Upload
stronger2012
View
337
Download
1
Embed Size (px)
DESCRIPTION
At StroNGER S.r.l. (a SME in Rome-ITALY), we are planning our participation in Horizon 2020. We are mostly interested in the following forthcoming calls - MG.8.1-2014: Smarter design, construction and maintenance - MG.8.2-2014: Next generation transport infrastructure: resource efficient, smarter and safer - MG.8.4-2015: Smart governance, network resilience and streamlined delivery of infrastructure innovation - DRS-7-2014: Crisis management topic 7: Crises and disaster resilience – operationalizing resilience concepts - DRS-11-2015: Disaster Resilience & Climate Change topic 3: Mitigating the impacts of climate change and natural hazards on cultural heritage sites, structures and artefacts - DRS-13-2015: Critical Infrastructure Protection topic 2: Demonstration activity on tools for adapting building and infrastructure standards and design methodologies in vulnerable locations in case of natural or man-originated catastrophes - DRS-14-2015: Critical Infrastructure Protection topic 3: Critical Infrastructure resilience indicator - analysis and development of methods for assessing resilience - DRS-17-2014/2015: Critical infrastructure protection topic 7: SME instrument topic: “Protection of urban soft targets and urban critical infrastructures” We can contribute in the following specific subjects: - Design and rehabilitation of civil structures and infrastructures with regard to wind, earthquakes, waves, landslides, fire and explosions. - Disaster resilience assessment. - Advanced numerical modeling of civil structures and infrastructures. - Forensic engineering. - Sustainability and Energy Harvesting in Civil structures and infrastructures. If you are forming a consortium and would like to involve a group with the above skills and expertise, please get in touch with us!
Citation preview
1/611/61
1/45St
roN
GER
for H
oriz
on 2
020 StroNGER for Horizon 2020
Structures of the Next Generation – Energy harvesting and Resilience C. Crosti, S. Arangio, F. Petrini, K. Gkoumas, F. Bontempi
www.stronger2012.com
2/612/61
2/45St
roN
GER
for H
oriz
on 2
020 StroNGER:
presentation and expertise
3/613/61
3/45St
roN
GER
for H
oriz
on 2
020
Stronger S.r.l. is a Spin-off Company (Small Medium Enterprise) that works as alink between the Academia and the Industry in Civil and Environmental Engineering.
The Company offers high-profile tools and methodologies that lead to structuresthat fulfill required performances under a resilience and sustainability point ofview.
With resilience it is intended the capacity of a system (intended as an aggregate ofinterconnected elements such as structures and infrastructures) to resist negativeevents (either of natural, accidental or exceptional origin), while at the same time, itmaintains an acceptable level of service and integrity and the capacity to reorganizein an efficient manner.
With sustainability it is intended the requirement that leads to a rational use ofresources, direction of investments, technological and normative progress, with thefuture needs of the society, as well as those current.
Structures of the Next Generation – Energy harvesting and Resilience
4/614/61
4/45St
roN
GER
for H
oriz
on 2
020
Our university research group and co-founders of StroNGER
FRANCO BONTEMPI
STEFANIA ARANGIO
FRANCESCO PETRINI
CHIARA CROSTI
PIERLUIGI OLMATI
PAOLO E. SEBASTIANI
FRANCESCA BRANDO
FILIPPO GENTILI
SAURO MANENTI
LUISA GIULIANI
LUCA SGAMBI
KONSTANTINOS GKOUMAS
5/615/61
5/45St
roN
GER
for H
oriz
on 2
020
Who we are: Chiara Crosti
Chiara Crosti Civil Engineer, PhD in Structural Engineering
Education and milestones:2011: Sapienza University of Rome, PhD in Structural Engineering, Advisor
Prof. Franco Bontempi.2008: Member of the Engineering Chamber of Terni for Civil and
Environmental Engineering.2007: Civil Engineering Degree (Laurea), Major in Structural Engineering,
Advisor Prof. Franco Bontempi.
