Presentation of the BUILDING UP roadmap and exchanges with the audience BOOSTING ENERGY EFFICIENCY IN CONSTRUCTION BUILDING UP workshop Leuven, 04/10/2012

Presentation of the BUILDING UP roadmap and exchanges with

the audience

BOOSTING ENERGY EFFICIENCY IN CONSTRUCTION

BUILDING UP workshop

Leuven, 04/10/2012

Margherita Cioffi, D’Appolonia S.p.A.

Building Up Workshop

2 Leuven, 04/10/2012

Outline• Aim of the Building Up Roadmap• The Building Up network• Methodology• Building Up Vision & key Priorities • Identified barriers• Building Up Cross-Platform Research and

Innovation Areas– Targets & Specific priorities– Expected Outcomes

• Roadmap Impact• Cost Estimation


3 Leuven, 04/10/2012

Overall Aim of the Building Up Roadmap

• The overall objectives of the Building Up Industrial and Research Roadmap are:

• To outline and detail cross-sectorial research and innovation targets up to 2020 and beyond related to nanotechnology, materials and processes, in order to improve the energy efficiency in built environment;

• To obtain such goal through a cross-ETP roadmapping activity, involving the Building Up network and large public consultations and debates.


4 Leuven, 04/10/2012

The Building Up Network

• European Technology Platforms and other EU initiatives


5 Leuven, 04/10/2012

The Building Up Network

• 98 web users into the Building Up Website (43% industries) contributing to the online surveys and consultations


6 Leuven, 04/10/2012

The roadmapping activitity was coordinated by D’Appolonia, E2BA and CSTB.

The main steps of Building Up Road mapping Activity are:

Roadmapping MethodologyRoadmapping process in Building Up

Step 1: Planning

Step 2: Roadmap

Development

Step 3: Plan Preparation

Step 4: Follow-up


7 Leuven, 04/10/2012

Defi

nit

ion

of

Road

map

M

eth

od

olo

gy • Definition of

the structure

• Identification of the process

Cre

ati

on

of

Sch

ed

ule

&

Pla

nn

ing

• Definition of the roadmapping process expected timeline

• Identification of roadmapping meetings/events/milestones

Info

rmati

on

In

form

ati

on

&

Pre

para

tion

Mate

rial

• Conference calls WP leaders and Building Up project Managers

• Collection, clustering and analysis of already available information (WP1)

Step 1: Planning

Step 2: Roadmap

Development


Step 4: Follow-up

Roadmapping Process –Step 1


8 Leuven, 04/10/2012

Inven

tive

Work

sh

op

n.

1 • Identification of building trends, vision and barriers

• Preliminary identification of cross-ETP research and innovation areas

On

lin

e C

on

su

ltati

on

• Clustered list of cross-platform collaboration areas

• Online survey to stakeholders

• Draft Roadmap structure

• Consideration of E2BA vision

Inven

tive

Work

sh

op

s n

. 2

-4

Step 1: Planning

Step 2: Roadmap

Development


Step 4: Follow-up

Roadmapping Process – Step 2

• Sharing survey results

• Development of cross-platform areas (targets, priorities and impact)

• Review by the Advisory Board (February 2012)


9 Leuven, 04/10/2012

Step 1: Planning

Step 2: Roadmap

Development


Step 4: Follow-up


BU

Dra

ft R

oad

map

• Draft s of Building Up Roadmap:

• March 2012• July 2012

Fin

al R

oad

maap

• Integration of Feedback

• Release of the final Roadmap (end of September)

Revie

ws a

nd

Pu

blic

Con

su

ltati

on

• Roadmap Review by the Advisory Board (September 2012)

• Public consultation launched online (July-September 2012)


10 Leuven, 04/10/2012

Step 1: Planning

Step 2: Roadmap

Development


Step 4: Follow-up


Peri

od

ic R

evie

w

of

Road

map

• Integration of the Roadmap into E2BA and ETPs networks and documents

• Periodic Revision by the networks

Dis

sem

inati

on

&

aw

are

ness

• Sharing with the interested community of the BU vision

• Increase competitiveness

• Increase competences


11 Leuven, 04/10/2012

Building Up Vision & key PrioritiesBuilding Up long term vision is aligned with the E2BA “2020 Research & Innovation Roadmap” supporting energy savings in buildings and districts and preparing the building sector to be in line with the 2050 decarbonisation goals.

