thermomotor

简明释义

英[ˌθɜːməʊˈməʊtə]美[ˌθɜːrməˈmotər]

n. 热发动机

英英释义

单词用法

同义词

反义词

例句

1.In the perspective of thermodynamical laws and regarding an individual, a community or a city as a physical system like a thermomotor, the paper discusses garbage problems.

文章从热力学定律出发对垃圾问题进行分析，一个人，一个社区，一个城市，都可以看做是类似热机的物理系统。

2.In the perspective of thermodynamical laws and regarding an individual, a community or a city as a physical system like a thermomotor, the paper discusses garbage problems.

文章从热力学定律出发对垃圾问题进行分析，一个人，一个社区，一个城市，都可以看做是类似热机的物理系统。

3.The new thermomotor 热动机 in the car improves fuel efficiency significantly.

新型的thermomotor 热动机显著提高了汽车的燃油效率。

4.The thermomotor 热动机 operates more efficiently at higher temperatures.

该thermomotor 热动机在更高温度下运行更高效。

5.Engineers are testing a prototype of a thermomotor 热动机 that converts heat into mechanical energy.

工程师们正在测试一种将热能转化为机械能的thermomotor 热动机原型。

6.The efficiency of a thermomotor 热动机 can be affected by the materials used in its construction.

构造中使用的材料会影响thermomotor 热动机的效率。

7.In renewable energy systems, a thermomotor 热动机 can be used to harness waste heat.

在可再生能源系统中，可以使用thermomotor 热动机来利用废热。

作文

In the realm of engineering and technology, the term thermomotor refers to a specific type of device that converts thermal energy into mechanical energy. This fascinating invention has numerous applications in various fields, including automotive engineering, aerospace technology, and even household appliances. Understanding the workings and significance of a thermomotor can provide insights into how energy conversion processes play a crucial role in our daily lives.The basic principle behind a thermomotor is relatively simple: it operates on the concept of thermodynamics, which is the study of heat transfer and energy conversion. When heat is applied to a working substance, such as gas or liquid, it expands and creates pressure. This pressure can be harnessed to do work, such as turning a crankshaft or driving a piston. The efficiency of a thermomotor largely depends on the materials used and the design of the system, which must be optimized to maximize energy output while minimizing losses.One of the most notable examples of a thermomotor in action is found in the automotive industry. Internal combustion engines, for instance, are a form of thermomotor that converts the chemical energy of fuel into mechanical energy. When fuel combusts, it generates heat, which expands gases within the engine's cylinders. This expansion forces the pistons to move, ultimately powering the vehicle. As environmental concerns rise, the development of more efficient and cleaner thermomotor technologies has become increasingly important, leading to innovations such as electric vehicles and hybrid systems.In addition to automotive applications, thermomotors are also utilized in power generation. For example, steam turbines, which are a type of thermomotor, convert thermal energy from steam into mechanical energy to generate electricity. In this case, water is heated to produce steam, which then drives the turbine blades. The electricity generated can power homes, businesses, and industries, showcasing how thermomotors play a vital role in our energy infrastructure.Household appliances also benefit from the principles of thermomotor technology. Many heating devices, such as electric kettles and ovens, utilize thermal energy to perform their functions. While these appliances may not be labeled as thermomotors in the traditional sense, they operate on the same fundamental principles of converting heat into useful work, whether it be boiling water or cooking food.As we look towards the future, the role of thermomotors will continue to evolve, especially with the increasing emphasis on sustainability and energy efficiency. Researchers and engineers are exploring new materials and designs that can enhance the performance of thermomotors, making them more reliable and environmentally friendly. Innovations such as thermoelectric generators, which directly convert temperature differences into electrical energy, exemplify the potential advancements in this field.In conclusion, the thermomotor is a remarkable invention that exemplifies the principles of thermodynamics and energy conversion. From powering vehicles to generating electricity and heating our homes, thermomotors have a significant impact on our daily lives and the global economy. As technology continues to advance, the exploration and optimization of thermomotors will undoubtedly lead to more efficient and sustainable energy solutions, shaping the future of engineering and technology.

在工程和技术领域，术语thermomotor指的是一种将热能转化为机械能的特定设备。这项迷人的发明在汽车工程、航空航天技术甚至家用电器等多个领域都有着广泛的应用。理解thermomotor的工作原理和重要性，可以让我们洞察能量转换过程在日常生活中的关键作用。thermomotor的基本原理相对简单：它基于热力学的概念，即研究热量传递和能量转换。当热量施加到某种工作物质（如气体或液体）上时，它会膨胀并产生压力。这种压力可以被利用来做功，例如转动曲轴或推动活塞。thermomotor的效率在很大程度上取决于所使用的材料和系统的设计，这必须经过优化，以最大限度地提高能量输出，同时减少损失。在汽车工业中，一个显著的thermomotor实例就是内燃机，它将燃料的化学能转化为机械能。当燃料燃烧时，会产生热量，导致气体在发动机气缸内膨胀。这种膨胀迫使活塞运动，最终驱动车辆。随着环境问题的日益严重，开发更高效和更清洁的thermomotor技术变得越来越重要，促使电动车和混合动力系统等创新的发展。除了汽车应用，thermomotor还用于发电。例如，蒸汽涡轮机作为一种thermomotor，将蒸汽的热能转化为机械能来发电。在这种情况下，水被加热以产生蒸汽，然后推动涡轮叶片。生成的电力可以为家庭、企业和工业提供电力，展示了thermomotors在我们的能源基础设施中扮演的重要角色。家用电器也受益于thermomotor技术的原理。许多加热设备，如电水壶和烤箱，利用热能来执行其功能。虽然这些设备在传统意义上可能不会被称为thermomotor，但它们的工作原理与将热量转化为有用工作的基本原则相同，无论是煮沸水还是烹饪食物。展望未来，thermomotor的角色将继续演变，尤其是在可持续性和能源效率日益受到重视的背景下。研究人员和工程师正在探索新材料和设计，以提高thermomotor的性能，使其更加可靠和环保。热电发电机等创新直接将温差转化为电能，体现了这一领域潜在的进步。总之，thermomotor是一项杰出的发明，体现了热力学和能量转换的原理。从为车辆提供动力到发电以及加热我们的家，thermomotors对我们的日常生活和全球经济产生了重大影响。随着技术的不断进步，对thermomotors的探索和优化无疑将导致更高效和可持续的能源解决方案，塑造工程和技术的未来。