹烧毁。

7.The Thermic Effect of food is defined as: the increment in energy expenditure above resting metabolic rate due to the cost of processing food for storage and use.

食物热效应的定义是：机体摄入食物过程中，机体能量代谢比基础代谢增高的部分。

8.Objective:In order to set up the examining method about the bio-thermic activity and compare the biological effect of Coptis Chinensis in different areas.

目的：建立生物热活性检测方法比较不同产地黄连的生物效应。

9.Using thermic 热的 blankets can help conserve body heat during cold nights.

使用thermic 热的毯子可以帮助在寒冷的夜晚保持体温。

10.The thermic 热的 dynamics of the atmosphere are crucial for understanding weather patterns.

大气的thermic 热的动态对于理解天气模式至关重要。

11.The new jacket is designed with thermic 热的 insulation to keep you warm in winter.

这款新夹克采用了设计有thermic 热的绝缘材料，能让你在冬天保持温暖。

12.In the study, researchers found that thermic 热的 properties of certain materials can affect energy efficiency.

在研究中，研究人员发现某些材料的thermic 热的特性会影响能效。

13.The thermic 热的 effect of the sun can significantly raise the temperature of the surface.

太阳的thermic 热的效应可以显著提高表面的温度。

作文

In our modern world, the understanding of energy and its various forms plays a crucial role in addressing environmental challenges. One important concept that often comes into play is the idea of thermic (热的) energy, which refers to the heat energy produced by various processes. This energy is not only essential for maintaining life on Earth but also serves as a driving force behind many technological advancements. The sun, as the primary source of energy for our planet, emits a vast amount of thermic (热的) energy, which is absorbed by the Earth's surface, oceans, and atmosphere. This absorption of heat leads to various climatic phenomena, influencing weather patterns and ecosystems around the globe. Understanding how thermic (热的) energy works is vital for scientists and researchers who study climate change and its impacts. Moreover, the utilization of thermic (热的) energy in technology has transformed industries. For example, in renewable energy sectors, solar panels convert sunlight into usable electricity through photovoltaic cells, harnessing the sun's thermic (热的) energy. This innovation not only reduces reliance on fossil fuels but also contributes to a more sustainable future. In addition to solar energy, other forms of thermic (热的) energy are being explored. Geothermal energy, for instance, taps into the heat stored beneath the Earth's crust, providing a reliable and consistent energy source. As countries seek to diversify their energy portfolios, the potential of thermic (热的) energy from geothermal sources becomes increasingly significant. The importance of thermic (热的) energy extends beyond just energy production; it also plays a crucial role in heating systems within our homes and buildings. Central heating systems often rely on thermic (热的) energy generated from burning fossil fuels or using electric heaters. Understanding how to optimize these systems can lead to greater energy efficiency and reduced carbon footprints. Furthermore, the field of thermodynamics, which studies the relationship between heat and other forms of energy, is foundational for engineers and scientists working on various projects. The principles of thermic (热的) energy transfer are applied in designing engines, refrigerators, and even climate control systems in vehicles. By mastering these principles, we can create more efficient machines that consume less energy and produce fewer emissions. In conclusion, the concept of thermic (热的) energy is integral to our understanding of both natural processes and technological advancements. As we face pressing environmental issues, the ability to harness and utilize thermic (热的) energy efficiently will be paramount. From renewable energy solutions to improved heating systems, the potential applications of thermic (热的) energy are vast and varied. Embracing this knowledge will not only lead to innovations that benefit society but also contribute to a healthier planet for future generations.

在我们现代世界中，能量及其各种形式的理解在应对环境挑战方面起着至关重要的作用。一个经常被提及的重要概念是thermic（热的）能量的概念，它指的是由各种过程产生的热能。这种能量不仅对维持地球上的生命至关重要，而且也是许多技术进步背后的驱动力。太阳作为我们星球的主要能量来源，发出大量的thermic（热的）能量，这些能量被地球的表面、海洋和大气吸收。这种热量的吸收导致各种气候现象，影响着全球的天气模式和生态系统。理解thermic（热的）能量如何运作对于研究气候变化及其影响的科学家和研究人员至关重要。此外，thermic（热的）能量在技术中的利用改变了许多行业。例如，在可再生能源领域，太阳能电池板通过光伏电池将阳光转化为可用电力，利用太阳的thermic（热的）能量。这项创新不仅减少了对化石燃料的依赖，还为更可持续的未来做出了贡献。除了太阳能外，其他形式的thermic（热的）能量也正在被探索。地热能，例如，利用储存在地壳下的热量，提供可靠且一致的能源来源。随着各国寻求多样化其能源组合，来自地热源的thermic（热的）能量的潜力变得越来越重要。thermic（热的）能量的重要性不仅限于能源生产；它在我们家庭和建筑物的供暖系统中也发挥着关键作用。中央供暖系统通常依赖于燃烧化石燃料或使用电加热器产生的thermic（热的）能量。了解如何优化这些系统可以实现更高的能效和减少碳足迹。此外，热力学领域研究热与其他形式能量之间的关系，是工程师和科学家在各种项目上工作的基础。thermic（热的）能量传递的原理应用于发动机、冰箱，甚至汽车的气候控制系统的设计。通过掌握这些原理，我们可以创造出更高效的机器，消耗更少的能量，产生更少的排放。总之，thermic（热的）能量的概念对我们理解自然过程和技术进步至关重要。随着我们面临紧迫的环境问题，有效利用和利用thermic（热的）能量的能力将是至关重要的。从可再生能源解决方案到改进的供暖系统，thermic（热的）能量的潜在应用是广泛而多样的。拥抱这一知识不仅将导致有益于社会的创新，还将为未来几代人创造一个更健康的星球。