A system for environmental monitoring of hydroelectric reservoirs in Brazil

Q3 Environmental Science

Revista Ambiente e Agua Pub Date : 2013-04-25 DOI:10.4136/AMBI-AGUA.1088

E. Alcântara, M. Curtarelli, I. Ogashawara, J. Stech, A. Souza

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引用次数: 15

Abstract

Environmental monitoring of aquatic systems is an important tool to support policy makers and environmental managers’ decisions. Long-term, continuous collection of environmental data is fundamental to the understanding of an aquatic system. This paper aims to present the integrated system for environmental monitoring (SIMA), a long-term temporal series system with a web-based archive for limnological and meteorological data. The following environmental parameters are measured by SIMA: chlorophyll-a ( ), water surface temperature (oC), water column temperature by a thermistor string (oC), turbidity (NTU), pH, dissolved oxygen concentration (mg L -1 ), electric conductivity (µS cm -1 ), wind speed (ms -1 ) and direction (o), relative humidity (%), shortwave radiation (Wm -2 ) and barometric pressure (hPa). The data were collected in a preprogrammed time interval (1 hour) and were transmitted by satellite in quasi-real time for any user within 2500 km of the acquisition point. So far, 11 hydroelectric reservoirs are being monitored with the SIMA buoy. Basic statistics (mean and standard deviation) and an example of the temporal series of some parameters were displayed at a database with web access. However, sensor and satellite problems occurred due to the high data acquisition frequency. Sensors problems occurred due to the environmental characteristics of each aquatic system. Water quality sensors rapidly degrade in acidic waters, rendering the collected data invalid. Data is also rendered invalid when sensors become infested with periphyton. Problems occur with the satellites’ reception of system data when satellites pass over the buoy antenna. However, the data transfer at some inland locations was not completed due to the satellite constellation position. Nevertheless, the integrated system of water quality and meteorological parameters is an important tool in understanding the aquatic system dynamic. It can also be used to create hydrodynamics models of the aquatic system to allow for the study of meteorological implications to the water body. 1 − gL μ

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巴西水电站水库环境监测系统

水生系统环境监测是支持决策者和环境管理者决策的重要工具。长期、持续地收集环境数据是了解水生系统的基础。本文旨在介绍环境监测综合系统(SIMA)，这是一个长期时间序列系统，具有基于网络的湖泊和气象数据档案。SIMA测量了以下环境参数:叶绿素-a()、水面温度(oC)、热敏电阻柱温度(oC)、浊度(NTU)、pH、溶解氧浓度(mg L -1)、电导率(µS cm -1)、风速(ms -1)和风向(0)、相对湿度(%)、短波辐射(Wm -2)和气压(hPa)。数据以预先设定的时间间隔(1小时)收集，并通过卫星准实时传输给距采集点2500公里内的任何用户。迄今为止，SIMA浮标正在监测11个水力蓄水池。基本统计数据(均值和标准差)和一些参数的时间序列的一个例子显示在一个数据库与web访问。然而，由于数据采集频率高，传感器和卫星出现了问题。由于每个水生系统的环境特性，传感器出现了问题。水质传感器在酸性水体中迅速降解，使采集到的数据失效。当传感器被周生菌侵染时，数据也会失效。当卫星经过浮标天线时，会出现卫星接收系统数据的问题。然而，由于卫星星座位置的原因，一些内陆地区的数据传输没有完成。然而，水质和气象参数的综合系统是了解水生系统动态的重要工具。它还可用于创建水生系统的水动力学模型，以便研究对水体的气象影响。1−gL μ

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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