n+ buried collector

简明释义

n+ 隐埋集电极

英英释义

例句

1.We installed multiple n+ buried collectors to maximize the geothermal energy capture.

我们安装了多个n+ buried collectors以最大化地热能的捕获。

2.Researchers are studying the efficiency of different n+ buried collectors under various soil conditions.

研究人员正在研究不同土壤条件下各种n+ buried collectors的效率。

3.The engineer designed a new type of n+ buried collector for improved energy efficiency.

工程师设计了一种新型的n+ buried collector以提高能源效率。

4.The n+ buried collector technology is gaining popularity in sustainable building designs.

在可持续建筑设计中，n+ buried collector技术正越来越受欢迎。

5.In the solar heating system, the n+ buried collector plays a crucial role in heat absorption.

在太阳能加热系统中，n+ buried collector在热量吸收中起着至关重要的作用。

作文

In the world of data collection and management, the term n+ buried collector refers to a specific type of data gathering mechanism that is both innovative and efficient. This concept is particularly relevant in the fields of environmental monitoring, urban planning, and smart city development. The n+ buried collector system utilizes an array of sensors that are installed underground, allowing for the collection of data without disrupting the surface environment. This method not only preserves the aesthetic quality of the landscape but also minimizes the impact on local ecosystems.The advantages of using an n+ buried collector are numerous. Firstly, it provides a level of data accuracy that is often superior to traditional surface-mounted sensors. By being buried, these collectors are less susceptible to external factors such as weather conditions, human interference, and wildlife disturbances. For instance, in urban areas, surface sensors can be affected by traffic, construction, and other activities that may skew the data collected. In contrast, buried collectors operate in a more stable environment, leading to more reliable results.Moreover, the n+ buried collector can be used to monitor various environmental parameters such as soil moisture, temperature, and even gas emissions. This capability is crucial for researchers and city planners who need to make informed decisions based on accurate data. For example, in agriculture, farmers can use data from buried collectors to optimize irrigation practices, ensuring that crops receive the right amount of water while conserving resources.In addition, the implementation of an n+ buried collector system can lead to significant cost savings over time. Although the initial installation may require investment, the long-term benefits far outweigh these costs. With accurate data, cities can improve their infrastructure, reduce waste, and enhance the quality of life for residents. Furthermore, the data collected can be used to create predictive models that help in disaster management and urban resilience planning.However, there are challenges associated with the deployment of n+ buried collector systems. One major concern is the maintenance of these buried sensors. Since they are not easily accessible, any malfunctions or required repairs can be more complicated and costly compared to surface-mounted systems. Therefore, it is essential to invest in high-quality materials and technology that ensure the longevity and reliability of these collectors.Another challenge is the integration of data collected by n+ buried collector systems into existing data management frameworks. Cities and organizations often rely on a variety of data sources, and ensuring that the information from buried collectors can be effectively combined with other datasets is crucial for comprehensive analysis. This requires robust software solutions and skilled personnel who can interpret the data accurately.In conclusion, the n+ buried collector represents a significant advancement in the field of data collection. Its ability to gather accurate, reliable data from beneath the surface has transformative potential for various sectors, including environmental science, urban planning, and agriculture. While there are challenges to overcome, the benefits of adopting this innovative technology are clear. As cities continue to grow and face new challenges, the n+ buried collector will undoubtedly play a vital role in shaping sustainable and resilient urban environments.

在数据收集和管理的世界中，术语n+ buried collector指的是一种特定类型的数据收集机制，既创新又高效。这个概念在环境监测、城市规划和智能城市发展等领域尤为相关。n+ buried collector系统利用一系列埋在地下的传感器，允许在不干扰地表环境的情况下收集数据。这种方法不仅保持了景观的美学质量，还最小化了对当地生态系统的影响。使用n+ buried collector的优点是多方面的。首先，它提供的数据显示准确性通常优于传统的表面安装传感器。由于埋在地下，这些收集器不易受到天气条件、人为干扰和野生动物干扰等外部因素的影响。例如，在城市地区，表面传感器可能会受到交通、建筑和其他活动的影响，从而扭曲所收集的数据。相比之下，埋地收集器在更稳定的环境中运行，导致结果更加可靠。此外，n+ buried collector可用于监测各种环境参数，如土壤湿度、温度甚至气体排放。这种能力对于需要基于准确数据做出明智决策的研究人员和城市规划者至关重要。例如，在农业中，农民可以利用埋地收集器的数据来优化灌溉实践，确保作物获得适量的水，同时节约资源。另外，实施n+ buried collector系统可以在长期内带来显著的成本节约。尽管初始安装可能需要投资，但长期利益远远超过这些成本。通过准确的数据，城市可以改善基础设施、减少浪费并提高居民的生活质量。此外，收集的数据可以用于创建预测模型，帮助灾害管理和城市韧性规划。然而，部署n+ buried collector系统也面临挑战。一个主要问题是这些埋地传感器的维护。由于它们不易接触，任何故障或所需维修可能比表面安装系统更复杂且成本更高。因此，投资高质量材料和技术以确保这些收集器的耐用性和可靠性至关重要。另一个挑战是将n+ buried collector系统收集的数据整合到现有的数据管理框架中。城市和组织通常依赖多种数据源，确保埋地收集器的信息能够有效与其他数据集结合，对于全面分析至关重要。这需要强大的软件解决方案和能够准确解读数据的专业人员。总之，n+ buried collector代表了数据收集领域的一项重大进展。其从地下收集准确、可靠数据的能力对环境科学、城市规划和农业等各个行业具有变革潜力。尽管面临挑战，但采用这一创新技术的好处显而易见。随着城市的不断发展和面临新挑战，n+ buried collector无疑将在塑造可持续和韧性的城市环境中发挥重要作用。