Key Priorities: To support the “Energy Efficiency Directive” (mandatory

energy-saving measures etc.). To support activities of the ‘Materials Roadmap Enabling Low-

Carbon Energy Technologies’ (enabling low-carbon energy technologies for the next 10 years).

To consider the human being as a central element.


12 Leuven, 04/10/2012

Building Up Vision & key PrioritiesKey Priorities: To contribute to the creation and development of an

Energy Efficiency market. To contribute to tackle crucial challenges Europe, by supporting to

the key priorities “Industrial leadership” and “Societal Challenges” in the upcoming “Horizon 2020”.

To provide support to standardization innovative products/processes including safety aspects. (attention given to SME’s )

To overcome Technological and Non-technological barriers towards more energy-efficient buildings and districts.

To support the promotion of the European knowledge in the built environment.


13 Leuven, 04/10/2012

Roadmap Structure• Roadmap Vision• Roadmap Overview and Cross-Platform (CP)

Research and Innovation Areas• Barriers• For each CP:

• State of the Art• Detailed Target & Priorities up to 2020 • Considerations beyond 2020• Outcomes

• Economic, social and Environmental Impact• End Users, Markets & Expected Benefits• Estimation of CP costs


14 Leuven, 04/10/2012

Identified Barriers • The project team indentified technological and non technological

barriers to be addressed by the Roadmap.


15 Leuven, 04/10/2012

Identified Barriers Major sub-categories related to one or more barrier groups:

costs / economic aspects (technological and non-technological barriers),

innovation / communication (technological barriers), education / training (technological and non-technological barriers), technology (technological barriers), public and municipal steering mechanisms (non-technological

barriers), culture, behaviour, lifestyle and the rebound effect (non-

technological barriers).

Long Term Vision

CP1. Performance Based Approach for

building components, including sustainable

design, Life Cycle Analysis

CP2. Multi-materials and composites

CP3. Healthy indoor and comfort environment (including air quality, ventilation, lighting,

acoustic performance)

CP4. Electricity generation and storage materials and systems

(e.g. storage systems including building integrated

energy technologies)

CP5. Thermal generation and storage materials and systems (e.g. storage systems

including building integrated energy

technologies)

CP6. Advanced thermal insulation construction

materials for new buildings and existing buildings (e.g.

aerogel, nanofoams, vacuum insulation panels)

CP7. Building materials recyclability and re-use of

components

CP8. Renewable resource-based products

2012 2050

Cross-Platform Research and

Innovation areas

2020


17 Leuven, 04/10/2012

CPs addressing identified barriers

1. Performance Based Approach for building components, including sustainable design, Life Cycle Analysis

2. Multi-materials and composites3. Healthy indoor environment (including air

quality, ventilation, lighting, acoustic performance

4. Electricity generation and storage materials and systems (e.g. storage systems including building integrated energy technologies)

5. Thermal generation and storage materials and systems (e.g. storage systems including building integrated energy technologies

6. Advanced thermal insulation construction materials for new buildings and existing buildings (e.g. aerogel, nanofoams, vacuum insulation panels)

7. Building materials recyclability and re-use of components

8. Renewable resource-based products


18 Leuven, 04/10/2012

The 8 Cross Platform Areas

• ETP Contributions up to 2020: Such inputs detail some opinions of

ETP stakeholders on single priorities: they made examples of need for

technology and material development, demonstration

activities etc.

• CONSIDERATIONS beyond 2020: Some suggestions on long term actions were collected from ETP and briefly described

• PRIORITIES: the priorities agreed among the ETPs involved in roadmapping on common research and innovation actions needed to reach the agreed targets for 2020.

