Abstract
This report presents documentation and a user`s manual for the program LAKE-0, a mathematical model of nuclides transfer in lake scenarios. Mathematical equations and physical principles used to develop the code are presented in section 2. The program use is presented in section 3 including input data sets and output data. Section 4 presents two example problems, and some results. The complete program listing including comments is presented in Appendix A. Nuclides are assumed to enter the lake via atmospheric deposition and carried by the water runoff and the dragged sediments from the adjacent catchment. The dynamics of the nuclides inside the lake is based in the model proposed by Codell (11) as modified in (5). The removal of concentration from the lake water is due to outflow from the lake and to the transfer of activity to the bottom sediments. The model has been applied to the Esthwaite Water (54 degree 21 minute N, 03 degree 00 minute W at 65 m. asl.) in the frame of the VAMP Aquatic Working Group (8) and to Devoke Water (54 degree 21 minute 5`N, 03 degree, 18 minute W at 230 m. asl.)
Citation Formats
Garcia-Olivares, A, Aguero, A, and Pinedo, P.
Lake-0: A model for the simulation of nuclides transfer in lake scenarios.
Spain: N. p.,
1994.
Web.
Garcia-Olivares, A, Aguero, A, & Pinedo, P.
Lake-0: A model for the simulation of nuclides transfer in lake scenarios.
Spain.
Garcia-Olivares, A, Aguero, A, and Pinedo, P.
1994.
"Lake-0: A model for the simulation of nuclides transfer in lake scenarios."
Spain.
@misc{etde_10104739,
title = {Lake-0: A model for the simulation of nuclides transfer in lake scenarios}
author = {Garcia-Olivares, A, Aguero, A, and Pinedo, P}
abstractNote = {This report presents documentation and a user`s manual for the program LAKE-0, a mathematical model of nuclides transfer in lake scenarios. Mathematical equations and physical principles used to develop the code are presented in section 2. The program use is presented in section 3 including input data sets and output data. Section 4 presents two example problems, and some results. The complete program listing including comments is presented in Appendix A. Nuclides are assumed to enter the lake via atmospheric deposition and carried by the water runoff and the dragged sediments from the adjacent catchment. The dynamics of the nuclides inside the lake is based in the model proposed by Codell (11) as modified in (5). The removal of concentration from the lake water is due to outflow from the lake and to the transfer of activity to the bottom sediments. The model has been applied to the Esthwaite Water (54 degree 21 minute N, 03 degree 00 minute W at 65 m. asl.) in the frame of the VAMP Aquatic Working Group (8) and to Devoke Water (54 degree 21 minute 5`N, 03 degree, 18 minute W at 230 m. asl.)}
place = {Spain}
year = {1994}
month = {Dec}
}
title = {Lake-0: A model for the simulation of nuclides transfer in lake scenarios}
author = {Garcia-Olivares, A, Aguero, A, and Pinedo, P}
abstractNote = {This report presents documentation and a user`s manual for the program LAKE-0, a mathematical model of nuclides transfer in lake scenarios. Mathematical equations and physical principles used to develop the code are presented in section 2. The program use is presented in section 3 including input data sets and output data. Section 4 presents two example problems, and some results. The complete program listing including comments is presented in Appendix A. Nuclides are assumed to enter the lake via atmospheric deposition and carried by the water runoff and the dragged sediments from the adjacent catchment. The dynamics of the nuclides inside the lake is based in the model proposed by Codell (11) as modified in (5). The removal of concentration from the lake water is due to outflow from the lake and to the transfer of activity to the bottom sediments. The model has been applied to the Esthwaite Water (54 degree 21 minute N, 03 degree 00 minute W at 65 m. asl.) in the frame of the VAMP Aquatic Working Group (8) and to Devoke Water (54 degree 21 minute 5`N, 03 degree, 18 minute W at 230 m. asl.)}
place = {Spain}
year = {1994}
month = {Dec}
}