azimuth tracker

简明释义

方位跟踪器

英英释义

例句

1.The new wind turbine design includes an azimuth tracker for improved energy efficiency.

新的风力涡轮机设计包括一个方位追踪器以提高能源效率。

2.The azimuth tracker helps in aligning satellite dishes to receive signals from specific satellites.

这个方位追踪器有助于将卫星天线对准特定卫星以接收信号。

3.The solar panels were equipped with an azimuth tracker to maximize their exposure to sunlight.

太阳能电池板配备了一个方位追踪器，以最大限度地增加它们对阳光的暴露。

4.Farmers are using an azimuth tracker to optimize the positioning of their irrigation systems.

农民们正在使用一个方位追踪器来优化灌溉系统的位置。

5.Using an azimuth tracker allows the telescope to follow celestial objects more accurately.

使用方位追踪器可以让望远镜更准确地跟踪天体。

作文

In the realm of renewable energy, particularly in solar power generation, technologies that enhance efficiency and maximize energy capture are essential. One such technology is the azimuth tracker, which plays a pivotal role in optimizing the performance of solar panels. To understand the significance of an azimuth tracker, we must first grasp the basic principles of solar energy collection. Solar panels convert sunlight into electricity, but their efficiency can vary significantly depending on their orientation relative to the sun's position in the sky. This is where the azimuth tracker comes into play.An azimuth tracker is a device that adjusts the angle of solar panels to follow the sun's path throughout the day. The term 'azimuth' refers to the angle between a reference direction (usually true north) and the direction to the sun. By aligning solar panels with the sun's azimuth angle, these trackers can significantly increase the amount of sunlight that panels receive, thereby enhancing energy production.The functionality of an azimuth tracker can be compared to that of a sunflower that follows the sun across the sky. Just as a sunflower tilts its head to capture the most sunlight, an azimuth tracker allows solar panels to tilt and rotate, ensuring they are always positioned optimally. This tracking system can be either single-axis or dual-axis. A single-axis tracker moves from east to west, following the sun's daily journey, while a dual-axis tracker can also adjust for seasonal changes in the sun's elevation, maximizing solar exposure year-round.The benefits of using an azimuth tracker are substantial. Research has shown that solar installations equipped with tracking systems can produce up to 25-35% more energy than fixed installations. This increased energy output not only improves the return on investment for solar projects but also contributes to a more sustainable energy future by maximizing the utilization of renewable resources.However, implementing an azimuth tracker system does come with challenges. The initial costs of installation are higher compared to fixed solar panel systems, and the mechanical components require regular maintenance to ensure optimal operation. Additionally, in regions with high wind speeds or extreme weather conditions, the durability and stability of tracking systems must be carefully considered.Despite these challenges, the advantages of azimuth trackers make them an attractive option for large-scale solar farms and commercial installations. As technology advances, we can expect improvements in the design and efficiency of these systems, making them more accessible for widespread use.In conclusion, the azimuth tracker is an innovative solution that enhances the efficiency of solar energy systems. By allowing solar panels to follow the sun's path, these devices significantly increase energy capture, making solar power a more viable and sustainable energy source. As the world continues to shift towards renewable energy, understanding and utilizing technologies like the azimuth tracker will be crucial in our efforts to combat climate change and promote a greener future.

在可再生能源领域，特别是在太阳能发电方面，提高效率和最大化能源捕获的技术至关重要。其中一种技术就是方位跟踪器，它在优化太阳能电池板性能方面发挥着关键作用。要理解方位跟踪器的重要性，我们首先必须掌握太阳能收集的基本原理。太阳能电池板将阳光转化为电能，但其效率会因其相对于太阳在天空中的位置的方向而显著变化。这就是方位跟踪器发挥作用的地方。方位跟踪器是一种调节太阳能电池板角度以跟随太阳轨迹的设备。“方位”一词指的是参考方向（通常是正北）与指向太阳的方向之间的角度。通过使太阳能电池板与太阳的方位角对齐，这些跟踪器可以显著增加电池板接收的阳光量，从而提高能量生产。方位跟踪器的功能可以与向日葵跟随太阳在天空中移动进行比较。就像向日葵倾斜其头部以捕获最多阳光一样，方位跟踪器允许太阳能电池板倾斜和旋转，确保它们始终处于最佳位置。该跟踪系统可以是单轴或双轴的。单轴跟踪器从东到西移动，跟随太阳的日常旅程，而双轴跟踪器还可以调整季节性变化，以最大限度地利用全年太阳的照射。使用方位跟踪器的好处是巨大的。研究表明，配备跟踪系统的太阳能安装可以比固定安装多产生25-35%的能量。这种增加的能量输出不仅提高了太阳能项目的投资回报率，还通过最大限度地利用可再生资源，为更可持续的能源未来做出了贡献。然而，实施方位跟踪器系统确实面临挑战。与固定太阳能电池板系统相比，初始安装成本更高，机械部件需要定期维护以确保最佳操作。此外，在风速较高或极端天气条件下，跟踪系统的耐用性和稳定性必须仔细考虑。尽管存在这些挑战，方位跟踪器的优势使其成为大型太阳能农场和商业安装的有吸引力的选择。随着技术的进步，我们可以期待这些系统的设计和效率得到改善，从而使其更易于广泛使用。总之，方位跟踪器是一种创新解决方案，可以增强太阳能系统的效率。通过使太阳能电池板跟随太阳的轨迹，这些设备显著增加了能源捕获，使太阳能成为更可行和可持续的能源来源。随着世界不断转向可再生能源，理解和利用像方位跟踪器这样的技术将是我们应对气候变化并促进绿色未来努力的关键。