calorimetric

简明释义

英[/ˌkæl.ə.rɪˈmɛ.trɪk/]美[/ˌkæl.ə.rɪˈmɛ.trɪk/]

adj. 测热的

英英释义

单词用法

同义词

反义词

例句

1.A calorimetric system which was made by the combination of Differential Thermal Analysis (DTA) and Gas Chromatography for measuring adsorption heat is described in this paper.

本文介绍了一种差热分析与色谱联用法测吸附热的量热系统。

2.A calorimetric system which was made by the combination of Differential Thermal Analysis (DTA) and Gas Chromatography for measuring adsorption heat is described in this paper.

本文介绍了一种差热分析与色谱联用法测吸附热的量热系统。

3.The interaction between T4 phage and host cells was determined by titration calorimetric method, and the early information of T4 phage infection and penetration were got.

滴定微量热测定t 4噬菌体与宿主细胞的相互作用，获得了T4噬菌体感染和侵入早期过程的热力学信息。

4.A new infrared temperature measure system based on the calorimetric method has been developed to survey the welding temperature field in real time.

研制了一种新颖的单镜头双波长红外图像比色测温系统来实时检测焊接温度场。

5.The testing methods about cooling-constant and quantity of heat-exchange between the calorimetric system and its environment are introduced.

介绍了绝热式量热体系冷却常数及量热体系与周围环境热交换量的测试方法。

6.Microcalorimetry techniques are often required when performing calorimetric experiments with small sample sizes or slow heating rates.

在进行小尺寸样品或者慢加热速率的量热学实验时，常常需要使用微热量测量技术。

7.The calorimetric results indicate that mechanically activated zinc oxide can release the storage energy during calorimetric process.

对行星式球磨和搅拌式球磨氧化锌在不同活化时间及不同转速下储能结果进行了比较。

8.A set of conduction type high temperature calorimetric system for measurement of heat sink of endothermic fuels has been developed.

介绍了一套自制的热导式高温量热系统，热量常数可用电标定法测定。

9.Then the principle of AC calorimetric method and its experiment technology were described in detail.

然后深入讨论了交流量热法测试薄膜热扩散率的原理及其实验技术。

10.Based on the calorimetric tritium method, an automatic tritium measurement device was designed.

以量热测氚法为基础，设计了一套自动化测氚装置。

11.The researchers conducted a series of calorimetric 热量测定的 experiments to measure the heat capacities of various materials.

研究人员进行了系列的热量测定的实验，以测量各种材料的热容。

12.In order to determine the efficiency of the new engine, the team used calorimetric 热量测定的 methods to analyze fuel consumption.

为了确定新发动机的效率，团队使用了热量测定的方法来分析燃料消耗。

13.The calorimetric 热量测定的 data obtained from the experiment was crucial for validating the theoretical models.

从实验中获得的热量测定的数据对于验证理论模型至关重要。

14.During the calorimetric 热量测定的 analysis, the scientists discovered unexpected heat release during the reaction.

在热量测定的分析过程中，科学家们发现反应中出现了意外的热释放。

15.The calorimetric 热量测定的 technique is often used in food science to determine the energy content of different foods.

