collector efficiency

简明释义

集热僻率

英英释义

例句

1.The solar panel's collector efficiency is crucial for maximizing energy output.

太阳能板的集热效率对最大化能源输出至关重要。

2.Testing different materials can help us find the best collector efficiency for our design.

测试不同的材料可以帮助我们找到最佳的集热效率。

3.A higher collector efficiency can lead to reduced energy costs for homeowners.

更高的集热效率可以为房主降低能源成本。

4.The research focused on increasing the collector efficiency of thermal systems.

该研究专注于提高热系统的集热效率。

5.To improve the collector efficiency, we need to optimize the angle of the panels.

为了提高集热效率，我们需要优化面板的角度。

作文

In the realm of renewable energy, understanding various parameters is crucial for optimizing performance and efficiency. One such parameter is collector efficiency, which plays a pivotal role in the effectiveness of solar energy systems. The term collector efficiency refers to the ratio of useful energy output from a solar collector to the energy input from the sun, expressed as a percentage. This metric helps in assessing how well a solar collector converts sunlight into usable thermal energy. A higher collector efficiency indicates that more solar energy is being effectively harnessed and utilized. To delve deeper into the concept, it’s essential to recognize the factors that influence collector efficiency. These include the design of the collector, the materials used, and environmental conditions such as temperature and sunlight intensity. For instance, flat-plate collectors, commonly used in residential solar water heating systems, can achieve high collector efficiency under optimal conditions. However, their efficiency may drop in colder climates or during cloudy days. On the other hand, evacuated tube collectors tend to perform better in diverse weather conditions, thus maintaining a more consistent collector efficiency. The implications of collector efficiency extend beyond individual systems; they impact the broader adoption of solar technology. Higher efficiency means that less space is required for the same amount of energy production, making solar installations more feasible in urban areas where space is limited. Furthermore, as technology advances, improving collector efficiency becomes a focal point for researchers and manufacturers alike. Innovations such as selective coatings and advanced tracking systems are being developed to enhance the absorption of sunlight and minimize heat loss, thus boosting overall collector efficiency. Moreover, understanding collector efficiency is vital for consumers and policymakers. For homeowners considering solar energy systems, evaluating the collector efficiency of different products can lead to more informed decisions and better returns on investment. Policymakers, on the other hand, can use this information to promote incentives for high-efficiency solar technologies, ultimately contributing to environmental sustainability and energy independence. In conclusion, collector efficiency is a fundamental aspect of solar energy systems that significantly influences their performance and viability. By focusing on enhancing collector efficiency, we can maximize the potential of solar energy, making it a more attractive option for both individuals and society at large. As we continue to confront the challenges of climate change and energy demands, the role of collector efficiency will undoubtedly become increasingly important in our pursuit of sustainable energy solutions.

在可再生能源领域，理解各种参数对于优化性能和效率至关重要。其中一个参数是collector efficiency（收集器效率），它在太阳能系统的有效性中发挥着关键作用。术语collector efficiency指的是太阳能收集器所产生的有用能量输出与来自太阳的能量输入之比，以百分比表示。这个指标有助于评估太阳能收集器将阳光转化为可用热能的效率。更高的collector efficiency表明更多的太阳能被有效地利用。要深入理解这一概念，有必要认识到影响collector efficiency的因素。这些因素包括收集器的设计、所用材料，以及环境条件，如温度和阳光强度。例如，平板收集器通常用于住宅太阳能热水系统，在最佳条件下可以实现高的collector efficiency。然而，在寒冷气候或阴天，其效率可能会下降。另一方面，真空管收集器在各种天气条件下表现更好，从而保持更稳定的collector efficiency。collector efficiency的影响超出了单个系统；它们影响着太阳能技术的更广泛采用。更高的效率意味着在同样的能量生产量下，所需的空间更少，使得在空间有限的城市地区，太阳能安装变得更加可行。此外，随着技术的发展，提高collector efficiency成为研究人员和制造商的重点。选择性涂层和先进的追踪系统等创新正在开发，以增强阳光的吸收并最小化热损失，从而提升整体collector efficiency。此外，理解collector efficiency对消费者和政策制定者至关重要。对于考虑太阳能系统的房主来说，评估不同产品的collector efficiency可以帮助他们做出更明智的决策，并获得更好的投资回报。另一方面，政策制定者可以利用这些信息来促进高效太阳能技术的激励措施，最终有助于环境可持续性和能源独立。总之，collector efficiency是太阳能系统的一个基本方面，显著影响其性能和可行性。通过专注于提高collector efficiency，我们可以最大限度地发挥太阳能的潜力，使其成为个人和社会更具吸引力的选择。随着我们继续面对气候变化和能源需求的挑战，collector efficiency在追求可持续能源解决方案中的角色无疑将变得越来越重要。