Abstract
During Autumn 1988 Danish Hydraulic Institute (DHI) was invited to participate in a comparative study of three-dimensional baroclinic ocean models. The study was coordinated by Veritec, Norway on behalf of oil companies operating along the Norwegian Continental Shelf. The companies have launched a meteorological and oceanographic modelling program, abbreviated MOMOP. From Veritec DHI has received a very detailed and comprehensive report describing five different test cases from the MOMOP study. It was decided to perform these tests as a part of the comprehensive validation program for SYSTEM 3. The test cases constitute classical fluid dynamic problems of lock-exchange flow, upwelling along a coast, flow over a sea mountain and response to a moving storm. The latter test case should be performed with two different boundary conditions. Some modifications to the tests have been introduced or additional tests have been made, especially with barotropic conditions. (AB) (11 refs.).
Citation Formats
None.
System 3. A three dimensional hydrodynamic model. Vol. 6C. Validation tests. Meteorological and oceanographic modelling (MOMOP).
Denmark: N. p.,
1989.
Web.
None.
System 3. A three dimensional hydrodynamic model. Vol. 6C. Validation tests. Meteorological and oceanographic modelling (MOMOP).
Denmark.
None.
1989.
"System 3. A three dimensional hydrodynamic model. Vol. 6C. Validation tests. Meteorological and oceanographic modelling (MOMOP)."
Denmark.
@misc{etde_10144741,
title = {System 3. A three dimensional hydrodynamic model. Vol. 6C. Validation tests. Meteorological and oceanographic modelling (MOMOP)}
author = {None}
abstractNote = {During Autumn 1988 Danish Hydraulic Institute (DHI) was invited to participate in a comparative study of three-dimensional baroclinic ocean models. The study was coordinated by Veritec, Norway on behalf of oil companies operating along the Norwegian Continental Shelf. The companies have launched a meteorological and oceanographic modelling program, abbreviated MOMOP. From Veritec DHI has received a very detailed and comprehensive report describing five different test cases from the MOMOP study. It was decided to perform these tests as a part of the comprehensive validation program for SYSTEM 3. The test cases constitute classical fluid dynamic problems of lock-exchange flow, upwelling along a coast, flow over a sea mountain and response to a moving storm. The latter test case should be performed with two different boundary conditions. Some modifications to the tests have been introduced or additional tests have been made, especially with barotropic conditions. (AB) (11 refs.).}
place = {Denmark}
year = {1989}
month = {Apr}
}
title = {System 3. A three dimensional hydrodynamic model. Vol. 6C. Validation tests. Meteorological and oceanographic modelling (MOMOP)}
author = {None}
abstractNote = {During Autumn 1988 Danish Hydraulic Institute (DHI) was invited to participate in a comparative study of three-dimensional baroclinic ocean models. The study was coordinated by Veritec, Norway on behalf of oil companies operating along the Norwegian Continental Shelf. The companies have launched a meteorological and oceanographic modelling program, abbreviated MOMOP. From Veritec DHI has received a very detailed and comprehensive report describing five different test cases from the MOMOP study. It was decided to perform these tests as a part of the comprehensive validation program for SYSTEM 3. The test cases constitute classical fluid dynamic problems of lock-exchange flow, upwelling along a coast, flow over a sea mountain and response to a moving storm. The latter test case should be performed with two different boundary conditions. Some modifications to the tests have been introduced or additional tests have been made, especially with barotropic conditions. (AB) (11 refs.).}
place = {Denmark}
year = {1989}
month = {Apr}
}