Experience:2012-onwards: StroNGER srl, co-founder and CEO.2009-2011: Guest Researcher at the National Institute of Standards and Technology
(NIST), Gaithersburg (MD), USA (22 months).
Research interests:- Performance Based Design of Complex Structures;- Forensic Engineering;- Fire Safety Engineering;- Structural Optimization and multi-hazard risk analysis;- Non-linear FEM analysis.
6/616/61
6/45St
roN
GER
for H
oriz
on 2
020
Who we are: Stefania Arangio
Stefania Arangio Civil Engineer, PhD in Structural Engineering
Education and milestones:2008: Sapienza University of Rome, PhD in Structural Engineering, Advisor
Prof. Franco Bontempi.2007: California Institute of Technology (Pasadena, USA); visiting student (7
months), hosted by Prof. James L. Beck.2005: Member of the Engineering Chamber of Rome.2004: Laurea (5-year degree, equivalent with MEng + MSc), Major in Structural
Engineering, Advisor Prof. Franco Bontempi.2001: Universidad Politecnica de Catalunia (Barcelona); Erasmus (10 months).
Experience:2012-onwards: StroNGER srl, co-founder and director.2008-2010: Consiglio Nazionale delle Ricerche (CNR); Associate Researcher on
Geological Risk and Structural Damage in Urban Areas (3 years).2010: Guest Researcher at the National Institute of Standards and Technology (NIST),
Gaithersburg (MD), USA. (22 months).2009: City College of New York (New York, USA); visiting researcher (2 months).
Research interests:- Structural Identification and Structural Health Monitoring (SHM);- Forensic Engineering;- Structural safety and reliability;- Structural analysis and design.
7/617/61
7/45St
roN
GER
for H
oriz
on 2
020Who we are: Francesco Petrini
Francesco Petrini Civil Engineer, PhD in Structural Engineering
Education and milestones:2009: Sapienza University of Rome, PhD in Structural Engineering, Advisor
Prof. Franco Bontempi.2006: Sapienza University of Rome, Research associate (1 year); scientific
advisor Prof. Franco Bontempi.2005: Member of the Engineering Chamber of Rome.2004: Sapienza University of Rome, Laurea (5-year degree, equivalent with
MEng + MSc), Major in Structural Engineering, Advisor Prof. FrancoBontempi.
Experience:2012-onwards: StroNGER srl, co-founder and member of the board.2011: National Technical University of Athens (Athens, Greece); visiting researcher
(2 months), hosted by Prof. Charis Gantes.2008-2010: Sapienza University of Rome, Associate Researcher on Performance Based Wind
Engineering.2009: Louisiana State University (Baton Rouge, USA); visiting researcher (2 months),
hosted by Prof. M. Barbato.Research interests:- Performance Based and Resilience Based Design;- Earthquake and Wind Engineering;- Energy Harvesting;- Structural Analysis and Design.
8/618/61
8/45St
roN
GER
for H
oriz
on 2
020
Who we are: Konstantinos Gkoumas
Konstantinos Gkoumas Civil Engineer, PhD in Transportation and Infrastructures
Education and milestones:2008: Sapienza University of Rome, PhD in Transportation and Infrastructures,
Advisor Prof. Giuseppe Bellei.2005: Member of the Engineering Chamber of Greece.2004: Member of the Engineering Chamber of Rome.2003: Sapienza University of Rome, Laurea (5-year degree, equivalent with
MEng + MSc) in Civil Engineering, Major in Transportation Engineering,Advisor Franco Bontempi.
Experience:2012-onwards: StroNGER srl, co-founder and partner.2012: University of Illinois at Urbana-Champaign; visiting researcher (1 month), hosted by
Professors Larry Bergman and Alex Vakakis.2011-onwards: Sapienza University of Rome, Associate Researcher on Energy Harvesting and
Dependability of Structures and Infrastructures.2010: Harbin Institute of Technology (Cina); visiting researcher (1 month), hosted by
Prof. H. Li.2009-2010: Georg-August-Universität Göttingen (Germany); Post-doc.2005-2007: Civil Engineer, Co.Re. Ingegneria S.r.l., Roma.
