maghrenov deliverable 3.4: catalogue of evaluated competence

This project has received funding from the European Union’s Seventh Framework Programme for research, technological development and demonstration under the grant agreement no. 609453.

DELIVERABLE Project Acronym: MAGHRENOV Grant Agreement number: 609453 Project Title: Convergence between EU and MAGHREB MPC innovation systems

in the field of Renewable Energy and Energy Efficiency (RE&EE) – A test-bed for fostering Euro Mediterranean Innovation Space (EMIS)

D3.4 CATALOGUE OF EVALUATED

COMPETENCES

Version: 1.0 Authors: Céline JULLIEN (KIC SE) Internal Reviewers: Josep Bordonau (UPC) Abdelhak Chaibi (R&D Maroc) Helene Ben Khemis (ANME) Dissemination Level

P Public X

C Confidential, only for members of the consortium and the Commission Services

D3.4 Catalogue of Evaluated Competences

© MAGHRENOV Consortium Version 1.0 - 19/11/2014 2

Table of Contents Table of Contents ............................................................................................................. 2

List of Tables .................................................................................................................. 3

Revision History ............................................................................................................... 4

1 Introduction .............................................................................................................. 5

2 Regional Innovation Competence in Maghrenov’s identified relevant priorities in Renewable Energies and Energy Efficiency thematic fields ..................................................................................... 7

2.1 Regional actors identified in Renewable Energies ............................................................. 7

2.1.1 Identified Innovation Competencies Wind Energy priorities ............................................. 9

2.1.2 Identified Innovation Competencies in PV priorities .................................................... 11

2.1.3 Identified Innovation Competencies in STE priorities .................................................. 13

2.2 Regional actors identified in Energy Efficiency .............................................................. 16

2.3 Survey results from 14 actors in Renewable and Energy Efficiency ....................................... 18

2.3.1 Survey questions .............................................................................................. 18

2.3.2 List of contact for interviews .............................................................................. 20

2.3.3 Synthetic results .............................................................................................. 21

3 Mapping worldwide Innovation competences against Maghrenov’s Roadmap ................................ 22

3.1 Worldwide actors as identified in KIC InnoEnergy Competence Mapping in Renewable Energies .... 22

3.1.1 In Wind Energy ................................................................................................ 22

3.1.2 In PV ............................................................................................................ 26

3.1.3 In STE ........................................................................................................... 29

3.2 Worldwide actors as identified in KIC InnoEnergy Competence Mapping in Energy Efficiency ....... 38

3.2.1 In Local Energy storage ...................................................................................... 38

3.2.2 In Energy Efficient Buildings ................................................................................ 47

3.2.3 In Urban energy priorities ................................................................................... 52

3.2.4 In Energy Efficiency in the industry ....................................................................... 54



List of Tables Table 1. Maghrenov’s Roadmap Priorities and KIC InnoEnergy ones .................................................. 5 Table 2. Maghrenov’s KPI to characterize Innovation Competencies ................................................. 6 Table 3. Distribution of Major Moroccan actors against Maghrenov’s Roadmap priorities ........................ 7 Table 4. Distribution of Major Tunisian actors against Maghrenov’s Roadmap priorities ......................... 8 Table 5. Distribution of Major Moroccan actors against Maghrenov’s Energy Efficient Roadmap priorities .. 16 Table 6. Distribution of Major Tunisian actors against Maghrenov’s Energy Efficient Roadmap priorities ... 17 Table 7. Summary of Survey Reponses .................................................................................. 21 Table 8. Maghrenov’s Wind Energy priorities and worldwide Competence Mapping ............................. 22 Table 9. Maghrenov’s PV priorities and worldwide Competence Mapping ......................................... 26 Table 10. Maghrenov’s Solar Thermal Energy priorities and worldwide Competence Mapping ................ 29 Table 11. Maghrenov’s Local Energy Storage priorities and worldwide Competence Mapping ................. 38 Table 12. Maghrenov’s Energy Efficient Buildings priorities and worldwide Competence Mapping ........... 47 Table 13. Maghrenov’s Urban Energy priorities and worldwide Competence Mapping .......................... 52 Table 14. Maghrenov’s Energy Efficiency priorities and worldwide Competence Mapping ..................... 54



Revision History

Revision Date Author Organization Description

0.1 14/11/2014 Céline Jullien KIC SE Initial draft

0.2 17/11/2014 Nadia Zeddou/Hélène

Ben Khemis

IRESEN

ANME

Input from partners

1.0 18/11/2014 Céline Jullien KIC SE Final Version

Statement of originality:

This deliverable contains original unpublished work except where clearly indicated otherwise. Acknowledgement of previously published material and of the work of others has been made through appropriate citation, quotation or both.



