optimum temperature

简明释义

最适温度

英英释义

例句

1.The optimum temperature for baking bread is typically between 180 and 220 degrees Celsius.

烘焙面包的最佳温度通常在180到220摄氏度之间。

2.The plant thrives best at an optimum temperature of around 25 degrees Celsius.

这种植物在大约25摄氏度的最佳温度下生长最好。

3.The optimum temperature for storing vaccines is crucial to maintain their efficacy.

存储疫苗的最佳温度对维持其有效性至关重要。

4.To achieve the best results in fermentation, it is crucial to maintain the optimum temperature throughout the process.

为了在发酵中获得最佳效果，保持整个过程中的最佳温度至关重要。

5.For this chemical reaction, the optimum temperature is necessary to ensure maximum yield.

对于这个化学反应，最佳温度是确保最大产量所必需的。

作文

The concept of optimum temperature refers to the ideal temperature range at which a particular process, organism, or reaction functions most efficiently. In various fields such as biology, chemistry, and even engineering, understanding this temperature is crucial for achieving desired outcomes. For instance, in biological systems, different organisms have specific optimum temperatures that support their metabolic processes. For example, many enzymes in the human body operate best at around 37 degrees Celsius, which is considered the normal body temperature. If the temperature deviates significantly from this optimum temperature, the enzyme activity can decrease, leading to inefficient metabolic processes. In agriculture, knowing the optimum temperature for plant growth is vital for maximizing yield. Different crops have varying optimum temperatures for germination, flowering, and fruiting. For instance, corn grows best when the soil temperature is between 15 to 30 degrees Celsius. If the temperature is too low, germination may be delayed, while excessively high temperatures can lead to stress and reduced yields. Farmers often rely on weather forecasts and climate data to determine the best planting times to ensure that their crops thrive at their optimum temperatures. Similarly, in industrial processes, maintaining an optimum temperature can significantly enhance production efficiency. Many chemical reactions are temperature-sensitive, and operating at the optimum temperature can increase reaction rates and yield while minimizing energy consumption. For example, in the production of plastics, controlling the temperature during polymerization is essential to achieve the desired properties of the final product. Deviations from this optimum temperature can result in defective materials or increased production costs. Moreover, climate change poses a significant threat to the optimum temperatures required for various ecosystems. As global temperatures rise, many species may find it increasingly difficult to survive within their optimum temperature ranges. This shift can lead to changes in species distribution, altered migration patterns, and even extinction for some vulnerable species. Conservation efforts must take into account these changes in optimum temperatures to protect biodiversity and ecosystem health. In conclusion, the importance of understanding and maintaining the optimum temperature cannot be overstated. Whether in biological systems, agriculture, industrial processes, or environmental conservation, recognizing the ideal temperature ranges is key to optimizing performance and ensuring sustainability. As we face the challenges posed by climate change, it becomes increasingly important to monitor and adapt to shifts in these optimum temperatures to safeguard our ecosystems and resources for future generations.

“最佳温度”这一概念是指特定过程、生命体或反应最有效地运作的理想温度范围。在生物学、化学甚至工程等多个领域，理解这一温度对于实现预期结果至关重要。例如，在生物系统中，不同的生物有其特定的“最佳温度”，以支持其代谢过程。例如，人体内的许多酶在约37摄氏度时运作最佳，这被认为是正常的体温。如果温度显著偏离这个“最佳温度”，酶的活性可能会下降，导致代谢过程效率降低。在农业中，了解植物生长的“最佳温度”对最大化产量至关重要。不同作物在发芽、开花和结果时具有不同的“最佳温度”。例如，玉米在土壤温度在15到30摄氏度之间时生长最好。如果温度过低，发芽可能会延迟，而过高的温度则可能导致植物压力和产量减少。农民通常依赖天气预报和气候数据来确定最佳播种时间，以确保他们的作物在其“最佳温度”下茁壮成长。同样，在工业过程中，保持“最佳温度”可以显著提高生产效率。许多化学反应对温度敏感，在“最佳温度”下操作可以提高反应速率和产量，同时最小化能耗。例如，在塑料生产中，控制聚合过程中的温度对于实现最终产品所需的特性至关重要。偏离这一“最佳温度”可能导致材料缺陷或增加生产成本。此外，气候变化对各种生态系统所需的“最佳温度”构成了重大威胁。随着全球气温上升，许多物种可能会发现很难在其“最佳温度”范围内生存。这种变化可能导致物种分布的变化、迁徙模式的改变，甚至一些脆弱物种的灭绝。保护工作必须考虑这些“最佳温度”的变化，以保护生物多样性和生态系统健康。总之，理解和维持“最佳温度”的重要性不容小觑。无论是在生物系统、农业、工业过程还是环境保护中，识别理想的温度范围是优化性能和确保可持续发展的关键。面对气候变化带来的挑战，监测和适应这些“最佳温度”的变化变得越来越重要，以保护我们的生态系统和资源，为未来的世代保驾护航。