In many fields such as water resource management, flood prevention and disaster reduction, water conservancy projects, and marine scientific research, accurately measuring water flow velocity is a vital task. As an advanced measuring device, the onick LSP320 velocimeter has been widely used in the field of water flow measurement with its unique technical advantages.
Main features:
Small and portable: small size and light weight, it is convenient for operators to carry to various complex measurement sites, whether it is a remote mountain river or a city's drainage pipe, it can easily cope with it.
Easy to operate: usually adopts a one-button operation design, without complex settings and professional knowledge. Built-in highly sensitive radar probe and angle meter, can automatically correct horizontal and vertical angles, and perform flow rate correction measurement, greatly reducing the difficulty of operation and improving work efficiency.
Strong adaptability: not corroded by sewage, not disturbed by sediment, and can work normally under harsh environmental conditions. It can meet the needs of different scenarios while ensuring the safety of the measurer.
In flood monitoring, handheld radio wave velocity meters play an important role. When a flood hits, staff can carry the instrument to quickly reach key locations such as rivers and dams to monitor the water flow velocity in real time. By quickly measuring the flow velocity of different sections, staff can keep track of the evolution of floods in a timely manner, providing an important basis for flood prevention decisions.
In terms of water resource management, handheld radio wave current meters can be used to monitor the flow velocity changes of rivers, lakes and other water bodies, providing data support for the rational allocation of water resources. By measuring the flow velocity in different seasons and different regions, managers can understand the flow patterns of water bodies, optimize water resource allocation plans, and improve the utilization efficiency of water resources.