Final Conference Final Scientific Progress What we have achieved - - PowerPoint PPT Presentation

IRIS – Integrated European Industrial Risk Reduction System CP-IP 213968-2

Final Scientific Progress

Helmut Wenzel

Vienna, March 2012

Final Conference

What we have achieved

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Innovation Highlights

Accumulated Energy Function for SHM (WP7) IRIS Risk Paradigm (WP6) Standard Degradation Curve (WP3) EQVIS simulation and crisis management platform (IT) Integrated Decision Support System (WP7) LCA safety assessments concept (after NJ202 Demo) Vibration mitigation equipment (AVA, WP2) New approach to tailing pond safety (WP4) Model based SHM system (WP5)

Results ready for industrial application

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Virtual Doctor

Nerves Pain Data Virtual Pain

Basic Idea

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Innovation Highlights

Accumulated Energy Function for SHM (WP7) IRIS Risk Paradigm (WP6) Standard Degradation Curve (WP3) EQVIS simulation and crisis management platform (IT) Integrated Decision Support System (WP7) LCA safety assessments concept (after NJ202 Demo) Vibration mitigation equipment (AVA, WP2) New approach to tailing pond safety (WP4) Model based SHM system (WP5)

Results ready for industrial application

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Major Achievements

IRIS Damage Detection

Integration Normalization Environment

Temperature Radiation Added Loads Forced Input Strain

Accumulated Energy Function

Measurement Trend Analysis

Temperature Radiation Added Loads Forced Input Strain

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Verification in the Field

Bridge S101, December 2008

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management ETPIS, May 2010

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management ETPIS, May 2010

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Proof of Concept

Accumulated Energy Function

IRIS – Integrated European Industrial Risk Reduction System CP-IP 213968-2

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Checking period: 1997–now Risk Level: low

Undamaged

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Innovation Highlights

Accumulated Energy Function for SHM (WP7) IRIS Risk Paradigm (WP6) Standard Degradation Curve (WP3) EQVIS simulation and crisis management platform (IT) Integrated Decision Support System (WP7) LCA safety assessments concept (after NJ202 Demo) Vibration mitigation equipment (AVA, WP2) New approach to tailing pond safety (WP4) Model based SHM system (WP5)

Results ready for industrial application

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

The IRIS Risk Paradigm Time as additional Parameter

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Innovation Highlights

Accumulated Energy Function for SHM (WP7) IRIS Risk Paradigm (WP6) Standard Degradation Curve (WP3) EQVIS simulation and crisis management platform (IT) Integrated Decision Support System (WP7) LCA safety assessments concept (after NJ202 Demo) Vibration mitigation equipment (AVA, WP2) New approach to tailing pond safety (WP4) Model based SHM system (WP5)

Results ready for industrial application

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Comparative Structural Inspection

D.O.T. DISK DIN 1076 RVS 13.03.11

safe and operational (minor repair) safe and operational unsafe reduced safety and operability repair demanded safe and useable during repair safe − indicating reduced

• perability

USA Netherlands Germany Austria

9 1 2 3 4 5 6 7 8 1,0 - 1,4 3,5 - 4,0 3,0 - 3,4 2,5 - 2,9 2,0 - 2,4 1,5 - 1,9 1 6 5 4 3 2 1 6 5 4 3 2

Japan Condition

A E D C B

International Harmonisation

WP7

Online Monitoring

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Observed Service Life of structures

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Innovation Highlights

Accumulated Energy Function for SHM (WP7) IRIS Risk Paradigm (WP6) Standard Degradation Curve (WP3) EQVIS simulation and crisis management platform (IT) Integrated Decision Support System (WP7) LCA safety assessments concept (after NJ202 Demo) Vibration mitigation equipment (AVA, WP2) New approach to tailing pond safety (WP4) Model based SHM system (WP5)

Results ready for industrial application

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Timeline 07:30 07:37 Creating the Scenario Earthquake in EQvis

IRIS 2011 - Demonstration

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Timeline 07:30 07:37 07:42 Scenarios finished and damages computed 08:04