• TARGETS: the general goals up to 2020 agreed among the ETPs

• STATE of THE ART: the general current situation is described from a technological and non technological (standards, regulation) point of view

• OUTCOMES: In terms of expected products & services


19 Leuven, 04/10/2012

The 8 Cross Platform Areas

• ETP Contributions up to 2020: Such inputs detail some opinions of

ETP stakeholders on single priorities: they made examples of need for

technology and material development, demonstration

activities etc.

• CONSIDERATIONS beyond 2020: Some suggestions on long term actions were collected from ETP and briefly described

• PRIORITIES: the priorities agreed among the ETPs involved in roadmapping on common research and innovation actions needed to reach the agreed targets for 2020.

• TARGETS: the general goals up to 2020 agreed among the ETPs

• STATE of THE ART: the general current situation is described from a technological and non technological (standards, regulation) point of view

• OUTCOMES: In terms of expected products & services


20 Leuven, 04/10/2012

Targets

1. All building components meet an ecodesign approach (including LCA) covering the whole chain of the building life (material production, construction, use, recycling)

CP1 Performance Based Approach for building components, including sustainable design, Life

Cycle Analysis

2. To assure higher energy efficiency and advanced building performance (e.g. acoustic, seismic, etc..)

Eco-construction techniques (including methodologies for

assessing the energy efficiency , materials and water use etc)

Outcomes


21 Leuven, 04/10/2012

Targets

1. To provide multifunctional materials from:• Assembling of materials and/or components

having different functions to obtain new elements enabling the exploitation of these different functionalities;

• To produce composite materials enabling to exploit new functionalities

CP2 Multi-material composites

2. To increase the use of building waste into recycled composites

Multi-function and multi-material components and composites in walls, building envelopes, panels, decorative items, window profiles etc.

Outcomes

3. To develop composites consisting of renewable source matrix and fiber materials


22 Leuven, 04/10/2012

Targets

1. Availability of validated planning and measuring tools for Indoor Environmental Quality

CP3 Healthy indoor environment (including air quality, ventilation, lighting, acoustic performance)

2. To improve comfort levels in buildings and houses, including historical buildings through highly energy efficient and financially affordable internal components.

3. Active functions are integrated into the building

4. All used materials have near zero harmful emissions (e.g. Reducing the Volatile Organic Compound (VOC) content of building materials)

Energy Efficient Equipments (including HVAC, lighting, acoustic performance, integrated systems, energy efficient

glazing, etc.)

Planning, metering and monitoring tools and services

Outcomes


23 Leuven, 04/10/2012

Targets

1. System and components need to be optimized (cost and energy) and their performance evaluated correctly. Tools for modeling new energy generating system performances need to be designed and developed

CP4 Electricity generation and storage materials and systems (e.g. storage systems including

building integrated energy technologies)

2. Availability of new technologies and systems for electric energy storage and electric generation .

Outcomes

Building and district integrated solutions

for energy control, generation & storage:

• Storage technologies (flywheels, super-capacitors, batteries)

• Electric generation materials & components (PVs etc.)

Photovoltaic panels

Storage Battery

Demand response


24 Leuven, 04/10/2012

Targets

1. Advancement for total building integration (e.g. in plaster, windows, tiles, etc.): to increase aesthetics and integration flexibility, efficiency, cost, quality insurance, plug and play development. Market implementation

CP5 Thermal generation and storage materials and systems (e.g. storage systems including building

integrated energy technologies)

2. Availability of new technologies, systems and processes for energy storage and heating and cooling management

Outcomes

Building and district heating and cooling integrated solutions with:

• different sources for thermal generation: Solar Thermal Energy, Biomass, (Solid biomass, Bio fuels / bio gas), Geothermal: Shallow GT (Geothermal heat pumps, Underground thermal storage), Deep GT (>400m) (Direct heat use, Combined heat & power).

