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DEEP RENOVATION

JOINT WEBINAR19th May 2020

Deep Renovation Joint Webinar - Agenda

11.00 – 11.10 An energy-efficient EU: the key role of Building Renovation

Paola Robello (RINA Project Technical Coordinator)

11.10 – 11.25 P2Endure Project – Gian Marco Revel, P2Endure Technical Coordinator

(UNIVPM)

11.25 – 11.40 ENVISION Project – Bart Erich, ENVISION Coordinator (TNO)

11.40 – 11.55 EENSULATE Project – Daniela Reccardo, EENSULATE Coordinator (RINA)

11.55 – 12.30 Final Q&A

Speakers

Paola Robello

Graduated in Civil and Environmental Engineering at the

University of Genoa with a thesis focused on innovative

materials and methods for the production of building cladding

panels. Since September 2016, she is part of the RINA

Consulting R&D division, working as technical coordinator of

activities in the framework of different EU projects, focusing

mainly on energy efficiency in buildings, innovative materials

for the construction sector and nature based solutions.

Speakers

Gian Marco Revel

Full Professor of Mechanical and Thermal Measurements

and Sensors at Università Politecnica delle Marche, where

he is also Rector Delegate for European Research.

Responsible for 12 H2020 projects, several of them focused

on Construction Industry, author of more than 200

publications, technical coordinator of the Materials &

Sustainability Committee of the European Construction

Technology Platform. He is Scientific Coordinator of

P2Endure.

Speakers

Bart Erich

Physicist, background in applied physics. Coordinator of

several EU projects, including the FP7 AXIOMA and the

H2020 ENVISION. Responsible for responsive materials

development for the built environment. He has a vast

knowledge on different physical and chemical techniques and

research. Part time he works at the Eindhoven University of

Technology in the applied physics department.

Speakers

Daniela Reccardo

Civil Engineer specialized in Structural Engineering and

Energy Efficiency in buildings, with expertise in building

energy performance evaluation. She has a long experience in

coordination of R&D projects in the private and public sector,

with particular reference to projects co-funded by the

European Commission through the Seventh Framework

Programme (FP7) and Horizon 2020 (H2020) and she is

currently the Project Coordinator of EENSULATE H2020

Project

An energy-efficient EU: the key role of building

renovation

• Buildings are responsible for approximately

40% of energy consumption and 36% of

CO2 emissions in the EU, making them the

single largest energy consumer in Europe.

• At present, about 35% of the EU's buildings

are over 50 years old and almost 75% of the

building stock is energy inefficient. At the

same time, only about 1% of the building

stock is renovated each year.

• Renovation of existing buildings could reduce

the EU’s total energy consumption by 5-6%

and lower CO2 emissions by about 5%.

• Today’s renovation ate of buildings is around

1%.

https://ec.europa.eu/energy/topics/energy-strategy/clean-energy-all-europeans_en

EU policies and targets

Clean Energy for all Europeans Package

European Green Deal

Measures to improve building stock (revised EPBD, 2018):

• decarbonising the national building stocks by 2050;

• EU countries must set cost-optimal minimum energy performance requirements for buildings;

• all new buildings must be nearly zero-energy buildings (NZEB) from 31 December 2020;

• health and well-being of building users is addressed, for instance through the consideration of air

quality and ventilation;

• EU countries must draw up lists of national financial measures to improve the energy efficiency of

buildings.

Clean Energy Package

https://ec.europa.eu/energy/topics/energy-efficiency/energy-efficient-buildings/energy-performance-buildings-

directive_en

Clean Energy Package

• The revised Renewable Energy Directive

establishes a binding EU target of at least 32%

renewable energy for 2030.

• The revised Energy Efficiency Directive, which

sets a 2030 target of reducing energy

consumption by at least 32.5%.

• The new Governance Regulation (EU) includes the

requirement for Member States to draw up integrated

National Energy and Climate Plans for 2021 to 2030,

which will outline how to achieve the targets.

http://bpie.eu/publication/building-renovation-in-the-clean-energy-package-implications-at-local-national-and-eu-levels/

European Green Deal

The European Green Deal (2020) aims to make Europe climate – neutral by 2050.

Roadmap to:

- boost the efficient use of resources by moving to a clean, circular economy

- restore biodiversity and cut pollution.

Renovation wave of public and private buildings

To create necessary conditions to scale up renovations

H2020 – Energy Efficiency

The Horizon 2020 Work

Programme 2018-2020 for

Energy Efficiency was

officially adopted on 27

October 2017.

The total budget for the

Energy Efficiency Calls

amounts to approximately

€112 in 2019 €212 million for

2018 and 2019.Global Shapers

RINA R&D in short

Our open innovation approach is key to our success,

with each project benefiting from the expertise of 10 to

20 partners spanning academia, technology providers,

end users, public authorities and clients.