IRIS 2011 - Demonstration

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

The route of the Building Inspection Team

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Overview of the route of the Building Inspection Team

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Timeline 07:30 07:37 07:42 08:04 08:17 09:26 09:58 11:55 14:11 15:32

IRIS 2011 - Demonstration

The Bridge Inspection Team completes the measurements at bridge 3

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Measurements at the Nuclear Power Plant in Paks

A big impact measurement has been performed to create an accurate soil map

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Measurements at the Nuclear Power Plant in Paks

Deriving Dispersion Curves Computing soil profiles and soil maps Impact and Harmonic Measurements

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Airplane Route

The situation has also been evaluated from plane and space!

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Satellite Images

Satellite Images helped identifying the cloud and updating the scenario The satellite images were just a few hours old

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Timeline 07:00 07:37 07:42 08:04 08:17 09:26 09:58 11:55 14:11 15:30 16:30

IRIS 2011 - Demonstration

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Innovation Highlights

Accumulated Energy Function for SHM (WP7) IRIS Risk Paradigm (WP6) Standard Degradation Curve (WP3) EQVIS simulation and crisis management platform (IT) Integrated Decision Support System (WP7) LCA safety assessments concept (after NJ202 Demo) Vibration mitigation equipment (AVA, WP2) New approach to tailing pond safety (WP4) Model based SHM system (WP5)

Results ready for industrial application

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management Current Practice, Thessaloniki, 30. 3. – 2. 4. 2009

My personal DSS

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management Current Practice, Thessaloniki, 30. 3. – 2. 4. 2009

Normal Conditions

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management Current Practice, Thessaloniki, 30. 3. – 2. 4. 2009

Hazard identified

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management Current Practice, Thessaloniki, 30. 3. – 2. 4. 2009

Consequences

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management Current Practice, Thessaloniki, 30. 3. – 2. 4. 2009

Impact

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management Current Practice, Thessaloniki, 30. 3. – 2. 4. 2009

My personal DSS

Score A A A A C T S S S S E R V e s g V

s m m

= + + + + + + − + + + + + + ⋅ + ⋅ + ⋅ + ⋅ +

3 1 f 3 f 2 f 1 f av 2 9 f 3 f 2 f 1 f 1

w 7 w w 1000 , 5 , 2 , 1 1000  

weighting Achievement normalized Mega Factor Temperature Ambient and Environmental Conditions

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management Current Practice, Thessaloniki, 30. 3. – 2. 4. 2009

Trend identified

10.000 20.000 30.000 40.000 50.000 60.000 70.000 1990 1995 2000 2005 2010 Jahr meters score runs

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Cooling Towers

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Cooling Towers

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Innovation Highlights

Accumulated Energy Function for SHM (WP7) IRIS Risk Paradigm (WP6) Standard Degradation Curve (WP3) EQVIS simulation and crisis management platform (IT) Integrated Decision Support System (WP7) LCA safety assessments concept (after NJ202 Demo) Vibration mitigation equipment (AVA, WP2) New approach to tailing pond safety (WP4) Model based SHM system (WP5)

Results ready for industrial application

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management Page

39

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management Page

40 Total maintenance costs

• individual (unblocked) & per structural type

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management Page

41

Cost Optimization Results

Representative Example

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management Page

42

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Handover Value for var. Benefit scenarios

Ultimate Limit State Life Cycle – Analysis Period Evaluation Time-Frame

Ultimate Limit State Life Cycle – Analysis Period Evaluation Time-Frame

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Innovation Highlights

Accumulated Energy Function for SHM (WP7) IRIS Risk Paradigm (WP6) Standard Degradation Curve (WP3) EQVIS simulation and crisis management platform (IT) Integrated Decision Support System (WP7) LCA safety assessments concept (after NJ202 Demo) Vibration mitigation equipment (AVA, WP2) New approach to tailing pond safety (WP4) Model based SHM system (WP5)