• different technologies for energy storage: Water storage , PCM, Thermo chemical, Underground storage (UTES)

3. Further development of advanced nanotechnology


25 Leuven, 04/10/2012

Targets

1. Availability of insulation materials with highly enhanced properties (λ < 0.03 W/m*K, fire safety, improved durability, low cost, recyclability) especially for retrofitting

CP6 Advanced thermal insulation construction materials for new buildings and existing buildings

(e.g. aerogel, nanofoams, vacuum insulation panels)

2. Availability of components with very high insulated materials especially for retrofitting

Outcomes

Cost-effective, large volume manufacturing of wall, roof and floor insulation materials and components made of:Wool (Rockwool, Glasswool)Plastic foams

Expanded polystyrene Extruded polystyrene Polyurethane foams Mineral foams with low lambda, low carbon footprint and good fire resistanceFiberglass and foamglassHighly insulating glass

Rockwool

Fiberglass

Polyurethane foams


26 Leuven, 04/10/2012

Targets

1. Reduction of the amount of downcycling, considering cost and energy issues

CP7 Building materials recyclability and re-use of components

2. Design implementation of recycling and re-use of materials and techniques in construction

Outcomes

Re-used and recycled materials and components in:• all kind of load bearing structures

( bridges, buildings etc.)• construction of roads and road

foundations;• sports grounds;• noise protection walls;• earth banks ;• landscape construction;• as aggregates in the concrete and stone

production.

3. Establishment of deconstruction processes and guidelines for existing buildings


27 Leuven, 04/10/2012

Targets

1. Availability of renewable (bio-based) construction materials and systems as alternatives to fossil and mineral based products for sheathings as well as advanced insulation products with improved performance and cost-effectiveness

CP8 Renewable resource-based products

2. Availability of bio-based treatments such as paints, adhesives and modifications for high performance renewable products

Outcomes

All kind of wood products : walls, roofs, sheathingsAll kind of clay products: bricks etc.;Steelbioplastics, wood-bioplasticsBio-based flame retardants Insulating products in general.Bio-PaintsBio-Adhesives

Bio-based flame retardants

Paints


28 Leuven, 04/10/2012

Expected Impact

Economic

SocietalEnvironmental

Promotion of the European

knowledge in the build environment

Boost the industrial competitiveness of

the construction sector (in particular

SMEs) and the inter-connected

sectors


29 Leuven, 04/10/2012

The Construction Market

Key Figures of the construction in Europe:

• 9,9 % of Gross Domestic Product (GDP)• 3 million enterprises (EU 27), of which 95%

are SMEs with fewer than 20 operatives • 14,9 million operatives:

• 7,1 % of Europe`s total employment • 29,1 % of industrial employment

• 44,6 million workers in the EU depend, directly or indirectly, on the construction sector


30 Leuven, 04/10/2012

The Construction Market

Key Figures of the construction in Europe:

• 42% of total EU final energy consumption and 35% of all greenhouse gas emissions.

• More than 50% of all materials extracted from earth are transformed into construction materials and products.

• The world population (>6 billion) is estimated to increase to 9 billion by 2050, with improvement of standard of living (high energy demand)


31 Leuven, 04/10/2012

List of Markets linked to the Roadmap Energy Efficiency and new built market (including construction industry,

eco-construction, green, recycled building materials and renewable source-based building materials)

Composite materials and multi-material components market

The “Comfort” market: IEQ tools and services: planning, analytical equipments and

human physiological diagnostics; Conservation of historical materials and works of art; Acoustic and Thermal comfort, including HVAC; Lighting (including day lighting).

Combined power generation and storage for buildings

Insulation construction materials


32 Leuven, 04/10/2012

Examples of target stakeholders and end-users

Civil engineers, architects and designers, including interior designers; Building contractors, dealers, wholesalers and building workforce; Builders and managers; Wood & paper industries, chemical industry, ceramics manufacturers,

steel industry and suppliers of raw and advanced materials and components;

Integrators of building components and systems; Public Authorities, building inspectors and consultants (e.g. for air

quality testing systems); Building owners, tenants; Energy suppliers, buildings cooperatives; Energy managers; Occupants of residential, public, commercial and industrial buildings in

urban and rural areas; Society; SMEs and large companies; Civil Society at large.