Our global network now extends to over 5,000

partners who share our vision of excellence and our

market focus.

In 2019:

• 43 Projects completed

• 42 Projects started

• 63 Successful proposals

https://www.rina.org/en/business/research-development

+90 H2020 funded

projects (+15 on

energy efficiency in

building)

https://www.rina.org/en/business/research-development

Deep Renovation Joint Webinar

Development of affordable (20% reduction of total costs) and

lightweight (35% weight reduction) solutions for the envelope

insulation in curtain wall buildings

Development of a full renovation concept harvesting energy from

ALL building surfaces (transparent and opaque) by absorbing the

invisible part of the solar radiation (NIR)

Providing Plug & Play solutions for deep renovation which are ready to

implement, affordable, 50% faster from production to on-site assembly,

scalable and adaptable.

Paola [email protected]

mailto:[email protected]

P2Endure

Plug-and-Play Product and Process

Innovation for Energy-efficient Building

Deep Renovation

Prof. Ing. Gian Marco Revel -Università Politecnica delle Marche [email protected]

BUILD UPThe European Portal ForEnergy Efficiency in Buildings

19th MAY11:00-12:30

BUILD UP 19th May 2020

P2ENDURE

UNIVPM-Gian Marco Revel

CONTENTS

• INTRODUCTION / CONCEPT• OBJECTIVES• INNOVATION / AMBITION• CASE STUDIES / PROTOTYPES• RESULTS / FINAL REMARKS• LESSONS LEARNT / FUTURE CHALLENGES

P2ENDURE


- FULL DECARBONISATION OF BUILDING STOCK BY 2050

- INDOOR AIR IS OFTEN 2-5 TIMES MORE POLLUTED THAN OUTSIDE AIR

- SYSTEMIC UPGRADE OF EU’S BUILDING STOCK NEEDED

- 1 IN 10 EUROPEANS CAN'T PROPERLY WARM THEIR HOMES IN THE WINTER & 1 IN 5 CAN'T PROPERLY COOL IN THE SUMMER

- 100 000 DEATHS IN THE WINTER ARE CAUSED BY #ENERGYPOVERTY

- YEARLY EUR 3 BILLION HEALTH PROBLEMS DUE TO IEQ

- PREFABRICATED SOLUTIONS ARE AVAILABLE ON THE MARKET

- RENOVATION PACE TOO SLOW

90%

36%

65% older than 40

1-2%/year

75%


P2ENDURE


INTRODUCTION / CONCEPT

P2Endure promotes evidence-based innovative solutions for deep renovation based on

prefabricated Plug-and-Play systems in combination with on-site robotic 3D-printing and

BIM, demonstrated and monitored at 9 real and 2 virtual projects in 4 geo-clusters with EU-

wide replication potential.


P2ENDURE


OBJECTIVES

Replicability


P2ENDURE


INNOVATION/ AMBITION


Condition before renovation:

- 3D scan to BIM process

- Data collection

- Condition assessment

-AS-is build BIM model

P2ENDURE




Renovation design:

- BIM to BEM process

- Parametric modeller

P2ENDURE



Warsaw, PL

Gdynia, PL

Enschede, NL


P2ENDURE




Manufacturing & assembly of PnP solutions

P2ENDURE




After renovation:

- Monitoring and guaranteeing the

high-quality execution of the construction works

- Monitoring IEQ

- Ensure improved energy performance

P2ENDURE




After renovation:

- Monitoring and guaranteeing the

high-quality execution of the construction works

- Monitoring IEQ

- Ensure improved energy performance

P2ENDURE




P2ENDURE


INNOVATION / PROTOTYPES

Components for building envelopes• Light weighted Plug-and-Play façade panels• Plug-and-Play façade elements• Smart Energy Efficient windows• Rooftop retrofitting / Extension module

Technical systems• Plug-and-Play bathroom unit• Plug-and-Play HVAC systems• IEQ control systems• Connection to energy grid and RES production

On-site 3D technologies• 3D scanning (geomatics) - laser and photogrammetry• On-site 3D printing and robotics

ICT Tools for deep renovation


Poland (Public buildings)2x kindergardens1. Gdynia2. Warsaw

The Netherlands (Residentialbuildings:1. Utrecht2. Enschede3. Lekkerkerk

P2ENDURE


CASE STUDIES

Denmark (Residential):1. Korslokken

Italy (Residential/ historical monument):1. Reggio Emilia2. Genova3. Ancona (virtual)