Research interests:- Energy Harvesting;- Dependability and structural robustness;- Transportation Engineering.
9/619/61
9/45St
roN
GER
for H
oriz
on 2
020Who we are: Franco Bontempi
Franco Bontempi Civil Engineer, PhD, Professor of Structural Analysis and Design
Education and milestones:2003: Sapienza University of Rome, Full Professor in Structural Analysis and
Design (ICAR09, ex H07B).2000: Sapienza University of Rome, Full Professor (supplementary) in
Structural Analysis and Design (ICAR09, ex H07B).1993: Politecnico di Milano, PhD in Structural Engineering, Advisor Prof. Fabio
Casciati.1988: Politecnico di Milano, Laurea (5-year degree, equivalent with MEng +
MSc) in Civil Engineering, Major in StructuralEngineering, Advisor FabioCasciati.
1990: Member of the Engineering Chamber of Bozen.
Experience:2012-onwards: StroNGER srl, scientific director.2004-2005: Member of the technical scientific committee for the revision of the Italian building
code (“Testo Unico delle Norme Tecniche per le Costruzioni dello Stato Italiano.2002-2005: Member of the technical scientific committee for the Messina Strait Bridge focusing on
structural analysis and performance checks.- Author of more than 200 journal and conference papers.- Supervisor for 168 graduate and post-graduate Theses (8 ongoing).- Supervisor for 14 Ph.D. Theses (4 ongoing).
Research interests:- Structural Analysis and Design;- Reliability Engineering.
10/6110/61
10/45St
roN
GER
for H
oriz
on 2
020
Services and Products
1. Design and rehabilitation of Civil structures andinfrastructures with regard to wind, earthquakes, waves,landslides, fire and explosions.
2. Disaster resilience assessment.
3. Advanced numerical modeling of Civil structures andinfrastructures.
4. Forensic engineering.
5. Sustainability and Energy Harvesting in Civil structuresand infrastructures.
11/6111/61
11/45St
roN
GER
for H
oriz
on 2
020 Horizon 2020:
actions that fit with StroNGER
expertise
12/6112/61
12/45St
roN
GER
for H
oriz
on 2
020
The Horizon 2020 structure: three pylons programs and five transversal programs
13/6113/61
13/45St
roN
GER
for H
oriz
on 2
020
Design and rehabilitation of Civil structures and infrastructures with regard to wind,
earthquakes, waves, landslides, fire and explosions.
Disaster Resilience assessment
Advanced numerical modeling of Civil structures and infrastructures
Forensic engineering
Sustainability and Energy Harvesting in Civil structures and infrastructures
The Horizon 2020 structure: actions that fit with the StroNGER expertise
1
2345
Actions that fit with StroNGER expertise
14/6114/61
14/45St
roN
GER
for H
oriz
on 2
020
Support Applicative research for the different purposes
The Horizon 2020 structure: actions that fit with the StroNGER expertise – specific calls
Design and rehabilitation of Civil structures and infrastructures with regard to wind,
earthquakes, waves, landslides, fire and explosions (wind turbines).
ABSTRACT OF THE WORK PROGRAMME
The following technology-specific challenges have to be addressed in 2014:Wind energy: Develop control strategies and innovative substructure concepts - There is a need for i) control strategies and systems for new and/or large rotors and wind farms (on-and offshore); ii) new innovative substructure concepts, including floating platforms, to reduce production, installation and O&M costs for water depths of more than 50m.
In 2015:Wind energy: Substantially reduce the costs of wind energy -There is a need for innovative integrated dedicated offshore systems (e.g. with a significant lower mass per unit power installed) to reduce production, installation and O&M costs for water depths of more than 50m.
