EU, SIXTH FRAMEWORK PROGRAMME AUSTRIA, MAY EU funded Project: Partner: INTERGEO Environmental Technology Ltd.- Greece WPO4: Data compilation and analysis, –

OBJECTIVE OF 4 TH MEETING CONCERNING WP04 TO PRESENT THE PROPOSED DATABASE STRUCTURE TO PRESENT THE PROPOSED DATABASE STRUCTURE TO DISCUSS WITH ESS ABOUT THE DB FORMTO DISCUSS WITH ESS ABOUT THE DB FORM TO CLARIFY ISSUES WITH CASE STUDY PARTNERSTO CLARIFY ISSUES WITH CASE STUDY PARTNERS

DATA BASE DEVELOPMENT STEPS 1.Set up an on-line data base that can be used through the OPTIMA web. (COMPLETED) 2.Identify the numerous water management technologies, techniques or methods. (ALMOST COMPLETED) 3.Start with a subset proposition about the DB structure, fields, templates AND parameter list (COMPLETED) 4.Develop few COMPLETE examples as a start. (ONGOING) 5.Come into final agreement of TEMPLATES with model requirements – ESS. (ONGOING) 6.Allow case study partners, that will eventually utilize the database, to enter some case specific data to the examples provided (NOT STARTED) 7.Get feedback response by case study users. (NOT STARTED) 8.Filling up the water technology database for each particular case study. (NOT STARTED) 9.Model utilization by case study users, running different water technology optimization scenario schemes, performance evaluation, database corrections. (NOT STARTED)

DATA BASE DEVELOPMENT STEP 1 1. Set up an on-line data base that can be used through the OPTIMA web. (COMPLETED)

DATA BASE DEVELOPMENT STEP 2 2. Identify the numerous water management technologies, techniques or methods (ALMOST COMPLETED) WATER TECHNOLOGIES IDENTIFIED YET a. WATER STRUCTURES Additional/bigger reservoirs, Additional dams, Artificial recharge of aquifers, Brackish / Desalination such as:

b. MEASURES FOR REDUCING DEMAND Domestic – Touristic: Low-volume flush toilets in hotels, Low- flow showerheads, Toilet tank volume displacement devices, Pressure reduction devices, Grey Water reuse landscaping, Xeriscaped landscape, etc……….. Industrial water recycling and reuse: Cooling / boiler feed water recirculation, Wash water recycling, Landscape irrigation, etc……….. Agriculture: Drip irrigation, Drought-tolerant plants, Drainage wastewater reuse, Municipal wastewater reuse, etc……….. Agriculture: Drip irrigation, Drought-tolerant plants, Drainage wastewater reuse, Municipal wastewater reuse, etc……….. c. MEASURE FOR ENHANCING SUPPLY c. MEASURE FOR ENHANCING SUPPLY Water transport – storage:Agricultural channel lining – covering, Agricultural/Drinking reservoir covering – lining, Channel piping, Drinking pipeline breaks/leakage control rehabilitation, Groundwater abstraction, Rainfall harvesting etc……….. Water transport – storage:Agricultural channel lining – covering, Agricultural/Drinking reservoir covering – lining, Channel piping, Drinking pipeline breaks/leakage control rehabilitation, Groundwater abstraction, Rainfall harvesting etc………..

42 water management technologies, INCLUDED IN THE WEB-BASE

DATA BASE DEVELOPMENT STEP 3 3. EVERY WATER TECH INCLUDES THE FOLLOWING FIELDS NAME of the technology (short, < 16 characters)

DATA BASE DEVELOPMENT STEP 3 DESCRIPTION of EACH technology with the following FORMAT TitleTitle Technology Description (Operation and Maintenance included)Technology Description (Operation and Maintenance included) Critical Factors (i.e. those factors that would affect cost, operational efficiency and sustainability)Critical Factors (i.e. those factors that would affect cost, operational efficiency and sustainability) SustainabilitySustainability (i.e. advantages/disadvantages) (i.e. advantages/disadvantages) Cost Indication (RANGE)Cost Indication (RANGE) Performance OR WaterPerformance OR Water Sustainability Contribution BibliographyBibliographyGOAL: GIVE GUIDANCE (SUGGESTIONS) TO THE USER FOR PERFORMANCE AND COST AND COST

DATA BASE DEVELOPMENT STEP 3 LOCATION (case study (geographical restriction) this applies to, GENERIC for all case studies by default)

DATA BASE DEVELOPMENT STEP 3 APPLICATION DOMAIN symbolic reference to:

DATA BASE DEVELOPMENT STEP 3 TECHNOLOGY TYPE (annualized investment costs, in Euro) Unit investment cost - EUR Investment reference unit Unit operating cost - EUR Operating cost reference unit Technology Life Time Minimum implementation

DATA BASE DEVELOPMENT STEP 3 WATER DEMAND AND LOSSES Demand reduction: % Consumptive use reduction: % Conveyance loss reduction: % Return flow loss reduction: %

DATA BASE DEVELOPMENT STEP 3 WATER QUALITY BOD reduction: % Tracer reduction: %

DATA BASE DEVELOPMENT STEP 3 WATER SUPPLY Incremental Water Supply

DATA BASE DEVELOPMENT STEP 4 4. A COMPLETE EXAMPLE FOR AN OPTIMIZATION SCENARIO TO START CHANNEL LINING – COMPACTED EARTH (CLAY) INCLUDING BASIC WATER % DEMAND REDUCTION VALUES AND BASIC CONSRTUCTION COST VALUES ALL WATER TECHS WILL BE SUITABLE COMPLETED STARTING FROM TECHS RELATED TO WATER DEMAND

DATA BASE DEVELOPMENT STEP 5 5. Come into final agreement with model requirements – ESS (NOT COMPLETED) POSSIBLY TEMPLATES OF THE DB WILL SLIGHLTY CHANGE SINCE IT HAS NOT BEEN FINALISED

DATA BASE DEVELOPMENT STEPS Allow case study partners, that will eventually utilize the database (AS A GUIDANCE TOOL), to enter some case specific data to the examples provided 7. Get feedback response by case study users. 8. Filling up the database and finally completing the web-based, water technology database for each particular case study. 9. Model utilization by case study users, running different water technology scenario schemes, performance evaluation, database corrections.

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