Purpose and Subjects

The conference covers all relevant topics of IWAs Specialist Group on Design, Operation and Costs of Large Wastewater Treatment Plants. To find proper solutions for problems related to design, operation and economics of large wastewater treatment plants is a task of steadily growing importance. While at the beginning of the 20th century only less than 15 % of the total population on the Globe lived in the towns, the estimates for 2050 predict about two thirds of all people living in the urban areas. Therefore, the wastewater treatment in large treatment plants is an inseparable part of water management of cities of the future. The operation of LWWTPs is more and more considered as a source of making valuables of the wastewater available for other purposes, e.g. water, energy or nutrients. Our traditional conference will also reflect this change in the paradigm in the topics discussed in Vienna.

 

  1. Design and Operation

    • wastewater treatment in large cities and sensitive catchment areas
    • selection of cost-effective solutions
    • strategies for achieving low effluent nutrient level
    • appropriate technologies for developing countries
    • successful case studies
    • CFD modelling
    • control of activated sludge separation properties
    • instrumentation, control & automation
    • emission of N2O and other greenhouse gases

  2. Management of Wastewater Services

    • asset management and strategic planning
    • benchmarking
    • management, education and training
    • regulation and governance

  3. Sludge Handling

    • modern approaches to wastewater sludge processing
    • activated sludge separation
    • effect of reject water on wastewater treatment line
    • treatment of sludge dewatering effluent (SDE)
    • optimized use of energy from sludge
    • energy recovery
    • sewage sludge desintegration

  4. Cost and Energy Optimization

    • construction and investment
    • cost and energy effective operation

  5. Innovative Wastewater Treatment Technologies

    • mixing and aeration systems
    • use of membranes in wastewater treatment
    • removal of specific organic compounds (endocrine disruptors, micropollutants etc.)
    • nutrient removal and recovery
    • intensification of treatment (granular sludge, attached growth, hybrid systems)
    • short cut nitrogen removal in mainstream

  6. Large WWTP in “Cities of the Future”

    • large WWTPs as basis for the future growth of cities
    • water reuse