1
15/6115/61
15/45St
roN
GER
for H
oriz
on 2
020
Support Applicative research for the different purposes
Advanced numerical modeling of Civil structures and infrastructures
Sustainability and Energy Harvesting , also for disaster resilience
ABSTRACT OF THE WORK PROGRAMME
MG.8.1-2014. Smarter design, construction and maintenance - Advanced, quick, cost-effective and flexible (modular) design, manufacturing, construction, maintenance, rehabilitation and retrofitting systems/techniques and materials. - Self-monitoring, self-reporting, non-intrusive inspection and testing methods, including advanced predictive modelling.
MG.8.2-2014. Next generation transport infrastructure: resource efficient, smarter and safer- Energy harvesting infrastructure - Methods for preventing disruption of critical infrastructure from malicious acts
MG.8.4-2015. Smart governance, network resilience and streamlined delivery of infrastructure innovation - Solutions for advanced asset management, advanced investment strategies and innovation governance, including smart monitoring systems (such as Structural Health Monitoring) and adequate indicators for cost and quality.
3
5
NOTE:Effective integration of SMEs in the value chain is strongly recommended
NOTE:SME active participation is strongly encouraged
The Horizon 2020 structure: actions that fit with the StroNGER expertise – specific calls
Hot
16/6116/61
16/45St
roN
GER
for H
oriz
on 2
020
Support Applicative research for the different purposes
Design and rehabilitation of Civil structures and infrastructures with regard to wind,
earthquakes, waves, landslides, fire and explosions.
Disaster resilience assessment
1
2
ABSTRACT OF THE WORK PROGRAMME
DRS-7-2014: Crisis management topic 7: Crises and disaster resilience – operationalizing resilience concepts - the development of European Resilience Management Guideline and demonstration through pilot implementation;
DRS-9-2014/2015: Disaster Resilience & Climate Change:…b) Research and innovation actions [2014] - Develop standardized methods to assess climate change impacts, vulnerabilities, and risks, and to identify and assess the performance of adaptation measures (technological and non-technological options). Methods should focus on long-term climate change and extreme events for European sectors of particular socio-economic and environmental significance, paying due consideration to uncertainty, and encompass indirect, cross-sectorial effects and cascade impacts, if relevant. - Provide state-of-the-art decision support tools tailored to facilitate decision-making by different end-users (e.g. individuals, businesses, private sector firms, local authorities, governments), while developing adaptation plans and measures. I
The Horizon 2020 structure: actions that fit with the StroNGER expertise – specific calls
17/6117/61
17/45St
roN
GER
for H
oriz
on 2
020
Support Applicative research for the different purposes
Design and rehabilitation of Civil structures and infrastructures with regard to wind,
earthquakes, waves, landslides, fire and explosions.
Sustainability and Energy Harvesting , also for disaster resilience
1
ABSTRACT OF THE WORK PROGRAMME
DRS-11-2015: Disaster Resilience & Climate Change topic 3: Mitigating the impacts of climate change and natural hazards on cultural heritage sites, structures and artefacts- including aspects relating to innovative environmental
assessment methodologies, integrated monitoring technologies and systems, improved non-invasive and non-destructive methods of surveying and diagnosis including wide area surveillance, cost-effective conservation and restoration techniques, risk management, disaster prevention and quick damage assessment when catastrophes occur
II
5
The Horizon 2020 structure: actions that fit with the StroNGER expertise – specific calls
18/6118/61
18/45St
roN
GER
for H
oriz
on 2
020
Support Applicative research for the different purposes
Design and rehabilitation of Civil structures and infrastructures with regard to wind,
earthquakes, waves, landslides, fire and explosions.
