Pouran Khedri; Masoud Sadrinasab; Vahid Chegini; Hossein Pashazanoosi
Volume 10, Issue 4 , September 2012, , Pages 78-87
Abstract
In this study COHERENS which is a three-dimensional hydrodynamic model was employed in order to model and survey dispersion of pollution in Nayband bay. In this model Navier-Stokes equation, continunity equation and transport equations of salinity and temperature in 3-D are solved. Cartesian coordinate ...
Read More
In this study COHERENS which is a three-dimensional hydrodynamic model was employed in order to model and survey dispersion of pollution in Nayband bay. In this model Navier-Stokes equation, continunity equation and transport equations of salinity and temperature in 3-D are solved. Cartesian coordinate for the horizontal and sigma coordinate with five layers was used for the vertical profile. Monthly mean atmospheric parameters and 4 major tidal components (M2, S2, O1, and K1) of the bay were used as the inputs of the model. In this model, uniform grid of 79*100 was used. Once the model was adjusted and the data inserted, the model was run for the bay. Then tidal currents were validated with field observation which resulted in prediction of horizontal dispersion of pollution in different layers.The results showed that dispersion is highly affected by tidal currents. These results can be applied to predict dispersion of pollution in Nayband bay.
Saeedeh Shirin manesh; Vahid Chegini
Volume 10, Issue 2 , September 2012, , Pages 91-107
Abstract
Development of modern energies is one of the most important issues that all countries have focused on and have tried to find a new model in that respect. This study investigates various methods of estimating energies that are produced by wave and then it concludes that the best method is spectrum analysis ...
Read More
Development of modern energies is one of the most important issues that all countries have focused on and have tried to find a new model in that respect. This study investigates various methods of estimating energies that are produced by wave and then it concludes that the best method is spectrum analysis using Fourier analysis. Using available data of year 1998 in Chabahar and applying a program which is produced in MATLAB environment, rate of producible energy in year 1998 is equal to 6.9 Kwh/m² and producible power of waves has been estimated to be 3.9 Kw/m² with the lowest rate of energy observed in winter and the highest rate of wave energy in summer. Probable cause of this phenomenon could be seasonal winds that blow in summer. According to the flowmetry report done by Ports and Maritime Organization in Chabahar, in Aw1 Station has divided its 9-meter distance below water surface into 7 cells, therefore, with considering 1×1m channels and assuming that flow in each channel has been changed steadily, tide flow energy has been estimated and average energy of Chabahar station has been obtained equal to 0.12 w/m² within two weeks. In the second way, using program written in MATLAB environment and calculating the surface under the chart, tide energy has been calculated equal to 0.19w/ m². According to the obtained results, producible energy of tidal current in Chabahar Gulf is very low and it is not economical