Competence Atlas Water – Water Technologies and Water Management in Hesse
The competency map for water engineering and water resource management in Hesse was developed to present profiles of Hessian companies and facilities operating in the field of water.
Objective and set-up of the competency map
The competency map was developed with the participation of ISOE. It presents all Hessian companies and facilities operating in the field of water. These include, for example, plant engineers or pump manufacturers, as well as planning bureaus and research facilities. The competency map provides information on main areas of activity and research, and presents the suppliers complete with profile.
The map is intended to promote competition and innovation within the Hessian water and wastewater sector. Operational developments are to be improved and market access for companies improved. The competency map also serves to network the Hessian companies with university research.
The competency map was compiled on behalf of HA Hessen Agentur GmbH as a service of Aktionslinie Hessen-Umwelttech. Aktionslinie promotes competition and innovation in the Hessian water and wastewater sector.
Project partners
- Cooperative Infrastruktur und Umwelt, Darmstadt (Lead)
- Fachgebiet Abwassertechnik am Institut WAR der TU Darmstadt
Client
HA Hessen Agentur GmbH Aktionslinie Hessen Umwelttech.
Duration
Contact person
Project team
Research unit
Water Infrastructure and Risk AnalysesRelated projects
- AQUA-Hub India – Water Innovation Hubs and Smart Water Monitoring
- Assessment of the potential for the use of service water in Frankfurt am Main
- BioFAVOR II – Low-tech recycling of faeces from decentralised sources
- CapTain Rain – Capture and retain heavy rainfalls in Jordan
- Classification of consumption points in the supply area of HAMBURG WASSER
- CuveWaters – Sustainable Water Management in Namibia
- Daily drinking water demand – forecast model for Hamburg
- Efficient Use of the Hessian Groundwater Fee
- Eliminating micropollutants in sewage plants
- Environmental Risks and Pharmaceuticals: The Key Role of Pharmacies
- EPoNa – Water Reuse in Northern Namibia
- Evaluation of the International Water Stewardship Program (IWaSP)
- Guiding principle IWRM – Water resources management for the metropolitan region of Rhine-Main
- HypoWave – New Pathways Towards Wastewater Re-Use in Agriculture
- HypoWave+ – Implementation of a hydroponic system for sustainable water reuse in agriculture
- INTAFERE – Integrated Analysis of Organic Impurities in Rivers
- IntenKS – Improving sewage sludge treatment in China for energetic and material utilisation
- INTERESS-I – Integrated strategies to strengthen urban blue-green infrastructures
- IWRM in Isfahan – Sustainable Water Management in Iran
- Material flows of environmentally relevant chemical substances: product line controlling
- MULTI-ReUse – Modular treatment system for water reuse
- NaCoSi – Sustainability controlling of the domestic water management
- netWORKS – Transformations in Network Related Infrastructure Sectors
- netWORKS 2 – Transformation Management for a Sustainable Water Infrastructure
- netWORKS 3 – Sustainable concepts for the municipal water sector
- netWORKS 4 – Resilient networks: Contributions of urban supply systems to climate justice (follow-up project)
- netWORKS 4 – Resilient networks: how urban supply systems contribute to climate justice
- New perspectives for the ecological restoration of streams and rivers
- NiddaMan – Sustainable Water Resources Management in the Nidda Catchment Area
- P-Net – Regional network for resource-efficient phosphorus recycling and management
- PLASTRAT – Reduction of plastic discharges in lakes and running waters
- PlastX – Microplastics in bodies of running water
- PlastX – Plastic waste in seas and oceans
- Privatisation and Competition in Drinking Water Supply in Germany
- Privatisation in the Water Sector
- Proxies and Scenarios for the Development of Water Demand
- Regional Sustainability in Water and Land Use
- regulate – Sustainable Groundwater Management in Europe
- SASSCAL – Research Infrastructure in Africa
- SASSCAL – Water-related vulnerabilities and risk in Southern Africa
- SAUBER+ Innovative concepts for wastewater from public health sector facilities
- Semizentral – Infrastructure systems for cities of the future experiencing rapid growth
- Smart Water Future India: Intelligent Water Management for India’s Cities
- start – Management Strategies for Pharmaceuticals in Drinking Water
- start2 – Management Strategies for Hormonally Active Agrochemicals
- Stormwater Infiltration in Wiesbaden
- Structural concept for Trinkwasserversorgung Magdeburg
- Sustainability Performance in the Water Supply
- TransRisk – Pollutants as a risk to the water cycle
- TRAPA India – Transition pathways for solving urban wastewater problems in Indian cities
- Water 2050 – Sustainable Innovations for Water Management
- Water Cycle an Urban-Ecological Development
- Water demand forecast 2030 for Hamburg
- Water demand forecast 2045 for Hamburg
- Water demand forecast 2050 for Hamburg
- Water demand forecast 2050 for the WBV Harburg
- Weschnitz Dialog: Communication and participation in the management of restoration measures along the river Weschnitz