1 Introduction A Competence Mapping is a strategic exercise that intends to map against identified priorities the existing competencies of players in a specific domain. KIC InnoEnergy has developed a methodology to characterize Innovation competencies of both Industrial and Academic players, to map these competencies against technological priorities, and to identify TOP 10 worldwide players and future game changers in those priorities. To date, KIC InnoEnergy has run such an exercise, characterizing innovation competencies using 9 Key Performance indicators: (1) the relative number of patents (2) quality of patents (forward citations, geographical coverage), (3) relative number of industrial and academic collaborations (R&D projects) (4) R&D Project Partners quality (5) Strategic index (relevance of the priority for the player) (6) Existing Spin-offs, new branches or subsidiaries, or acquired companies (7) Commercialized products/services, licensed technologies (8) Relative number of scientific publications, (9) Quality of scientific publications (citations index), mapping competencies against its current 121 technology priorities, as contained in its Strategy and Roadmap1 (covering 6 different thematic fields: Renewable Energies (Photovoltaic, Solar thermal, Ocean, Wind energies), Clean Coal and Gas Technologies, Intelligent Energy-Efficient Buildings and Cities, Smart Grids & Electric Storage, Sustainable Nuclear & Renewable Energy Convergence, Energy from Chemical Fuels. Overall it represents more than 150 000 analyzed Patents, 180,000 analyzed Scientific Publications, 1 890 identified R&D collaborations, 340 identified acquisitions/created start-ups, 1 227 identified products/services and licenses, 2 000 identified and ranked top 10 industry and academic players. Such an exercise provides an in depth understanding of a company’s positioning in the worldwide innovation competition, and supports decision regarding potential new partners to attract to be stronger and make an impact in specific technological priorities.

In Maghrenov, the intention is to deploy the Competence Mapping methodology in order to characterize the regional innovation competencies in the fields of Renewable Energy and Energy Efficiency. Similar to the KIC InnoEnergy methodology, the objective is to characterize these competencies against Maghrenov’s identified priorities, as contained in Maghrenov’s Strategy and Roadmap (see deliverable Maghrenov D3.3), and to identify best players and competencies in these priorities. To date, Maghrenov Roadmaps cover 47 priorities in Renewable Energies, and 78 priorities in Energy Efficiency, for a total scope of 125 priorities overall. Reflecting on Maghrenov’s specificities and KIC InnoEnergy’s own priorities, almost 50% of Maghrenov’s Roadmap in Renewable energy is specific to the Mediterranean context, and 70% regarding Energy Efficiency thematic, as summarized in the following table.

Table 1. Maghrenov’s Roadmap Priorities and KIC InnoEnergy ones

Total number of Priorities

Number of priorities Specific

to Maghrenov

Number of priorities also contained in KIC InnoEnergy Strategy and Roadmaps

Maghrenov Renewable Energy Roadmap

47 24 23

Maghrenov Energy Efficiency Roadmap

78 56 22

1 KIC InnoEnergy Strategy and Roadmaps per Thematic Field are available at http://cip2014.kic-innoenergy.com/.



As regards Key Performance Indicators to characterize innovation competencies, 3 among the 9 KPIs were selected by Maghrenov’s partners, as represented below in table 1.2.

Table 2. Maghrenov’s KPI to characterize Innovation Competencies

Key Performance Indicator Selected by Maghrenov’s Partners

1) Relative number of patents Yes

(2) Quality of patents (forward citations, geographical coverage),

No

(3) Relative number of industrial and academic collaborations (R&D projects)

Yes

(4) R&D Project Partners quality No

(5) Strategic index (relevance of the priority for the player)

No

(6) Existing Spin-offs, new branches or subsidiaries, or acquired companies

No

(7) Commercialized products/services, licensed technologies

No

(8) Relative number of scientific publications

Yes

(9) Quality of scientific publications (citations index)

No

In terms of method, data and information regarding the selected KPI were collected by Maghrenov’s partners to characterize innovation competencies in the Renewable Energies and Energy efficient technological priorities. Maghrenov’s partners also run a complementary survey, with industry and academic partners in Tunisia and Morocco (as equally run at the occasion of KIC InnoEnergy competence mapping). Finally, KIC InnoEnergy filtered its worldwide competence mapping results to reveal top 10 industrial and academic players in the selected Maghrenov’s priority.

The present report presents the information gathered over a 6-month period. We present the results in two chapters, (1) specific to regional Innovation competences in Renewable Energies and Energy Efficient priorities, and (2) worldwide industrial and academic identified top 10 players in relevant Renewable Energies and Energy Efficient priorities.



