生物污染
海洋工程
水下
环境科学
仪表(计算机编程)
计算机科学
软件部署
浊度
声纳
海洋学
系统工程
地质学
工程类
人工智能
操作系统
生物
遗传学
膜
作者
Laurent Delauney,Chantal Compère,M. Lehaître
出处
期刊:Ocean Science
[Copernicus Publications]
日期:2010-05-18
卷期号:6 (2): 503-511
被引量:251
标识
DOI:10.5194/os-6-503-2010
摘要
Abstract. These days, many marine autonomous environment monitoring networks are set up in the world. These systems take advantage of existing superstructures such as offshore platforms, lightships, piers, breakwaters or are placed on specially designed buoys or underwater oceanographic structures. These systems commonly use various sensors to measure parameters such as dissolved oxygen, turbidity, conductivity, pH or fluorescence. Emphasis has to be put on the long term quality of measurements, yet sensors may face very short-term biofouling effects. Biofouling can disrupt the quality of the measurements, sometimes in less than a week. Many techniques to prevent biofouling on instrumentation are listed and studied by researchers and manufacturers. Very few of them are implemented on instruments and of those very few have been tested in situ on oceanographic sensors for deployment of at least one or two months. This paper presents a review of techniques used to protect against biofouling of in situ sensors and gives a short list and description of promising techniques.
科研通智能强力驱动
Strongly Powered by AbleSci AI