Germany (Office building):1. Menden


P2ENDURE


Impact indicators matrix – KPIs from the demonstrators


Reduced Net Primairy Energy

Lowered Embodied

Energy

Reduced renovation costs

Reduced renovation Time

Replicability and scalability

Reduced disturbance

during renovation

Improved indoor environmental quality

Demo case Resp. partner % % % %

Enschede, NL HIA/TUB 62% In Progress In Progress 56%

In progress by FAS, UNIVPM, HIA

In Progress Ce_a

Warsaw, PL MOW In Progress In Progress 15% In Progress In Progress Ce_b

Gdynia, PL FAS 68% 63% 15% 50% Yes Ce_b-a

Korslokke, DK RaW 40% In Progress In Progress In Progress In Progress In Progress

Ancona, IT UNIVPM 68% 30% In Progress In Progress In Progress b

Genova, IT RINA 60% In Progress In Progress In Progress Yes b-a

Utrecht, NL HIA/Alliantie+ 60% 65% In Progress 31% Yes Sensi_a

Menden, DE 3L 61% 37% In Progress In Progress In Progress In Progress

Lekkerkerk (NL) PAN+/HIA 62% 52% In Progress 55% Yes Sensi_b-a

Reggio Emilia, IT BEQ 91% In Progress In Progress 67% In Progress In Progress

Tilburg Monastry,NL PAN+/HIA71% In Progress 20% In Progress In Progress In Progress

Palmanova, IT BEQ 60% In Progress In Progress In Progress In Progress In Progress

P2ENDURE


P2ENDURE E-MARKETPLACE


P2ENDURE


RESULTS / FINAL REMARKS

→ renovations of entire districts, designed to reach near zero-energy consumption, need to be replicable if they are to be widely adopted P2Endure local district renovation

platform

→ Demand <–> supply: local district alliance→ Support decision-making of the renovation process→ Clear evidence on energy, cost and time performance


P2ENDURE


LESSONS LEARNT / FUTURE CHALLENGES

LESSONS LEARNT FUTURE CHALLENGES

Slow adoption of innovative deep retrofit solutions Lack of holistic renovation approaches

Local district alliances

Lack of knowledge on the benefits is hindering the implementation by the end-user

Knowledge sharing platformAwareness campaigns for end-users (energy-efficiency impact on comfort and wellbeing)

Low involvement of end-user in the retrofit process

Enhanced user experience through gamification techniques

Lack of manufacturing and mass production of retrofit solutions

Robotisation and automatisation in prefabrication for acceleration of deep renovation


This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 767180

Energy harVesting by InvisibleSolar IntegratiON in building skins

ENVISIONProject

Presentation

Build-Up Webinar19th May 2020


Energy harvesting

19/05/2020 2


The project

3

ENVISION aims at developing and demonstrating an integrated renovation concept using all the available building surfaces for thermal and electrical

energy harvesting.

6 Million Budget

54 months

13 partners

8 Work Packages


Introduction

4

To achieve the European goal of an energy-neutral built environment in2050, harvesting of solar energy from all surfaces of buildings should bemaximized.

Efficiently managing solar radiation on buildings provides an enormouspotential, since in EU28 a total of 60 billion square meters of façadesurfaces exists, and the current usage of solar radiation on opaque surfacesis still minimal.

Together with roofs this would mean a total of 120 billion square meters ofpotential energy harvesting surfaces!

Considering that approximately 85% of existing dwellings were built before1990 with poor insulation (R ≤ 1.6 m2K/W), major renovation will take placein the upcoming period.


The concept: Grab what you can without noticing!

Harvesting while keeping aesthetics

19/05/2020 5


Objectives

8

Active harvesting

Linking heat generation façade

elements to district heat network

Large scale deployment potential

Easy maintenance

Easy Installation

Cost Effectiveness ROI <10


Technologies – Opaque surfaces

10

Solar heat collectors based on the usage of NIR absorbing coloured coatings

Covered solar heat collectors using

colored NIR transparent glass


Technologies – Transparent surfaces

11

Smart ventilated heat harvesting window

Photovoltaic (PV) harvesting glass


Demonstration

12

SOLAR-BEAT (SEAC, The Netherlands)TRL6 real case-study of subsystem prototypes will be tested (façade element)

BESTlabs (EDF, France)TRL 7, the full façade concept will be demonstrated in relevant environment

Testing in real environment (TRL8)• Link to district network and grid

(Italy, University of Genoa Savona Campus) • Real case study of a renovation action

(Apartments in the Netherlands)


ENVISION our future!

1305/10/2018



19/05/2020 14



19/05/2020 15


Consortium

www.seac.ccwww.tno.nl www.baminternational.com

www.rina.org www.emergohout.nl www.pilkington.com

www.vestia.nlwww.edf.frwww.tpg.unige.it

www.bergamo-tecnologie.euwww.akzonobel.com

http://www.vestia.nl/


Thank you for your kind attentionTNO

Bart [email protected]

This project has received funding from European Union‘s Horizon H2020 research and innovation programme under grant agreement No. 723868.