Results ready for industrial application

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Innovation Highlights

Accumulated Energy Function for SHM (WP7) IRIS Risk Paradigm (WP6) Standard Degradation Curve (WP3) EQVIS simulation and crisis management platform (IT) Integrated Decision Support System (WP7) LCA safety assessments concept (after NJ202 Demo) Vibration mitigation equipment (AVA, WP2) New approach to tailing pond safety (WP4) Model based SHM system (WP5)

Results ready for industrial application

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Step 6. The LSIR at a given community is the weighted sum of NF/NPAR for the different scenarios with weights corresponding to the product of the probability of dam instability and the probability assigned to different breach scenarios, warning times and states-of- preparedness given that instability occurs.

ACTIVITY: DEFINITION OF INHERENT AND EMERGING RISKS

SUBTASK:

CONSEQUENCE MODELLING - VULNERABILITY OF PEOPLE AT RISK.

Schematic example of iso-risk contour lines of the LSIR

Note: for dynamic instability the emergency/evacuation should be considered as instant and the warning time equals the arrival time of the flow at the community. For static instability an anticipated emergency/evacuation is more likely and mutliple values of warning time should be considered with appropriately assigned probabilities.

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

ACTIVITY: DEFINITION OF INHERENT AND EMERGING RISKS

SUBTASK:

CONSEQUENCE MODELLING - VULNERABILITY OF PEOPLE AT RISK.

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

ACTIVITY: DEFINITION OF INHERENT AND EMERGING RISKS

SUBTASK:

CONSEQUENCE MODELLING - VULNERABILITY OF PEOPLE AT RISK. Consequences - Step 4: Vulnerability - buildings

Literature based. Depends on construction type. In the example unreinforced masonry buildings are used.

ground floor upper floor

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Innovation Highlights

Accumulated Energy Function for SHM (WP7) IRIS Risk Paradigm (WP6) Standard Degradation Curve (WP3) EQVIS simulation and crisis management platform (IT) Integrated Decision Support System (WP7) LCA safety assessments concept (after NJ202 Demo) Vibration mitigation equipment (AVA, WP2) New approach to tailing pond safety (WP4) Model based SHM system (WP5)

Results ready for industrial application

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Key Performance Figures Final

 59 Dissemination Meetings  18 EB Meetings  780+ Technical Meetings  3 General Assemblies  445 Work Documents  13 Demonstrations in Europe  2 International Demonstrations  Intl. Collaboration with USA, Japan, China, India  CEN Workshop 63 in Progress  Collaboration to 5 other FP7 Projects  311 Scientists involved in the IRIS work  12 National Projects triggered  19 PhD and Msc Theses

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Work Document Structure

So far 445 Work Documents comprising: 35 Strategic Documents 25 Technology Documents 43 IT Documents 15 Demonstration Documents 7 Standardisation Documents 320 Administrative Documents

Assessment by Executive Board

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Character of Large Collaboration

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Demonstrations

 WP3 Demo at S101  WP1 Demo at NPP Kozloduy  WP2 Demo at DOW Stade  WP4 Demo in Mosny Pond Poland  WP5 Demo Block C at RWE Neurath Plant  International Demo in the US at New Jersey 202  International Demo in Taiwan at the Gi Lu Bridge  IRIS 2011 in Hungary, large demonstration and exercise!  WP3 Demo at A1-W4  WP3 Demo at S6  WP3 Demo at EGNATIA  WP1 Demo at JRC  WP2 Demo at DOW Stade (modified)  WP4 Demo in Rovinari, Romania  WP5 Demo Bypass at RWE Neurath Plant

Assessment by Executive Board

Integrated European Industrial Risk Reduction System CP-IP 213968-2

Project Management

Overall Assessment

 The results are good and the objectives are met  The work is in time and of good quality  The scientific and technical performance is excellent  Exploitation prospects are excellent  The Consortium has been very well balanced and motivated  Benefits are expected for everyone  The European Dimension is satisfied  Integration aspects are well represented  No more risk of a failure  The economic potential is visible

IRIS Success Story !

Assessment by Executive Board