Disaster resilience assessment
1
2
ABSTRACT OF THE WORK PROGRAMME
DRS-13-2015: Critical Infrastructure Protection topic 2: Demonstration activity on … Comprehensive approach should be developed that take into account the security issue from the conceptual design of any building to its operation (in the case of a critical infrastructure) or use (in the case of households). Cascade failure of interconnected infrastructure assets (installations for energy, transport, water, ICT) due to co-location or hub-functions needs to be avoided. The comparison of different solutions tested should include cost and cost/benefit analyses, and societal implications The proposal shall develop methods and tools for adapting building and infrastructure standards and design methodologies (…). Furthermore the research proposal shall demonstrate its finding, taking into account the occurrence of different types of natural (climate or geological) hazards, and including comparative cost and cost/benefit analyses. The topic will complement Seventh Framework Programme research focusing on impacts of extreme weather on critical infrastructure.
III
The Horizon 2020 structure: actions that fit with the StroNGER expertise – specific calls
19/6119/61
19/45St
roN
GER
for H
oriz
on 2
020
Support Applicative research for the different purposes
Design and rehabilitation of Civil structures and infrastructures with regard to wind,
earthquakes, waves, landslides, fire and explosions.
Disaster resilience assessment
1
2
ABSTRACT OF THE WORK PROGRAMME
DRS-14-2015: Critical Infrastructtopic 3: ..- analysis and development of methods for assessing resilience The proposal shall demonstrate that a set of common and thoroughly validated indicators, including economic indicators, could be applied to critical infrastructures in order to assess its level of “resilience”, moreover a scale approach of “resilience” level should be proposed across critical infrastructures (energy grids, transportation, government, nuclear research infrastructures, water, etc.). The methodology shall be based on at least four types of critical infrastructure as test cases. Specific models and modeling approaches will be proposed(..). security metrics and indicators will be proposed that could be used in the developed models to quantify to the possible extent the considered risk and impact as well as give guidance to the possible mitigation techniques – approaches. New methods of assessing resilience based upon comprehensive threat, criticality, and vulnerability assessments are of outmost importance. Proposals should follow a uniformed comprehensive and holistic approach at all levels (e.g. EU, country, local) (….) .
IV
Hot
The Horizon 2020 structure: actions that fit with the StroNGER expertise – specific calls
20/6120/61
20/45St
roN
GER
for H
oriz
on 2
020
Support Applicative research for the different purposes
Design and rehabilitation of Civil structures and infrastructures with regard to wind,
earthquakes, waves, landslides, fire and explosions.
Disaster resilience assessment
1
2
ABSTRACT OF THE WORK PROGRAMME
DRS-17-2014/2015: Critical infrastructure protection topic 7: SME instrument topic: “Protection of urban soft targets and urban critical infrastructures” - mitigation of vehicle-borne improvised explosive devices, with a specific focus on vehicle-borne ones (e.g. in cases of parked vehicles, penetrative attacks, etc.). .
V
The Horizon 2020 structure: actions that fit with the StroNGER expertise – specific calls
21/6121/61
21/45St
roN
GER
for H
oriz
on 2
020 Overview of the
StroNGERexpertise
22/6122/61
22/45St
roN
GER
for H
oriz
on 2
020
1) Design and rehabilitation of Civil structures and infrastructures with regard to wind, earthquakes, waves,
landslides, fire, explosions
23/6123/61
23/45St
roN
GER
for H
oriz
on 2
020
Design of the support structure of offshore wind turbines
Selection of support typology Design and optimization
Detailed design
jacket:vertical element
base:diagonal element
base:horizontal element
bucket – pile guide
pile
jacket:diagonal element
jacket:horizontal element
tower
special junction zone
jacket:vertical element
base:diagonal element
base:horizontal element
bucket – pile guide
pile
jacket:diagonal element
jacket:horizontal element
tower
special junction zone
24/6124/61
24/45St
roN
GER
for H
oriz
on 2
020
Fire safety design of a steel hangar for helicopter storage
Scenario B
Scenario CScenario A
Fire scenarios
25/6125/61
25/45St
roN
GER
for H
oriz
on 2
020
Computational Fluid Dynamics for fire spread evaluation
26/6126/61
26/45St
roN
GER
for H
oriz
on 2
020
2) Disaster resilience assessment
27/6127/61
27/45St
roN
GER
for H
oriz
on 2
020
Assessment and enhancement of the resilience of urban areas including strategic infrastructures.