33 Leuven, 04/10/2012

MARKET

REFERENCE CROSS-PLATFORM AREAS

EXPECTED BENEFIT

The “Comfort” market:• IEQ tools and

services: planning, analytical equipments and human physiological diagnostics;

• Conservation of historical materials and works of art;

• Acoustic and Thermal comfort, including HVAC;

• Lighting (including day lighting).

CP3 - Healthy indoor environment (including air quality, ventilation, lighting, acoustic performance)

CP3 approach and its developed technology and solutions will give feedback of the indoor air quality and its implications to human health, not just by using theoretical estimations which do not give true feedback of their relevance. The integration of different indoor environment components/systems as HVAC and lighting systems will bring to a totally new insight and performance characteristics. With respect to the energy efficient glazing, indoor environment will be improved thus contributing to the nearly “zero energy” 2020 goal in buildings.Public and private organisations and companies in the construction sector, including organisation responsible for the custody, conservation and management of cultural and historical assets and materials will benefit from CP3.

Examples of Expected Benefit from CP3


34 Leuven, 04/10/2012

MARKET

REFERENCE CROSS-PLATFORM AREAS

EXPECTED BENEFIT

Combined power generation and storage for buildings

CP4 - Electric generation and storage materials and systems CP5 - Thermal generation and storage materials and systems

CP4 and CP5 targets, technologies and products will develop standardized solutions for a more efficient and sustainable electric and thermal power generation, storage systems fully integrated in buildings as well services and solution for easy management, performance monitoring and energy, and distribution systems for both buildings and districts having a particular impact on the local supply. Such solutions will enhance the competitiveness of EU SMEs and large companies active in building equipment and process engineering, in cooperation with construction industries. Additionally, there will be an increase of development and manufacturing cooperation of building industry and energy suppliers.

These CPs will highly contribute to the Societal Challenge “Secure, clean and efficient energy” by tremendously decreasing the use of fossil fuels and decreasing GHG emissions footprint. Furthermore, they will bring economic benefit for the users through better management and power generation.

Examples of Expected Benefit from CP4


35 Leuven, 04/10/2012

Cost Estimation

An activity was performed during the 4rth Expert Panel Workshop with the aim of estimating the % distribution of needed private and public fundings to develop the actions up to 2020 of the different Cross-Platform Areas. Every ETPs representative assigned a percentage of its budget to each CP considering several criteria: • Readiness to market• CP Area’s resources demanding• Commitment


36 Leuven, 04/10/2012

Cost Estimation

0,0% 5,0% 10,0% 15,0% 20,0%

CP1 - Performance Based Approach for …

CP2 - Multi-material composites

CP3 - Healthy and comfortable indoor …

CP4 - Electric generation and storage …

CP5 - Thermal generation and storage …

CP6 - Advanced thermal insulation …

CP7 - Building materials recyclability …

CP8 - Renewable resource-based …

Estimated cost of each CP area

Figure below shows the Distribution of estimated cost in terms of needed private and public funding for each CP area.


37 Leuven, 04/10/2012

Conclusion

The Building Up Roadmap was developed with all the consortium, focusing on a set of cross-platform collaboration and research areas.

The roadmap has been discussed and disseminated among ETP networks and other initiatives (E2BA, EMBRI, Eracobuild) and other stakeholders in meetings and trhough online consultation and surveys.

The Roadmap is available in http://www.buildingup-e2b.eu/


38 Leuven, 04/10/2012

Thank you!

http://www.buildingup-e2b.eu

D'Appolonia S.p.A. – Rome Office

Largo Carlo Salinari, 18/19

00142 Roma – Italia

Tel: +39 06 59 450 300 [email protected]@dappolonia.it

[email protected]

D'Appolonia S.p.A. – Headquarters

Via San Nazaro, 19

16145 Genova - Italia

Tel: +39 010 36 28 148 [email protected]@[email protected]@[email protected]

Documents

Presentation of the BUILDING UP roadmap and exchanges with the audience BOOSTING ENERGY EFFICIENCY IN CONSTRUCTION BUILDING UP workshop Leuven, 04/10/2012