2 Regional Innovation Competence in Maghrenov’s identified relevant priorities in Renewable Energies and Energy Efficiency thematic fields

Maghrenov’s identifies priorities in Renewable Energies and Energy Efficiency thematic fields are contained in its Strategy and Roadmap. This chapter lists the competencies of Industrial and Academics in the two thematic fields, insisting on the 3 Key Performance Indicators in following sub-sections, starting with R&D projects industrial and academic collaborations and other large projects, Intellectual property rights and scientific publications.

2.1 Regional actors identified in Renewable Energies The two tables below are listing the major Tunisian and Moroccan actors in the Renewables energy priorities. Details on R&D projects, collaborations and scientific activities are then listed below by topics.

Table 3. Distribution of Major Moroccan actors against Maghrenov’s Roadmap priorities

Technology Topic Industrials Academic Institutions

Wind Wind Farm and O&M improvements

Italgen Maroc • Al Akhawayn University (AUI) • Université Abdekmalek Essaadi (UAE)

• Institut de Recherche en Energie Solaire et Energies Nouvelles (IRESEN) • Agence Nationale pour le Développement des Energies Renouvelables et de l'Efficacité Energétique (ADEREE) • Centre National de la Recherche Scientifique et Technologique (CNRST ) • Moroccan Agency for Solar Energy (MASEN) • Société d'Investissements Energetiques (SIE) • Le Centre National de l’Énergie, des Sciences et des Techniques Nucléaires (CNESTEN)

Design and components adapted to local conditions Wind assessment

Manufacturing and logistics Power transmission and grid integration Small & Mid-‐Scale Wind Turbines

Solar

PV cells and modules Maroc Renewables ; EasySolar ; NRJ International ; Temasol

• Ecole Mohammedia d’Ingénieurs (EMI) • MAScIR • Université Cadi Ayyad (UCA) • Université Hassan II Mohamedia (UH2M) • Université Hassan Premier (UH1) • Université Mohamed V (UMV)

Design and components adapted to local conditions PV Systems integration

Autononous power systems BIPV

STE Higher plant efficiency Maroc Renewables ; Energypoles ; Office Chérifien des Phosphates (OCP) ; Ventec Maroc ; Water Sol Maroc

• Al Akhawayn University (AUI) • Ecole Mohammedia d’Ingénieurs (EMI) • Université Cadi Ayyad (UCA) • Université Abdekmalek Essaadi (UAE) • Université Euro-‐Méditerranéenne de Fès (UEMF) • Université Ibn Zohr (UIZ) • Université Internationale de Rabat (UIR) • Université Mohamed V (UMV) • Université Moulay Ismail (UMI) • Université Sidi Mohammed Ben Abdellah (USMBA)

Lower investment and O&M costs and increased sustainability Thermal storage



Table 4. Distribution of Major Tunisian actors against Maghrenov’s Roadmap priorities

Technology Topic Industrials Academic Wind Wind Farm and O&M improvements STEG, ANME ISSTE de Gafsa

ENIT Design and components adapted to local conditions

SOCOMENIN CRTEn ENIS

Wind assessment INM (Institut Nationale de la Météorologie) Manufacturing and logistics SOCOMENIN Power transmission and grid integration

STEG ENIT

Small & Mid-‐Scale Wind Turbines STEG, ANME ENIT; CRTEn

Solar PV cells and modules AURASOL, NR-‐SOL IFRI-‐SOL STEG ANME

ISSTE de Gafsa CRTEn ENIM ENIS

Design and components adapted to local conditions

AURASOL, NR-‐SOL IFRI-‐SOL STEG ANME

CRTEn ENIM ENIS

PV Systems integration AURASOL, NR-‐SOL IFRI-‐SOL STEG ANME

CRTEn ENIM

Autononous power systems AURASOL, NR-‐SOL IFRI-‐SOL STEG ANME

BIPV AURASOL, ENIT ENIM

STE Higher plant efficiency SOFTEN, SINES, SIER, TECH-‐SOL, BSI, SOLTECH, EDS, COALA, SEN, ATS, GESE (fabricants de STE)

ISSTE de Gafsa ENIT

Lower investment and O&M costs and increased sustainability

SOFTEN, SINES, SIER, TECH-‐SOL, BSI, SOLTECH EDS, COALA, SEN, ATS, GESE

ENIT ISSTE de Borj Cédria

Thermal storage ENIM



2.1.1 Identified Innovation Competencies Wind Energy priorities

Major players ongoing involvement in Wind R&D programs, projects and collaboration in Morocco