WP7
Network Model
WP1
Hazard Scenarios
A number of Multiple-Hazard scenarios andcorresponding Intensity Measures (Ims) will begenerated
WP2 WP3
WP7Lo
cal L
evel
Netw
ork
Leve
l
- General rules for modeling large scaleinfrastructure as a network by consideringinterrelations between nodes and links.
- Application to a case study (university campus)
WP5
WP6
ASSESSMENT OPTIMIZATION
Sensor technology- SHM and IAQ sensor
network data- sensor steered model
for robustness assessment
Demonstration- Large scale fire test
for sensor calibration (WP5) and validation of models (WP1-2-3)
- Small scale multiple hazard tests
1
% of rescued
PERFORMANCEPROTECTION
1 2
Local resilience indicators Network resilience indicators
2Repair time evaluation
Structure performanceA
B
ASSE
SSM
ENT a
nd M
ITIGA
TION
(Ana
lysis
for e
ach n
ode a
nd lin
k)
Netw
ork
Leve
l
ROBUSTNESS & MITIGATION
CALIBRATION and VALIDATION
1
1 2
2
= ASSESSMENT – follow path 1 (1st stage analysis)
= ENHANCEMENT – follow path 2 (2st stage analysis)
1
2
Scenario output before mitigation
Scenario output after mitigation
Algorithm for assessment and enhancement of resilience1
2
RecoveryE.g. Repair time
Damage
Action
Damage/DisserviceLoad values
IM
A
IM
100 %
People safetyB
12
Quality
Indicator
Status of nodes and links(no interaction)A
Quality
Indicator
Interactions effects (quality drop)BL0
i TRi
Quality (network level)
Combination of local indicators
Indicator
L0 TR
Resilience ∞ 1 /A
C
Resistance
Damage
MDPA (bottom-up)A
Mitigation measuresB
21
ordinary element
critical element
Local resilience indicators are evaluated for each node and Link and for each scenario
Network resilience indicators are evaluated for each scenario
Updated resilience indicators
RESILIENCE OF THE ORIGINAL INFRASTRUCTURE IS EVALUATED
1
IMPROVEMENT OF RESILIENCE
2
2
WP4
Optimization analysis - network level
Optimization of L0 and TR by probabilistic-based algorithms D
Decisionmaking andallocationof resourcesamongstructural andnon structuralmitigationmeasures
1
---- = WP content
---- = comment
Qua
lity
L0 = initial lossesTR = recovery time
2
2
1
R.I.S.E. Framework for the resilience assessment and enhancement
28/6128/61
28/45St
roN
GER
for H
oriz
on 2
020
-- = ordinary node
= critical node in case of emergency---= principal link (e.g. road)
HOSPITAL
HOUSE AGGRGATE
MALL
SHOPPING CENTEROFFICE
HOUSE AGGRGATE
FIRE DEPARTMENT
NUCLEAR PLANT
HOSPITAL
HOUSE AGGRGATE
MALL
SHOPPING CENTEROFFICE
HOUSE AGGRGATE
FIRE DEPARTMENT
NUCLEARPLANT
= earthquake action
= blast action= fire action
Representation of a large infrastructure as a network of nodes and linksNodes: relevant premises of the infrastructure Links: local and access roads, pipelines and
supply system
Initial losses
Recovery time:• Resourcefulness• Rapidity
Disaster strikes
A L0(dQ/ dt)0
LOCAL- LEVEL:Contribute of the single premise (e.g. hospital, by considering the interrelations with proximity elements)
NETWORK- LEVEL:- Convolution of the local-level contributes
dLi
Quantitative definition of Resilience (MCEER)
R.I.S.E. Multiscale philosophy
Disaster strike --> Hazard scenario
R.I.S.E. Framework for the assessment and enhancement of the resilience
29/6129/61
29/45St
roN
