16 Works

MagTense

Rasmus Bjørk & Kaspar Kirstein Nielsen

Urban pluvial flood risk assessment - data resolution and spatial scale when developing screening approaches on the micro scale - Computer code

Roland Löwe
This folder contains computer code applied for the analysis in the article
"Urban pluvial flood risk assessment - data resolution and spatial scale when developing screening approaches on the micro scale"

Computer code is made available under the GNU GPL v3. Please see the file License.txt.
DEM data are available from download.kortforsyningen.dk

##################
Folder 2D_Flood_Modelling contains
.\ScriptsModelPreparation
-A_RainToDFS_BaseData.py - creates a raster dfs2 file with rainfall input, applied for the baseline simulation with known imperviousness
-A_RainToDFS_Projections.py - creates a raster dfs2...

Data and computational programs for testing a dynamic model of destination image formation

Morten Mørup, Mikkel Nørgaard Schmidt & Fumiko Kano Glückstad
This program contains computational programs used in the procedure 1 and procedure 3 presented in (Fumiko Kano Glückstad, Mikkel N. Schmidt, Morten Mørup, Data and computational programs for testing a dynamic model of destination image formation). The program is structured to process data presented in the accompanying Data in Brief.

Data and computational programs for testing a dynamic model of destination image formation

Morten Mørup, Mikkel Nørgaard Schmidt & Fumiko Kano Glückstad
This program contains computational programs used in the procedure 1 and procedure 3 presented in (Fumiko Kano Glückstad, Mikkel N. Schmidt, Morten Mørup, Data and computational programs for testing a dynamic model of destination image formation). The program is structured to process data presented in the accompanying Data in Brief.

MatlabExamples.zip

David R. Fuhrman
Matlab examples demonstrating analysis of turbulent velocity signals, described in Chapter 4 of:
Sumer, B.M. and Fuhrman, D.R. (2020) Turbulence in Coastal and Civil Engineering. World Scientific. DOI: 10.1142/10829

Actuator-Line-Smearing-Correction

Alexander Meyer Forsting, Georg Pirrung & Néstor Ramos García
Fortran code enabling the correction of the actuator line for missing induction at the blade originating from force smearing. See MeyerForsting et al. 2019 (https://doi.org/10.5194/wes-4-369-2019)

Numerical models for assessing the performance of heat pumps with maldistribution effects in plate heat exchanger evaporators

Roberta Mancini, Benjamin Zühlsdorf & Brian Elmegaard
The work presents numerical models for design of heat pumps with pure and mixed working fluids including a detailed characterization of plate heat exchanger (PHE) evaporators and condensers. The models are suitable for assessing the impact of heat exchanger operation on the heat pump performance, as well as estimating the impact of liquid/vapour maldistribution and effect of end plates on both PHE evaporator and heat pump performances.
The models are implemented in MATLAB 2017b. Python and...

Numerical models for assessing the performance of heat pumps with maldistribution effects in plate heat exchanger evaporators

Roberta Mancini, Benjamin Zühlsdorf & Brian Elmegaard
The work presents numerical models for design of heat pumps with pure and mixed working fluids including a detailed characterization of plate heat exchanger (PHE) evaporators and condensers. The models are suitable for assessing the impact of heat exchanger operation on the heat pump performance, as well as estimating the impact of liquid/vapour maldistribution and effect of end plates on both PHE evaporator and heat pump performances.
The models are implemented in MATLAB 2017b. Python and...

Urban pluvial flood risk assessment - data resolution and spatial scale when developing screening approaches on the micro scale - Computer code

Roland Löwe
This folder contains computer code applied for the analysis in the article
"Urban pluvial flood risk assessment - data resolution and spatial scale when developing screening approaches on the micro scale"

Computer code is made available under the GNU GPL v3. Please see the file License.txt.
DEM data are available from download.kortforsyningen.dk

##################
Folder 2D_Flood_Modelling contains
.\ScriptsModelPreparation
-A_RainToDFS_BaseData.py - creates a raster dfs2 file with rainfall input, applied for the baseline simulation with known imperviousness
-A_RainToDFS_Projections.py - creates a raster dfs2...

Urban pluvial flood risk assessment - data resolution and spatial scale when developing screening approaches on the micro scale - Computer code

Roland Löwe
This folder contains computer code applied for the analysis in the article
"Urban pluvial flood risk assessment - data resolution and spatial scale when developing screening approaches on the micro scale"

Computer code is made available under the GNU GPL v3. Please see the file License.txt.
DEM data are available from download.kortforsyningen.dk

##################
Folder 2D_Flood_Modelling contains
.\ScriptsModelPreparation
-A_RainToDFS_BaseData.py - creates a raster dfs2 file with rainfall input, applied for the baseline simulation with known imperviousness
-A_RainToDFS_Projections.py - creates a raster dfs2...

Actuator-Line-Smearing-Correction

Alexander Meyer Forsting, Georg Pirrung & Néstor Ramos García
Fortran code enabling the correction of the actuator line for missing induction at the blade originating from force smearing. See MeyerForsting et al. 2019 (https://doi.org/10.5194/wes-4-369-2019)

MatlabExamples.zip

David R. Fuhrman
Matlab examples demonstrating analysis of turbulent velocity signals, described in Chapter 4 of:
Sumer, B.M. and Fuhrman, D.R. (2020) Turbulence in Coastal and Civil Engineering. World Scientific. DOI: 10.1142/10829

MatRANS.zip

David R. Fuhrman
This is version 2.1 of the MatRANS model, for simulating simple one-dimensional vertical (1DV) boundary layer flows in Matlab. The model solves unsteady Reynolds-averaged Navier-Stokes (RANS) equations, coupled with k-omega turbulence model closure, coupled with bed and suspended load sediment transport models.
The model is intended to be utilized within selected hands-on exercises (Chapter 10) in the text book:
Sumer, B.M. and Fuhrman, D.R. (2020) Turbulence in Coastal and Civil Engineering. World Scientific. DOI: 10.1142/10829
Cases set...

MatRANS.zip

David R. Fuhrman
This is version 2.1 of the MatRANS model, for simulating simple one-dimensional vertical (1DV) boundary layer flows in Matlab. The model solves unsteady Reynolds-averaged Navier-Stokes (RANS) equations, coupled with k-omega turbulence model closure, coupled with bed and suspended load sediment transport models.
The model is intended to be utilized within selected hands-on exercises (Chapter 10) in the text book:
Sumer, B.M. and Fuhrman, D.R. (2020) Turbulence in Coastal and Civil Engineering. World Scientific. DOI: 10.1142/10829
Cases set...

MatlabExamples.zip

David R. Fuhrman
Matlab examples demonstrating analysis of turbulent velocity signals, described in Chapter 4 of:
Sumer, B.M. and Fuhrman, D.R. (2020) Turbulence in Coastal and Civil Engineering. World Scientific. DOI: 10.1142/10829

MatlabExamples.zip

David R. Fuhrman
Matlab examples demonstrating analysis of turbulent velocity signals, described in Chapter 4 of:
Sumer, B.M. and Fuhrman, D.R. (2020) Turbulence in Coastal and Civil Engineering. World Scientific. DOI: 10.1142/10829

Registration Year

  • 2019
    15
  • 2020
    1

Resource Types

  • Software
    16