在食品科学中，通常使用热量测定的技术来确定不同食品的能量含量。

作文

Calorimetry is a branch of science that deals with the measurement of heat transfer. It plays a crucial role in various fields, including chemistry, physics, and engineering. One of the key techniques used in calorimetry is known as calorimetric (热量测定的) analysis, which helps scientists understand the energy changes during chemical reactions and physical processes. This method involves using a device called a calorimeter, which can measure the amount of heat absorbed or released by a substance during a reaction. In essence, calorimetric (热量测定的) methods allow researchers to quantify the thermal energy involved in reactions, making it possible to derive important thermodynamic properties. For example, when a substance undergoes a phase change, such as melting or boiling, calorimetric measurements can provide insights into the enthalpy of fusion or vaporization. These properties are vital for understanding how substances behave under different temperature and pressure conditions. One of the most common applications of calorimetric (热量测定的) techniques is in the study of combustion reactions. By measuring the heat produced during the combustion of fuels, scientists can determine their energy content and efficiency. This information is essential for developing better fuels and optimizing combustion processes in engines and power plants. Moreover, calorimetry can also be applied in the food industry, where it helps in assessing the caloric value of food products, thereby guiding nutritional labeling and dietary recommendations. Another significant application of calorimetric (热量测定的) methods is in the field of biochemistry. Enzymatic reactions often involve heat changes that can be measured using calorimetry. By studying these heat changes, researchers can gain valuable insights into enzyme kinetics and mechanisms. This information is critical for drug development, as it can help identify potential inhibitors or activators of specific enzymes, leading to more effective therapeutic agents. Furthermore, calorimetric (热量测定的) techniques are also employed in material science. The thermal properties of materials can significantly influence their performance in various applications. For instance, understanding the heat capacity and thermal conductivity of materials can aid in the design of better insulators or heat exchangers. By utilizing calorimetric measurements, scientists can tailor materials to meet specific thermal requirements, enhancing their functionality and efficiency. In conclusion, calorimetric (热量测定的) methods are indispensable tools in scientific research and industrial applications. They provide essential data on heat transfer and energy changes, allowing for a deeper understanding of chemical reactions, physical processes, and material properties. As technology advances, the precision and accuracy of calorimetric measurements continue to improve, opening new avenues for exploration in various scientific disciplines. By harnessing the power of calorimetric (热量测定的) techniques, researchers can unlock the mysteries of energy transformations, ultimately contributing to advancements in science and technology that benefit society as a whole.

热量测定是一个涉及热量转移测量的科学分支。它在化学、物理和工程等多个领域中发挥着重要作用。热量测定中使用的关键技术之一被称为calorimetric（热量测定的）分析，这有助于科学家理解化学反应和物理过程中的能量变化。这种方法涉及使用一种称为量热计的设备，该设备可以测量反应过程中物质吸收或释放的热量。 从本质上讲，calorimetric（热量测定的）方法使研究人员能够量化反应中涉及的热能，从而得出重要的热力学属性。例如，当物质经历相变，如熔化或蒸发时，热量测定测量可以提供关于熔化焓或蒸发焓的见解。这些性质对于理解物质在不同温度和压力条件下的行为至关重要。 calorimetric（热量测定的）技术最常见的应用之一是在燃烧反应的研究中。通过测量燃料燃烧过程中产生的热量，科学家可以确定其能量含量和效率。这些信息对于开发更好的燃料和优化发动机及发电厂中的燃烧过程至关重要。此外，热量测定还可以应用于食品工业，帮助评估食品产品的卡路里价值，从而指导营养标签和饮食建议。 calorimetric（热量测定的）方法的另一个重要应用是在生物化学领域。酶促反应通常涉及热量变化，可以使用热量测定进行测量。通过研究这些热量变化，研究人员可以获得有关酶动力学和机制的宝贵见解。这些信息对于药物开发至关重要，因为它可以帮助识别特定酶的潜在抑制剂或激活剂，从而导致更有效的治疗药物。 此外，calorimetric（热量测定的）技术还用于材料科学。材料的热性能可能会显著影响其在各种应用中的表现。例如，了解材料的热容和导热性可以帮助设计更好的绝缘材料或热交换器。通过利用热量测定，科学家可以根据特定的热要求来调整材料，从而增强其功能性和效率。 总之，calorimetric（热量测定的）方法是科学研究和工业应用中不可或缺的工具。它们提供关于热量转移和能量变化的重要数据，使我们能够更深入地理解化学反应、物理过程和材料特性。随着技术的进步，热量测定测量的精度和准确性不断提高，为各个科学学科的探索开辟了新的途径。通过利用calorimetric（热量测定的）技术的力量，研究人员可以揭示能量转化的奥秘，最终推动科学和技术的进步，造福整个社会。