availability factor

简明释义

1. 有效系数; 2. 资用率因数; 3. 利用效率;

英英释义

例句

1.To improve the availability factor, regular maintenance schedules must be strictly followed.

为了提高可用性因素，必须严格遵循定期维护计划。

2.An availability factor of 90% means the equipment was operational for 90% of the time.

可用性因素为90%意味着设备在90%的时间内处于可操作状态。

3.The power plant's availability factor indicates its operational efficiency over the past year.

发电厂的可用性因素表明其过去一年内的运营效率。

4.High availability factor values are often seen in well-maintained facilities.

高可用性因素值通常出现在维护良好的设施中。

5.The availability factor is crucial for calculating the overall efficiency of renewable energy systems.

可用性因素对于计算可再生能源系统的整体效率至关重要。

作文

In today's world, the concept of efficiency and reliability plays a crucial role in various sectors, especially in energy production and management. One key term that often arises in discussions about energy systems is the availability factor. The availability factor refers to the ratio of the time a system is operational and ready to produce energy compared to the total time it could potentially be operational. This metric is essential for understanding how effectively a power plant or any other energy-producing facility is functioning. To illustrate this further, consider a solar power plant. If the plant is designed to operate for 24 hours a day but is only generating electricity for 20 hours due to maintenance, weather conditions, or equipment failures, the availability factor would be calculated as follows: the operational time (20 hours) divided by the total potential operational time (24 hours). In this case, the availability factor would be approximately 0.83 or 83%. This indicates that the plant is available to produce energy 83% of the time, which is a decent figure in the renewable energy sector. Understanding the availability factor is vital for stakeholders in the energy industry, including investors, operators, and regulators. A high availability factor signifies a reliable energy source, which can lead to increased investor confidence and better financial returns. Conversely, a low availability factor may indicate underlying issues such as frequent breakdowns or inefficiencies, which could deter investment and raise concerns about the sustainability of the energy supply. Moreover, the availability factor is not limited to just solar energy; it applies to all forms of energy generation, including wind, hydro, and fossil fuels. Each of these energy sources has its unique challenges that can affect their availability. For instance, wind turbines depend on weather conditions, and their availability factor can fluctuate significantly based on wind patterns. Similarly, hydroelectric plants are influenced by water levels and seasonal changes, impacting their overall availability. In addition to its importance in energy production, the availability factor can also be applied in other industries, such as manufacturing and transportation. In manufacturing, the availability factor can measure the operational efficiency of machines and equipment, guiding maintenance schedules and improving productivity. In transportation, it can help assess the reliability of public transit systems, ensuring they meet the demands of commuters. Ultimately, the availability factor serves as a critical indicator of performance across various sectors. By continuously monitoring and improving this factor, organizations can enhance their operational efficiency, reduce costs, and provide more reliable services to their customers. The significance of the availability factor cannot be overstated, as it directly impacts both the economic viability and environmental sustainability of energy systems and other industries alike. Therefore, understanding and optimizing the availability factor should be a priority for anyone involved in energy production or management, as it holds the key to a more sustainable and efficient future.

在当今世界，效率和可靠性这一概念在各个行业中发挥着至关重要的作用，尤其是在能源生产和管理方面。一个经常出现在有关能源系统讨论中的关键术语是可用性因子。可用性因子是指一个系统在能够产生能源的总时间内，实际运行并准备生产能源的时间比率。这个指标对于理解发电厂或任何其他能源生产设施的功能效率至关重要。进一步说明这一点，考虑一个太阳能发电厂。如果该发电厂设计为每天24小时运行，但由于维护、天气条件或设备故障，仅能在20小时内发电，则可用性因子将如下计算：实际运行时间（20小时）除以潜在总运行时间（24小时）。在这种情况下，可用性因子约为0.83或83%。这表明该发电厂在83%的时间内可以发电，这在可再生能源领域是一个相当不错的数字。理解可用性因子对能源行业的利益相关者至关重要，包括投资者、运营商和监管机构。高可用性因子意味着可靠的能源来源，这可以提高投资者信心和更好的财务回报。相反，低可用性因子可能表明存在频繁故障或低效的问题，这可能会阻碍投资并引发对能源供应可持续性的担忧。此外，可用性因子不仅限于太阳能；它适用于所有形式的能源生产，包括风能、水力和化石燃料。这些能源来源各自面临独特的挑战，可能会影响其可用性。例如，风力涡轮机依赖于天气条件，其可用性因子可能会根据风的模式而波动。类似地，水电站受水位和季节变化的影响，影响其整体可用性。除了在能源生产中的重要性外，可用性因子还可以应用于其他行业，如制造业和运输业。在制造业中，可用性因子可以衡量机器和设备的运行效率，指导维护计划并提高生产力。在运输业中，它可以帮助评估公共交通系统的可靠性，确保满足通勤者的需求。最终，可用性因子作为各个行业绩效的重要指标。通过不断监测和改善这一因素，组织可以提高运营效率，降低成本，并向客户提供更可靠的服务。可用性因子的重要性不容小觑，因为它直接影响着能源系统和其他行业的经济可行性和环境可持续性。因此，理解和优化可用性因子应成为参与能源生产或管理的任何人的优先事项，因为它是实现更可持续和高效未来的关键。