dredged profile monitor

简明释义

挖泥断面形状监测仪

英英释义

例句

1.The dredged profile monitor provided real-time data during the dredging operation.

在疏浚作业期间，疏浚剖面监测器提供了实时数据。

2.The construction team installed a dredged profile monitor to ensure the riverbed was accurately mapped.

施工队安装了一个疏浚剖面监测器以确保河床被准确绘制。

3.Using a dredged profile monitor helps in assessing the impact of dredging on aquatic habitats.

使用疏浚剖面监测器有助于评估疏浚对水生栖息地的影响。

4.The dredged profile monitor is essential for maintaining navigational channels.

为了维护航道，疏浚剖面监测器是必不可少的。

5.Engineers reviewed the data from the dredged profile monitor to make informed decisions.

工程师查看了疏浚剖面监测器的数据以做出明智的决策。

作文

In the field of environmental engineering and marine research, the term dredged profile monitor refers to a specialized tool or system used to assess and manage the underwater topography that results from dredging activities. Dredging is a common practice in various industries, including construction, shipping, and environmental restoration, where sediment is removed from the bottom of water bodies to create deeper channels or to remove contaminated materials. The dredged profile monitor plays a crucial role in ensuring that these activities do not adversely affect the surrounding ecosystems and that they comply with environmental regulations.The importance of the dredged profile monitor cannot be overstated. As dredging alters the natural landscape, it is essential to have accurate measurements of the seabed or riverbed profiles before, during, and after the dredging process. This monitoring allows engineers and environmental scientists to understand how the dredging impacts sediment transport, aquatic habitats, and water quality. By utilizing advanced technologies such as sonar and GPS, the dredged profile monitor can provide detailed data on the depth and shape of the underwater terrain, enabling better decision-making.Furthermore, the dredged profile monitor assists in minimizing the negative effects of dredging. For instance, by continuously monitoring the dredged areas, operators can adjust their methods to reduce turbidity and sediment displacement, which can harm local marine life. Additionally, this monitoring helps in identifying any unintentional changes in currents or sedimentation patterns that may arise due to dredging activities. Ultimately, the use of a dredged profile monitor contributes to sustainable practices in marine and freshwater environments.The implementation of a dredged profile monitor involves several steps. Initially, baseline data must be collected to establish the pre-dredging conditions of the site. This includes mapping the existing underwater features and assessing the biological communities present. Once dredging begins, the monitor provides real-time feedback, allowing for immediate adjustments to the dredging operations if necessary. After the dredging is completed, follow-up surveys using the dredged profile monitor are conducted to evaluate the long-term effects of the activity and to ensure that the area is returning to its natural state.In conclusion, the dredged profile monitor is an indispensable tool in modern dredging operations. Its ability to provide precise and timely information about underwater profiles enhances our understanding of the ecological implications of dredging. By integrating technology and environmental stewardship, the dredged profile monitor helps balance industrial needs with the preservation of aquatic environments, ultimately fostering a healthier relationship between human activities and nature. As we move forward, the continued advancement of monitoring technologies will undoubtedly improve our capacity to manage and protect our precious water resources effectively.

在环境工程和海洋研究领域，术语dredged profile monitor指的是一种专门的工具或系统，用于评估和管理由于疏浚活动而产生的水下地形。疏浚是许多行业中常见的做法，包括建筑、航运和环境修复，在这些行业中，沉积物从水体底部被移除，以创建更深的通道或去除受污染的材料。dredged profile monitor在确保这些活动不会对周围生态系统产生不利影响，并且符合环境法规方面发挥着至关重要的作用。dredged profile monitor的重要性不容小觑。由于疏浚改变了自然景观，因此在疏浚过程的前、中、后阶段，准确测量海床或河床轮廓至关重要。这种监测使工程师和环境科学家能够理解疏浚对沉积物运输、水生栖息地和水质的影响。通过利用声纳和GPS等先进技术，dredged profile monitor能够提供关于水下地形深度和形状的详细数据，从而支持更好的决策。此外，dredged profile monitor有助于最小化疏浚的负面影响。例如，通过持续监测疏浚区域，操作人员可以调整其方法，以减少浑浊度和沉积物位移，这可能会对当地海洋生物造成伤害。此外，这种监测还有助于识别因疏浚活动而产生的任何意外变化，如水流或沉积模式的变化。最终，使用dredged profile monitor有助于在海洋和淡水环境中实现可持续实践。实施dredged profile monitor涉及几个步骤。最初，必须收集基线数据，以建立现场的疏浚前条件。这包括绘制现有水下特征的地图并评估存在的生物群落。一旦开始疏浚，监测器将提供实时反馈，允许在必要时立即调整疏浚操作。疏浚完成后，将进行后续调查，使用dredged profile monitor评估该活动的长期影响，并确保该地区恢复到其自然状态。总之，dredged profile monitor是现代疏浚操作中不可或缺的工具。它提供的精确和及时的信息关于水下轮廓增强了我们对疏浚生态影响的理解。通过整合技术和环境管理，dredged profile monitor帮助平衡工业需求与水域保护之间的关系，最终促进人类活动与自然之间更健康的关系。随着我们的不断前进，监测技术的持续进步无疑将改善我们有效管理和保护珍贵水资源的能力。