operational forced outage rate

简明释义

运行故障停用率

英英释义

例句

1.The power plant's operational forced outage rate 运行强制停机率 has decreased significantly after the recent maintenance.

发电厂的运行强制停机率 operational forced outage rate 在最近的维护后显著下降。

2.Regulatory bodies often require reports on the operational forced outage rate 运行强制停机率 from energy providers.

监管机构通常要求能源供应商提供关于运行强制停机率 operational forced outage rate 的报告。

3.A high operational forced outage rate 运行强制停机率 can lead to increased operational costs for utility companies.

高运行强制停机率 operational forced outage rate 可能导致公用事业公司的运营成本增加。

4.Monitoring the operational forced outage rate 运行强制停机率 is crucial for ensuring reliable energy supply.

监测运行强制停机率 operational forced outage rate 对于确保可靠的能源供应至关重要。

5.The utility company aims to reduce its operational forced outage rate 运行强制停机率 by implementing better maintenance practices.

该公用事业公司旨在通过实施更好的维护实践来降低其运行强制停机率 operational forced outage rate。

作文

In the realm of power generation and utility management, the term operational forced outage rate is crucial for assessing the reliability and efficiency of energy-producing facilities. The operational forced outage rate refers to the percentage of time that a power plant is unable to produce electricity due to unexpected failures or maintenance issues that cannot be planned in advance. This metric is vital for both operators and regulators as it directly impacts the overall performance of the energy grid and the availability of electricity to consumers.Understanding the operational forced outage rate involves recognizing its implications on energy supply and demand. A high forced outage rate indicates that a facility is frequently offline, which can lead to energy shortages and increased operational costs. Conversely, a low forced outage rate signifies that a power plant operates reliably, contributing to a stable energy supply. This reliability is especially important in today’s world, where renewable energy sources are becoming more prevalent and the demand for consistent power generation is increasing.Moreover, the operational forced outage rate is not only a reflection of the physical state of a power generation facility but also serves as an indicator of the effectiveness of maintenance practices and operational strategies. Facilities with rigorous maintenance schedules and proactive management tend to have lower forced outage rates. This emphasizes the importance of adopting best practices in maintenance and operation to ensure that power plants remain functional and efficient.Another aspect to consider is how the operational forced outage rate affects financial performance. Investors and stakeholders closely monitor this metric when evaluating the viability of energy projects. A power plant with a high forced outage rate may struggle to attract investment due to perceived risks associated with unreliable energy production. On the other hand, a facility that demonstrates a strong track record of low forced outages can secure better financing terms and enhance its market position.Additionally, regulatory bodies often use the operational forced outage rate as part of their assessments when setting industry standards and guidelines. By analyzing the outage rates across different plants, regulators can identify trends and areas for improvement within the energy sector. This data-driven approach helps to ensure that power generation remains a reliable and sustainable resource for society.In conclusion, the operational forced outage rate is a fundamental metric in the energy industry that provides insights into the reliability and efficiency of power generation facilities. It influences everything from operational strategies and maintenance practices to financial performance and regulatory compliance. As the energy landscape continues to evolve, understanding and managing the operational forced outage rate will be essential for ensuring a stable and reliable energy supply for future generations.

在电力生产和公用事业管理领域，术语操作性强制停机率对于评估能源生产设施的可靠性和效率至关重要。操作性强制停机率是指发电厂由于意外故障或无法提前计划的维护问题而无法生产电力的时间百分比。这个指标对运营商和监管机构都至关重要，因为它直接影响电网的整体性能以及消费者电力的可用性。理解操作性强制停机率涉及认识到其对能源供需的影响。高强制停机率表明设施经常处于离线状态，这可能导致能源短缺和增加运营成本。相反，低强制停机率则表明发电厂运行可靠，有助于稳定的能源供应。这种可靠性在当今世界尤为重要，随着可再生能源来源的日益普及，对持续电力生产的需求也在增加。此外，操作性强制停机率不仅反映了发电设施的物理状态，还作为维护实践和运营策略有效性的指标。维护计划严格、管理积极的设施往往具有较低的强制停机率。这强调了采用最佳维护和运营实践的重要性，以确保发电厂保持功能和效率。另一个需要考虑的方面是操作性强制停机率如何影响财务表现。投资者和利益相关者密切关注这一指标，以评估能源项目的可行性。强制停机率高的发电厂可能由于与不可靠的能源生产相关的风险而难以吸引投资。另一方面，表现出低强制停机率良好记录的设施可以获得更好的融资条件，增强其市场地位。此外，监管机构通常将操作性强制停机率作为评估行业标准和指南的一部分。通过分析不同工厂的停机率，监管机构可以识别趋势和改进领域。这种数据驱动的方法有助于确保电力生产仍然是社会可靠和可持续的资源。总之，操作性强制停机率是能源行业中的一个基本指标，为电力生产设施的可靠性和效率提供了深入见解。它影响从运营策略和维护实践到财务表现和监管合规性的方方面面。随着能源格局的不断演变，理解和管理操作性强制停机率将对确保未来几代人稳定和可靠的能源供应至关重要。