PM4WAT Preventive
Maintenance for Water Utilities
LEONARDO DA VINCI - Multilateral Project
Development of Innovation
Started in November 2009Duration: 24 months
PROWAT2 Meeting 23-24 March 2010 Thessaloniki, Greece
• Maintenance is carried out only when a major breakdown (e.g. leak and a large volume of water) is observed. This is the most common policy used by urban water utilities today.
• The policy is time-consuming and costly as parts and components are often out of stock. Delays in procurement cause delays in restoration of service.
• Customer dissatisfaction is high and • The integrity of the water utility is low.
Traditional Maintenance
Preventive Maintenance • Is the care and service of the network for the
purpose of maintaining it in good operating condition.
• PM provides systematic inspection and detection of incipient failures and proactive rehabilitation i.e. before faults develop into catastrophic events.
• Requires systematic record keeping, tests and measurements for fault prognosis, parts ordering and work scheduling to minimise operational disruption and water loss.
Network Reliability• Object is to preserve and enhance
equipment reliability by replacing worn components (piping, connectors, joints etc.) before they fail.
• PM activities include scheduled branch inspection and partial replacements at regular intervals.
• Long-term benefits are reduced Life-Cycle Costs
The PM4WAT Project• Fusion of national practices to
produce – a unified curriculum definition
and – a library of learning content
for a multi-lingual web-based training course on Preventive Maintenance of Urban Water Utilities.
Project summary• VET programme for urban water utility
networks subject to: – ageing, – water losses, – seismic activity and– other natural hazards.
• Target group: – water utility personnel, – inspection engineers,– civil and hydraulic engineers
Project ObjectivesTo provide urban water utility
personnel training in PM that will • lead to the adoption of state of the
art practices • offer training on pro-active
rehabilitation and • training on the effects of natural
hazards.
Components of the VET
• The training program involves 2 components
• a theoretical part which involves web-based courseware based on an e-learning platform (MOODLE) which provides embedded self-teaching and assessment capabilities.
• and a practical part (based on an earlier FP5 project – SEISLINES) which involves software that integrates – GIS – Risk Analysis and – Database Management
to estimate the temporal degradation of branches of the network for different environmental scenarios.
Scenario-Based Training• The training program will use real
data taken from a medium-sized urban water utility.
• The trainee will be able to examine the effects of different scenarios and learn the most appropriate rehabilitation procedures to use to rapidly mitigate any network problem.
12
SEISLINES - Selection of network nodes
Network nodes
selection via GIS
Selected nodes
geometry Reliability calculation
Selected nodes
13
SEISLINES – Visualization of results
Node Reliability curve over
time
Previous scenarios
resultsstored in
the database
14
SEISLINES – Rehabilitation options
Link (pipe) between
two nodes
Rehabili-tation
options …
based on the
Reliability results
The Consortium• Coordinator:
– Research Academic Computer Technology Institute (RACTI), GR
• Partners– Center for Assessment of Natural
Hazards & Proactive Planning, GR
– Training 2000, IT– Pamukkale University, TR– Denizli Municipality, TR– HS Data Ltd, CY– Water Board of Lemessos, CY
Project websitewww.teg.cti.gr/pm4wat/