DENG Ruru, LIU Qinhuo, KE Ruipeing, CHENG Lei, LIU Xiaoping. Model for water pollution remote sensing based on double scattering and its application in the Zhujiang River outfall[J]. Acta Oceanologica Sinica, 2004, (1): 119-128.
Citation:
DENG Ruru, LIU Qinhuo, KE Ruipeing, CHENG Lei, LIU Xiaoping. Model for water pollution remote sensing based on double scattering and its application in the Zhujiang River outfall[J]. Acta Oceanologica Sinica, 2004, (1): 119-128.
DENG Ruru, LIU Qinhuo, KE Ruipeing, CHENG Lei, LIU Xiaoping. Model for water pollution remote sensing based on double scattering and its application in the Zhujiang River outfall[J]. Acta Oceanologica Sinica, 2004, (1): 119-128.
Citation:
DENG Ruru, LIU Qinhuo, KE Ruipeing, CHENG Lei, LIU Xiaoping. Model for water pollution remote sensing based on double scattering and its application in the Zhujiang River outfall[J]. Acta Oceanologica Sinica, 2004, (1): 119-128.
It is a valid route for quantitatively remote sensing on water pollution to build a model according to the physical mechanisms of scattering and absorbing of suspended substance, pollutant, and molecules of water. Remote sensing model for water pollution based on single scattering is simple and easy to be used, but the precision is affected by turbidity of water. The characteristics of the energy composition of multiple scattering, are analyzed and it is proposed that, based on the model of single scattering, ifthe flux of the second scattering is considered additionally, the precision of the modelwill be remarkably improved and the calculation is still very simple. The factor of the second scattering is deduced to build a double scattering model, and the practical arithmetic for the calculation of the model is put forward. The result of applying this model in the water area around the Zhujiang(Pearl) River outfall shows that the precision is obviously improved. The result also shows that the seriously polluted water area is distributed in the northeast of Lingding Sea, the Victoria Bay of Hong Kong, and the Shengzhen Bay.