recovery coefficient

简明释义

恢复系数

英英释义

例句

1.In environmental studies, a low recovery coefficient may suggest contamination in the sample.

在环境研究中，低回收系数可能表明样本中存在污染。

2.The recovery coefficient is crucial for assessing the efficiency of the extraction process.

对于评估提取过程的效率，回收系数至关重要。

3.To improve the recovery coefficient, we adjusted the parameters of the extraction method.

为了提高回收系数，我们调整了提取方法的参数。

4.The laboratory reported a high recovery coefficient for the chemical analysis, indicating accurate results.

实验室报告显示化学分析的回收系数很高，表明结果准确。

5.After several trials, the team achieved a consistent recovery coefficient of over 90%.

经过几次试验，团队实现了超过90%的稳定回收系数。

作文

In the field of engineering and environmental science, the term recovery coefficient refers to a crucial metric that quantifies the efficiency of a process in retrieving or reclaiming valuable materials or energy from waste. Understanding the recovery coefficient is essential for optimizing resource management and minimizing environmental impact. This concept is particularly significant in industries such as mining, recycling, and waste management, where the goal is to maximize the recovery of usable resources while reducing the amount of waste that ends up in landfills.For instance, in the mining industry, the recovery coefficient indicates the percentage of ore that can be extracted from the total amount of material mined. A high recovery coefficient signifies that a greater portion of the ore is being effectively processed, which not only enhances the profitability of the operation but also reduces the environmental footprint associated with mining activities. Conversely, a low recovery coefficient may suggest inefficiencies in the extraction process, leading to wasted resources and increased environmental degradation.Similarly, in the context of recycling, the recovery coefficient measures the amount of recyclable materials that can be successfully recovered from waste streams. For example, if a recycling facility processes a ton of plastic waste and is able to recover 600 kilograms of usable plastic, the recovery coefficient would be 0.6 or 60%. This metric is vital for assessing the effectiveness of recycling programs and guiding improvements in collection and processing techniques.Moreover, the recovery coefficient can also apply to energy recovery systems, where it represents the ratio of energy recovered from waste compared to the energy content of the waste itself. In waste-to-energy plants, for instance, a high recovery coefficient indicates that a significant amount of energy is being harnessed from waste materials, contributing to sustainable energy production and reducing reliance on fossil fuels.Understanding the factors that influence the recovery coefficient is key for professionals in these fields. Variables such as technology, operational practices, and the nature of the materials involved all play a role in determining how effectively resources can be recovered. As technology advances, new methods and equipment are developed that can enhance the recovery coefficient, leading to more efficient processes and better environmental outcomes.In conclusion, the recovery coefficient is a vital indicator of efficiency in various industries focused on resource recovery. By maximizing this coefficient, companies can improve their economic viability while simultaneously promoting sustainability. As society continues to grapple with waste management and resource depletion challenges, understanding and improving the recovery coefficient will be increasingly important. Efforts to enhance this metric not only benefit individual organizations but also contribute to a more sustainable future for our planet.Overall, the recovery coefficient serves as a benchmark for evaluating the success of recovery processes across different sectors, making it a fundamental concept for anyone involved in resource management and environmental conservation.

在工程和环境科学领域，术语恢复系数指的是一个关键指标，用于量化从废物中回收或重获有价值材料或能源的过程效率。理解恢复系数对优化资源管理和最小化环境影响至关重要。这个概念在采矿、回收和废物管理等行业尤其重要，其目标是最大限度地回收可用资源，同时减少最终进入填埋场的废物数量。例如，在采矿行业中，恢复系数表示可以从总开采材料中提取的矿石百分比。高恢复系数表明更大部分的矿石正在有效处理，这不仅提高了操作的盈利能力，还减少了与采矿活动相关的环境足迹。相反，低恢复系数可能表明提取过程中的低效，从而导致资源浪费和环境恶化。同样，在回收的背景下，恢复系数衡量可以成功从废物流中回收的可回收材料的数量。例如，如果一个回收设施处理一吨塑料废物并能够回收600千克可用塑料，则恢复系数为0.6或60%。这个指标对于评估回收计划的有效性以及指导收集和处理技术的改进至关重要。此外，恢复系数还可以应用于能源回收系统，其中它表示从废物中回收的能量与废物本身的能量含量的比率。在废物转化为能源的工厂中，高恢复系数表明从废物材料中获得显著的能量，有助于可持续能源生产，并减少对化石燃料的依赖。理解影响恢复系数的因素对于这些领域的专业人士至关重要。技术、操作实践和所涉及材料的性质等变量都在决定资源回收效率方面发挥作用。随着技术的进步，新方法和设备的开发可以提高恢复系数，从而导致更高效的过程和更好的环境成果。总之，恢复系数是评估专注于资源回收的各个行业效率的重要指标。通过最大化这一系数，公司可以改善其经济可行性，同时促进可持续发展。随着社会继续应对废物管理和资源枯竭的挑战，理解和改善恢复系数将变得越来越重要。提高这一指标的努力不仅使单个组织受益，而且有助于我们星球的可持续未来。总体而言，恢复系数作为评估不同部门回收过程成功的基准，是任何参与资源管理和环境保护的人员必须掌握的基本概念。