Development of innovative lightweight and highly insulating energy efficient components and associated enabling materials for

cost-effective retrofitting and new construction of curtain

wall facades.

Deep renovation Joint Webinar

Daniela ReccardoRINA Consulting

19 May 2020

EENSULATE project presentation

EENSULATE PROJECT

- www.eensulate.eu -May 2020 2

3 Key Enabling Technologies

13 partners

48 months

6,6 million budget

Starting Date: 1st August 2016

End Date: 31st August 2020

Target: existing and new construction

PARTNERS

May 2020 - www.eensulate.eu - 3

EENSULATEProject

CHALLENGE

• Thousands of buildings in Europe have been constructedin the recent decades using the curtain walls system andmany of these buildings are now thirty to fifty years oldor even more.

• Curtain wall technology has recently moved from officebuildings to glazed residential towers within the urbancontext, where noise pollution is a significant andgrowing concern.

• Windows and glass facades are estimated to beresponsible for up to 60% of energy losses through theenvelope.

• Replacement and retrofitting of curtain walls wouldallow a significant enhancement in thermal performancewhich results variously in condensation, unwanted heattransfer, and general discomfort to occupants.


Main Breakthrough

EENSULATE curtain wall modules wherethe thermal and acoustic insulation areprovided by the novel EENSULATE glassbased on VIG technology andEENSULATE foam (TCF) in the spandrelcombined with SoA low-e coated glass,including thermo-chromic coated glasswith additional self-cleaning andantifogging functionalities

EENSULATE Module allows to achievethermal and mechanical performancesaccording to technical and standardrequirements as well as market drivers

Main Technologies

• Lightweight and thin double pane Vacuum Insulated Glass (VIG) with innovative sealant and getter technologies for transparent part of the façade module and windows applications

• Highly insulating foams based on mono component (OCF) and bi-component (TCF) elements

• Vacuum Insulated Glass (VIG)realized by BGTEC with atailored manufacturing processimplementing the innovativesealant and getter strips toensure the target performances

• Small Scale VIG prototypes(500x500mm)

• Large scale VIG prototypes(1000x1000mm)

• Real scale VIGs for pilots(2060X860mm, 1200x1160mm)

VIG

Centre and overall U-value: 0.36 and 0.44 Wm-2K-1, respectively

• A highly insulating mono-component foam(OCF) for windows application and a twocomponent foam (TCF) with high fire classfor spandrel application developed bySELENA

• The innovative foams are nanocompositepolyurethane (PUR) / polyisocyanurate(PIR) foams with tailored cell morphology,size and structure in order to enhance thethermal properties through the precisecontrol of the cells nucleation events whichgenerate the foams

FOAM

SEALANT

• Epoxy resin based sealant in strips forvacuum insulating glass

• Thermal curing allows low processingtemperature (< 200°C)

• Possibility of having the mono-component sealant resin in syringedispensable in a range of 60÷100°C

• Permeability - extremely high barrierperformance for Ar, N2, O2

• Active filler for moisture absorption

• Storing in freezer, processing in air


GETTER

• Distributed getter realized with innovative Zr-based alloy ZAO®2 with extremely high N2 capacity (0.1cc·torr/cm2)

• Laminated double-side getter strips 200µm thick and 8mm large

• Easy handling and positioning in air

• Getter activation process by RF heating under vacuum pumping

May 2020 10

3 Demo Buildings

School

Building Type: Tertiary Building

Location: Dzierżoniow, Poland

Type of Intervention: Façade System

Museum

Building Type: Old Building

Location: Dzierżoniow, Poland

Type of intervention:Windows


Public LibraryBuilding Type: Tertiary BuildingLocation: Pesaro (Italy)Type of Intervention: Door Window

Main Impacts

Development of a product thatmeets the market demand foraffordable and prefabricatedfaçade retrofitting system withlimited weight and thickness


CONTACT INFO

▪ For further project information please contact:

Daniela RECCARDOProject CoordinatorRINA Consulting S.p.A.

[email protected]

www.eensulate.eu

▪ Follow project latest news on social network profiles:


http://www.eensulate.eu/

This project has received funding from European Union‘s Horizon H2020 research and innovation programme under grant agreement No. 723868.

Development of innovative lightweight and highly insulating energy efficient components and associated enabling materials for

cost-effective retrofitting and new construction of curtain

wall facades.

Daniela ReccardoRINA Consulting

THANK YOU FOR ATTENTION!

[email protected]

Q&ASubmit your question!

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