GER
for H
oriz
on 2
020
3) Advanced numerical modeling
30/6130/61
30/45St
roN
GER
for H
oriz
on 2
020
Vulnerability assessment of existing structures
Palazzo CamponeschiL’Aquila
31/6131/61
31/45St
roN
GER
for H
oriz
on 2
020
Review of the tender design of the
Messina Strait Bridge
Numerical modeling and performance analysis of complex structural systems
32/6132/61
32/45St
roN
GER
for H
oriz
on 2
020
x,x’
z’
y’
Waves
Current
P
(t)vP
(t)wP
(t)uP
Turbulent wind
P
Mean wind
Vm(zP)
zy
H
h
vw(z’)
Vcur(z’)
d
1 Dynamic response
-1.00
-0.80
-0.60
-0.40
-0.20
0.00
0.20
0.40
0.60
200 700 1200 1700 2200 2700 3200
time [s]
dalong hub
2 Design and optimization
3 Detailing
0
1000
2000
3000
4000
5000
6000
7000
Monopile Tripod Jacket[KN]
6.1b 6.1c 6.3b
Numerical modeling for the interaction analysis between the environment and the structural system
33/6133/61
33/45St
roN
GER
for H
oriz
on 2
020
Design of tunnel support structures
34/6134/61
34/45St
roN
GER
for H
oriz
on 2
020
Modeling and analysis of strategic structures
Analysis of strategic structural components of an aqueduct
system
35/6135/61
35/45St
roN
GER
for H
oriz
on 2
020
Assessment of structural damageusing satellite data
DinSAR data from:
Vulnerability assessment of existing structures
36/6136/61
36/45St
roN
GER
for H
oriz
on 2
020
4) Forensic Engineering
Role of technical consultant and developing of back analyses for thereproduction of the damaging process or of the collapse occurred in civilstructures.
37/6137/61
37/45St
roN
GER
for H
oriz
on 2
020
The I-35W Bridge collapse (Minnesota, USA)
38/6138/61
38/45St
roN
GER
for H
oriz
on 2
020
A masonry arch structure collapse
39/6139/61
39/45St
roN
GER
for H
oriz
on 2
020
Collapse of a historical church
Basilica of Santa Maria di Collemaggio (damaged during the 2009 L’Aquila Earthquake)
Calibration of the 3D FE model of the Basilica with and without elasto-plastic devices
Did the presence of the devices cause the collapse of the pillars?
No horizontal diaphragm
horizontal diaphragm
1 or 2 devices+
Max
Ben
ding
mom
ent
40/6140/61
40/45St
roN
GER
for H
oriz
on 2
020
5) Sustainability and Energy Harvesting
41/6141/61
41/45St
roN
GER
for H
oriz
on 2
020
Structural investigations for the use of innovative natural construction materials for the retrofitting of an ancient roman monument
Basalt fiber reinforced natural mortar plate
Villa Silin, Libya
42/6142/61
42/45St
roN
GER
for H
oriz
on 2
020
Integration of piezoelectric devices in structural systems for vibration Energy Harvesting
3 2
1
M3
R1
Blade-hub main reactions
X
Y
r
FSX
VmR(r)
u(r,t)
Piezoelectric ring for EH
BladeWind turbine
43/6143/61
43/45St
roN
GER
for H
oriz
on 2
020
Integration of piezoelectric energy harvesting devices in civil structures and infrastructures
Vibration EH devices
Flow-induced EH devices
44/6144/61
44/45St
roN
GER
for H
oriz
on 2
020
StroNGER – Vision
“…. to provide, through innovation, advanced products and services for a sustainable and safe world.”
45/6145/61
45/45St
roN
GER
for H
oriz
on 2
020
StroNGER for Horizon 2020
Structures of the Next Generation – Energy harvesting and Resilience C. Crosti, S. Arangio, F. Petrini, K. Gkoumas, F. Bontempi
www.stronger2012.com