Johannes Boog
Dr.-Ing.
The concept of digital soil moisture mapping.
The workflow for digital soil moisture mapping in python.
A workflow for the multiphysics simulator OpenGeoSys
Workflow design to use NetCDF data as input for transport simulations with OpenGeoSys.
From experiments to modeling: Aerated treatment wetlands.
Simulation of an horizontal flow aerated wetland during the stepwise reduction of aeration.
My PhD outdoor lab, ;-).
It got cold sometimes...
...pretty cold.
Address
Department Environmental Informatics
Helmholtz Centre for
Environmental Research - UFZ
Permoserstr. 15
04318 Leipzig, Germany
Phone: +49 (0) 341 235-482328
Phone: +49 (0) 341 235-1098
johannes.boog@ufz.de
Research Activities
- Within the project Digital Earth I develop workflows and machine learning methods for interpolating point-based data that varies in time into space. These workflows are applied to map soil moisture form ground-based TDR sensors into the surrounding area.
- I am developing an R software package with user-friendly workflows for the multi-physics simulator OpenGeoSys to conduct model sensitivity analysis and to enable the calibration of complex process models with multiple objectives.
- Please, feel free to contact me if you are interested in my research or for collaboration or student works.
since 2019
Helmholtz Centre for Environmental Research - UFZ
Department Environmental Informatics
Researcher, Project Digital Earth
- Digital soil moisture mapping
- Development of a data interface NetCDF2VTK
- Development of an API for OpenGeoSys to the R language
2015-2020
PhD student in co-operation with Dresden University of Technology, Chair of Applied Environmental System Analysis
- Modeling oxygen transfer and removal of organic carbon and nitrogen in aerated horizontal flow treatment wetlands
2015 - 2018
Helmholtz Centre for Environmental Research - UFZ
Department Centre for Environmental Biotechnology (UBZ)
Research engineer, Decentralized wastewater treatment and reuse in Jordan (Project SMART-MOVE)
- Design, construction and monitoring of decentralized wastewater treatment systems
- Data management and analysis of research platform Fuheis
2013 - 2015
2006 - 2013
Process Engineering, Dipl.-Ing., University of Technology Bergakademie Freiberg
2011 - 2012
Research internship, Universidad Nacional de Colombía, Laboratory of Biotechnology
2010 - 2011
Exchange semester at University of Technology Valencía, Spain
Index:
2020 (1)2019 (3)
2018 (5)
2016 (1)
2014 (1)
You could use our publication index for further requests.
2020 (1)
- Boog, J., Nivala, J., Kalbacher, T., van Afferden, M., Müller, R.A., (2020):
Do wastewater pollutants impact oxygen transfer in aerated horizontal flow wetlands?
Chem. Eng. J. 383 , art. 123173
full text (doi)
2019 (3)
- Boog, J., Kalbacher, T., Nivala, J., Forquet, N., van Afferden, M., Müller, R.A., (2019):
Modeling the relationship of aeration, oxygen transfer and treatment performance in aerated horizontal flow treatment wetlands
Water Res. 157 , 321 - 334
full text (doi) - Boog, J., Kalbacher, T., Nivala, J., van Afferden, M., Müller, R.A., (2019):
Modeling dynamics of organic carbon and nitrogen removal during aeration interruption in aerated horizontal flow treatment wetlands
Water Sci. Technol. 80 (3), 597 - 606
full text (doi) - Nivala, J., Boog, J., Headley, T., Aubron, T., Wallace, S., Brix, H., Mothes, S., van Afferden, M., Müller, R.A., (2019):
Side-by-side comparison of 15 pilot-scale conventional and intensified subsurface flow wetlands for treatment of domestic wastewater
Sci. Total Environ. 658 , 1500 - 1513
full text (doi)
2018 (5)
- Boog, J., (2018):
Application: treatment wetlands
In: Jang, E., Boog, J., He, W., Kalbacher, T., (eds.)
OpenGeoSys Tutorial. Computational hydrology III: OGS#IPhreeqc coupled reactive transport modeling
SpringerBriefs in Earth System Sciences
Springer International Publishing, Cham, p. 63 - 90
full text (doi) - Boog, J., Nivala, J., Aubron, T., Mothes, S., van Afferden, M., Müller, R.A., (2018):
Resilience of carbon and nitrogen removal due to aeration interruption in aerated treatment wetlands
Sci. Total Environ. 621 , 960 - 969
full text (doi) - Jang, E., Boog, J., He, W., Kalbacher, T., (2018):
OpenGeoSys Tutorial. Computational hydrology III: OGS#IPhreeqc coupled reactive transport modeling
SpringerBriefs in Earth System Sciences
Springer International Publishing, Cham, 103 pp.
full text (doi) - Jang, E., Boog, J., (2018):
Software requirements and installation
In: Jang, E., Boog, J., He, W., Kalbacher, T., (eds.)
OpenGeoSys Tutorial. Computational hydrology III: OGS#IPhreeqc coupled reactive transport modeling
SpringerBriefs in Earth System Sciences
Springer International Publishing, Cham, p. 15 - 23
full text (doi) - Nivala, J., Kahl, S., Boog, J., van Afferden, M., Reemtsma, T., Müller, R.A., (2018):
Dynamics of emerging organic contaminant removal in conventional and intensified subsurface flow treatment wetlands
Sci. Total Environ. 649 , 1144 - 1156
full text (doi)
2016 (1)
- Boog, J., Nivala, J., Aubron, T., Wallace, S., Sullivan, C., van Afferden, M., Müller, R.A., (2016):
Treatment wetland aeration without electricity? Lessons learned from the first experiment using a wind-driven air pump
Water 8 (11), art. 502
full text (doi)
2014 (1)
- Boog, J., Nivala, J., Aubron, T., Wallace, S., van Afferden, M., Müller, R.A., (2014):
Hydraulic characterization and optimization of total nitrogen removal in an aerated vertical subsurface flow treatment wetland
Bioresour. Technol. 162 , 166 - 174
full text (doi)