non freezing solution

简明释义

防冻溶液

英英释义

例句

1.The lab technician prepared a non freezing solution 不冻结溶液 to ensure the samples remained viable during transport.

实验室技术员准备了一种non freezing solution 不冻结溶液 以确保样本在运输过程中保持活性。

2.When preparing for winter, it's essential to use a non freezing solution 不冻结溶液 in your car's windshield washer fluid.

在准备冬季时，使用汽车挡风玻璃清洗液中的non freezing solution 不冻结溶液 是至关重要的。

3.For outdoor equipment, using a non freezing solution 不冻结溶液 can prevent pipes from bursting in cold weather.

对于户外设备，使用non freezing solution 不冻结溶液 可以防止管道在寒冷天气中破裂。

4.Scientists often utilize a non freezing solution 不冻结溶液 in cryopreservation to protect cells from damage.

科学家们在冷冻保存中常常使用non freezing solution 不冻结溶液 以保护细胞免受损伤。

5.In the food industry, a non freezing solution 不冻结溶液 is often used to keep ingredients fresh without freezing them.

在食品行业，通常使用non freezing solution 不冻结溶液 来保持成分的新鲜而不冻结它们。

作文

In the realm of science and technology, the term non freezing solution refers to a type of liquid that remains in a fluid state even at low temperatures. This property is crucial in various applications, particularly in areas such as cryogenics, transportation, and even everyday household products. Understanding the significance of non freezing solution can provide insights into how we can better manage temperature-sensitive processes and materials.One of the most common examples of a non freezing solution is antifreeze, which is used in vehicles to prevent the engine coolant from freezing during cold weather. Antifreeze is typically made from ethylene glycol or propylene glycol, both of which lower the freezing point of water when mixed with it. This characteristic is essential for maintaining the functionality of engines in frigid conditions, ensuring that vehicles can operate smoothly regardless of the weather.Another application of non freezing solution can be found in the field of food preservation. Many food products require specific temperatures to remain fresh and safe for consumption. By using non freezing solution methods, such as brining or marinating with salt solutions, food can be preserved without the risk of ice crystal formation, which can damage cellular structures and degrade quality. This technique is especially important for meats and seafood, where texture and flavor are critical.In addition to practical applications, the study of non freezing solution also extends to scientific research. For instance, scientists often use non freezing solution environments in laboratory settings to conduct experiments under controlled conditions. This allows them to analyze the behavior of various substances at lower temperatures without the complications that arise from freezing. Such studies can lead to breakthroughs in materials science, biology, and chemistry, contributing to innovations that benefit society as a whole.Moreover, the environmental implications of non freezing solution are worth noting. As climate change continues to impact global temperatures, understanding how different solutions behave under varying conditions becomes increasingly important. Developing non freezing solution technologies can help mitigate some of the adverse effects of extreme weather, such as ensuring that infrastructure remains intact during icy conditions. Furthermore, exploring alternative non freezing solution materials could lead to more sustainable practices in industries that rely heavily on temperature management.In conclusion, the concept of non freezing solution encompasses a wide range of applications and implications across various fields. From automotive to food preservation, and scientific research to environmental sustainability, the ability to maintain a liquid state at low temperatures plays a vital role in our daily lives and technological advancements. As we continue to explore the potential of non freezing solution, it is essential to recognize its importance and strive for innovations that enhance our understanding and utilization of these unique substances.

在科学和技术领域，术语非冻结溶液指的是一种即使在低温下也保持流动状态的液体。这种特性在各种应用中至关重要，特别是在低温技术、运输，甚至日常家居产品等领域。理解非冻结溶液的重要性可以提供对如何更好地管理温度敏感过程和材料的见解。最常见的非冻结溶液例子之一是防冻剂，它用于车辆以防止发动机冷却液在寒冷天气中冻结。防冻剂通常由乙二醇或丙二醇制成，这两者在与水混合时都会降低水的冰点。这一特性对于在寒冷条件下保持发动机的功能至关重要，确保车辆无论天气如何都能顺利运行。非冻结溶液的另一个应用可以在食品保存领域找到。许多食品产品需要特定的温度来保持新鲜和安全。通过使用如盐溶液腌制或腌制的方法，可以在没有冰晶形成风险的情况下保存食品，这样可以保护细胞结构，保持质量。这种技术对于肉类和海鲜尤为重要，因为质地和风味至关重要。除了实际应用外，非冻结溶液的研究也扩展到科学研究领域。例如，科学家们经常在实验室环境中使用非冻结溶液环境，以在受控条件下进行实验。这使得他们能够分析在低温下各种物质的行为，而不必担心冰冻带来的复杂问题。这些研究可能会导致材料科学、生物学和化学方面的突破，为整个社会的创新做出贡献。此外，非冻结溶液的环境影响也是值得注意的。随着气候变化持续影响全球温度，了解不同溶液在不同条件下的表现变得越来越重要。开发非冻结溶液技术可以帮助缓解极端天气的一些不利影响，例如确保基础设施在冰冷条件下保持完好。此外，探索替代的非冻结溶液材料可能会导致在依赖温度管理的行业中采取更可持续的做法。总之，非冻结溶液的概念涵盖了各个领域的广泛应用和影响。从汽车到食品保存，从科学研究到环境可持续性，在低温下保持液态的能力在我们的日常生活和技术进步中扮演着至关重要的角色。随着我们继续探索非冻结溶液的潜力，认识到其重要性并努力推动创新，以增强我们对这些独特物质的理解和利用是至关重要的。