DANUBE WATER PROGRAM Proposal for a T rain the T rainer Program ( Water Supply D i vision)

1. DANUBE WATER PROGRAMProposalfor a Train theTrainer Program (Water Supply Division) Vienna, 17th/18thFebruary 2014Heinz-Jürgen Brauch und Florian R. Storck

2. OBJECTIVES • Improve and strengthen technical capacity of water supply utilities • Train representatives of national associations and institutions • Update technical expertise and performance to achieve the EU standards • Customized training courses related to practice by Austrian and German experts as well as from IAWD

3. SCOPE OF WORK • Train and qualify technical experts as trainers for their national associations and institutions • Compile technical documents and papers for the individual training courses • Prepare technical contents and subjects in cooperation with trainers and participants • Organize the training courses in Vienna in collaboration with IAWD

4. TRAINING • Compendium training courses (3 days) • Water abstraction and water management • Water transportation and distribution • Mechanical and electrical installations in waterworks • Water chemistry and water quality • Water treatment • Water use/household installations • Customized training courses (1 day) • Spring water supply • Membrane processes • Adsorption processes • Risk management for water utilities

5. WATER ABSTRACTION AND WATER MANAGEMENT Content • Hydrogeological basics(groundwater flow, water quality, pumping tests) • Water prospecting and exploitation (drilling methods, well construction) • Well operation and maintenance(well management, aging, regeneration, rehabilitation, deconstruction) • Groundwater management(resources, monitoring, sampling, risks, protected areas) • Regulatory framework

6. WATER TRANSPORTATION AND DISTRIBUTION Content • Basic planning, strategy, design (pipe networks, costs, fire water demand, bidding, allocation, pipe management) • Components and materials(materials, corrosion, pipes, stop and regulating valves, equipment maintenance) • Construction(underground, pipe and surface treatment, leakage tightness tests, initial operation) • Operation(water losses, damages, inspection, documentation, water metering, flushing, action plans, stand-by services)

7. MECHANICAL AND ELECTRICAL INSTALLATIONS IN WATERWORKS Content • Conveying systems(radial pumps, electrical drives, fittings, valves, pipes) • Planning and design of conveying systems • Process monitoring and control technology(automation, control engineering) • Operation and maintenance (safety at work, humidity removal and aeration, maintenance and investment strategies)

8. WATER CHEMISTRY AND WATER QUALITY Content • Water cycle and water usage(suitability of water resources, natural compounds and man-made chemicals, national and international regulations) • Fundamentals of hydrochemistry(redox reactions in aquatic systems, interactions between air, water and soil, carbonate balances, hydrochemical composition, water constituents and concentrations) • Water Quality(quality parameters, sampling, monitoring strategies, analytical aspects, quality control) • Microbiological parameters(determination, data evaluation and assessment, action plans) • Inorganic parameters • Organic parameters

9. WATER TREATMENT Content • Basics of water treatment processes(chemical and biological aspects, natural and technical processes) • Removal of particles (flocculation, filtration, micro and ultra membrane filtration) • Removal / inactivation of bacteria, pathogens and viruses(disinfection, UV-radiation, particle removal) • Removal of dissolved inorganic species (iron, manganese, hardness)(softening, decarbonization, ion exchange, nanofiltration, reverse osmosis) • Removal of organics (NOM, pesticides, emerging substances)(oxidation, adsorption, biological filtration, nanofiltration) • Planning and design of water treatment facilities • Perspectives and challenges (energy efficiency, carbon footprint, combination of natural and technical processes)

10. WATER USE / HOUSEHOLD INSTALLATIONS Content • Importance of technical regulations • Hygienic problems in household installations • Legionella problems in domestic hot water installations • Fittings, materials, connections, valves, tapware • Corrosion (causes, water quality, mitigation and abatement measures) • House and apartment water meters

11. ORGANIZATION • 3 – 5 representatives from each country (national associations)  Highly qualified as engineer, scientist, hydrogeologist, technical expert) • Venue: Vienna • Timeline • Summer 2014: Identification of key topics and trainers, working on detailed training program • Autumn 2014: Preparation of documents, papers and hand-outs for the training courses in English language • Winter/Spring 2015: Starting with training courses • Summer 2015: Finalization of training courses and evaluation of follow-up activities

12. SUMMARY / OUTLOOK • To improve water supply sector technical expertise and know-how essential • Train the trainer program will support both technical capacity of water utilities as well as technical leaders, engineers and scientists to achieve EU standards • These goals can only be achieved by training and qualifying technical experts • Vision: Trained experts will spread their knowledge to their national associations and colleagues. Overall water supply sector has to be upgraded particularly in minor cities and rural regions