Ren Chong

Bio: Ren Chong is an academic researcher. The author has contributed to research in topics: Acoustic Doppler velocimetry & Underwater. The author has an hindex of 1, co-authored 1 publications receiving 1 citations.

Deep sea self-elevating tripod system for seabed boundary layer observation

Abstract: The invention discloses a self-elevating tripod system for seabed boundary layer observation. The system comprises a land part and an underwater part, wherein the land part comprises an acoustic response release deck unit and a radio receiver; the underwater part comprises ballast anchors, a seat bottom platform, acoustic response releasers, an ocean observing instrument, a recycling positioning device and a tripod; the seat bottom platform comprises a structural frame, solid buoyancy materials and glass floating balls; the ocean observing instrument comprises an ADCP (Acoustic Doppler CurrentProfiler), an underwater camera, a transmissometer and an ADV (Acoustic Doppler Velocimetry); and the recycling positioning device comprises a flashlight and a radio beaconing machine. The system disclosed by the invention has the beneficial effects that the system structure is simple; the laying and the recycling are convenient; and the data collecting efficiency is high.

Seabed boundary layer observation device and laying and recovering method thereof

Abstract: The invention relates to the technical field of ocean survey, and especially relates to a seabed boundary layer observation device and a laying and recovering method thereof. The split design of an observation platform and a recovery device is adopted, and a floating body material with a huge size is separated from observation equipment, so that the influence of the floating body material on key parameters such as ocean current is avoided, and the accuracy of observation data is greatly improved; the observation platform on the seabed is recovered by using a connecting cable, so enough tensioncan be provided, and the situation that the observation platform sinks into sediments and cannot be smoothly separated from the seabed is avoided; due to the chained design of the recovery device, after the recovery device floats up to the water surface, recycling of a large scientific investigation ship is better facilitated; and the laying and recovering method is set according to the characteristics of the device, is stable and reliable, is suitable for various ships, and has a good popularization prospect.