Technical Skills
Expertise in urban water and water resources systems, environmental modelling and design/analysis.
Developing hydrological and hydraulic models to optimize water resource management.
Project and Asset management
Integrating regulatory frameworks with engineering solutions for effective outcomes.
Water is life!
Water Modelling
More than two and a half decades of multidiciplined expertise in hydrological and hydraulic modelling applied to urban water and water resources systems, in which combines robust modelling techniques with system-level understanding to support analysis, planning, and decision-making across a range of spatial and temporal scales.
Modelling Tools
1D-2D: MIKE+ (all modules), MIKE FLOOD.
1D-river: MIKE 11, MIKE HYDRO, MIKE11GIS.
1D-pipe: MIKE URBAN (CS, SWMM and Epanet).
2D: MIKE21, Scalgo Live and Scalgo Live Tuflow.
Data analysis: MIKE VIEW, Gandalf.
Stormwater konceptual: Storm Tac for rainwater and water quality modelling.
1D: InfoWorks CS.
GIS: ArcGIS/ArcGIS Pro, MapInfo and QGIS
Design databases
DANDAS-Graf: MicroStation-database and design tool of water supply and drainage systems in Denmark.
VA bank: GIS-database and design tool of water supply and drainage systems in Sweden.
Key Skills
1D-modelling: Development and application of hydrological and hydraulic models for one-dimensional urban drainage, rivers, and water resources systems.
2D-modelling: Surface water modelling that includes flood modelling, lakes and coast modelling.
1D-2D modelling: Integrated modelling approaches linking surface water, sewer systems, and receiving waters for flood modelling.
1D-1D modelling: Faster flood modelling, linking surface water modelled as1D-model to traditional 1D-model systems. This innovative method to be implemeted in modelled weather radar prognoses models.
LTS-modelling: Long-term time series modelling is a cost-effective method for supporting the design and optimization of combined sewer overflow (CSO) systems and associated retention facilities, including ponds, tanks, and rainwater lagoons, by capturing temporal variability in rainfall and system response.
RDII /NAM-modelling: Rain Dependent Infiltration and Inflow modelling for 1D-systemes.
Scenario analysis for climate change, urban development, and operational conditions.
Calibration, validation, and uncertainty assessment to ensure model reliability.
Modelling for decision-support: Coupling of modelling results with decision-making support and planning frameworks.
Project & Asset Management
Coordination and management of water projects from early planning to implementation, integrating technical inputs, schedules, and stakeholder requirements to support timely and cost-effective delivery.
Asset management approaches supporting the operation, maintenance, and renewal of water infrastructure. Focus areas include performance assessment, risk-based prioritization and lifecycle planning.
Key Skills
Planning & Control
Project planning and structuring
Time scheduling and process design
Delivery management and deadline control
Resources & Teams
Resource allocation and capacity planning
Team building and interdisciplinary coordination
Economy, Risk & Assets
Project budgeting and financial control
Risk assessment and lifecycle planning
Asset management and performance planning
Quality & Governance
Quality assurance, auditing, and verification
Project structure, documentation and reporting
Communication & Clients
Stakeholder communication and coordination
Client relations, marketing and networking
Design
Design of urban water and water resources systems that translates analysis and modelling into practical, buildable and resilient solutions.
The focus is on functionality, safety, sustainability, and long-term system performance.
Design Capabilities
Hydraulic & Hydrological Design
From modelling and analysis to resilient and implementable water system design.
Design of drainage, flood protection, and water conveyance systems based on hydrological and hydraulic analysis. Emphasis is placed on capacity, robustness and performance under current and future conditions. This aim to the follwoing:
Engineering design translating modelling and analysis into resilient urban water solutions.
Hydraulic and hydrological design supporting safe, sustainable and buildable systems.
Integrated System Design
Integrated design across drinking water, wastewater, stormwater, and receiving waters to ensure system compatibility and optimized performance at catchment and urban scales.
Sustainable & Resilient Design
Design solutions that incorporate sustainability principles, climate change adaptation, and resilience to extreme events. This includes nature-based solutions and adaptive design strategies.
Design Support & Decision Integration
Design outputs structured to support planning, permitting, and implementation processes, ensuring traceability from modelling and analysis to final design decisions.
Design expertise
Drainage system network hydraulic and constructional analysis and design.
Retention tanks and reservoirs hydraulic, constructional and estthetic analysis and design.
Low Impact Development (LID, LAR in Denmark and LOD in Sweden) systems analysis and design.
Pumpstations hydraulic design and selection.
Water supply network hydraulic and constructional design.
Kanal, river modifications and hydrological structures analysis and design.
Dam safety analysis and design.