Domaine Projets Partenaires Industriels MarocainsWIND Nanolubrication Additives for improved Winds Turbine Energy Efficiency SALUBWIND Développement d'une éolienne domestique selon le standard IEC 61400 GIMAS



Relevant patents in the Wind field by majors players in Morocco

Title Publication number Publication date Inventor(s) Applicant(s)WATER-WIND POWER GENERATOR MA34858 (B1) 2014-02-01 HDIDOU MOHAMED

LEBRIHI AHMEDERRAKHI RAFIK

UNIV MOULAY ISMAIL [MA]

WIND GENERATOR WITH TWO COPLANAR AND COUNTER-ROTATING ROTORS

WO2014109625 (A1) 2014-07-17 BENEBDELLAH ABDELLATIF [MA]BOUYA MOHSINE [MA]ELOUAHABI MOHAMED [MA]CHERKAOUI MOHAMMED [MA]DHIMDI SAID [MA]ABRARI ASMA [MA]BASSOU RANIA [MA]BASSOU RANDA [MA]LAGHMICH TARIK [MA]

UNIV INTERNATIONALE DE RABAT [MA]

CONVERTIBLE, SELF-ADJUSTING, VERTICAL-AXIS WIND TURBINE COMBINING SAVONIUS AND DARRIEUS CONFIGURATIONS, AND HAVING A COMPOSITE BLADE SYSTEM

MA33875 (B1) 2013-01-02 JANAH SAADIMOHAMED ENNAJI

UNIV HASSAN II AIN CHOCK [MA]

CONVERTIBLE, SELF-ADJUSTING, VERTICAL-AXIS WIND TURBINE COMBINING SAVONIUS AND DARRIEUS CONFIGURATIONS, AND HAVING FOLDING BLADES



CONVERTIBLE, SELF-ADJUSTING, VERTICAL-AXIS WIND TURBINE COMBINING SAVONIUS AND DARRIEUS CONFIGURATIONS, AND HAVING RETRACTABLE BLADES



EOLIENNE DOMESTIQUE MA32864 (B1) 2011-12-01 ABDELLATIF BENABDELLAHMOHAMED ELOUAHABI

UNIV INTERNATIONALE DE RABAT [MA]H & H CONSULTING LAW FIRM

SYSTEME DES PALES SOUS FORME DES PORTES QUI TRANSFORME L'ENERGIE MECANIQUE (VENT) EN ENERGIE ELECTRIQUE

MA32746 (B1) 2011-11-01 LAKHAL HASNA LAKHAL HASNA [MA]

MULTI-DIRECTIONAL FRUSTO-CONICAL DUAL REFLECTOR

WO2011108912 (A2); WO2011108912 (A3)2011-09-09 BERNOUSSI BENAISSA [MA] BERNOUSSI BENAISSA [MA]

AEROGENERATEUR A PALES RABATTABLES

MA30439 (B1) 2009-06-01 NOGUERA FERNANDEZ BLAS NOGUERA FERNANDEZ BLAS [ES]

SYSTEME ET METHODE DESTINES A PILOTER AUTOMATIQUEMENT LE VOL DE PROFILS D'AILE MOTRICE

MA30362 (B1) 2009-04-01 MASSIMO IPPOLITO KITE GEN RES SRL [IT]

MOTEUR SANS HYDROCARBURE MA25103 (A1) 2000-12-31 BENADDI MOHAMED [MA] BENADDI MOHAMED [MA]

AEROGENERATEUR (15 KW/-400/230-28Vcc) MENU D'UN DISPOSITIF ELECTROMAGNETIQUE

MA24253 (A1) 1998-04-01 MESSAOUDI BOUJEMAA [MA]

SYSTEME PERMETTANT DE TRANSFORMER L'ENERGIE EOLIENNE EN ENERGIE MECANIQUE EOLIENNE A POCHES DEFORMABLES, MUNI D'UN REGULATEUR DE VITESSE

MA23529 (A1) 1995-12-31 DIBA MOHAMED [MA] DIBA MOHAMED [MA]

FABRICATION DE DEUX MACHINES , L'UNE DOMESTIQUE ,L'AUTRE INDUSTRIELLE , PRODUCTRICES DE COURANTS ALTERNATIFS .

MA21958 (A1) 1991-04-01 JOSE MARIA GIMENEZ FERNANDEZ [MA]

JOSE MARIA GIMENEZ FERNANDEZ [MA]

UN SYSTÈME DE STOCKAGE DE L'ENERGIE EOLIENNE

MA20892 (A1) 1987-10-01 BELKBIR LARBI [MA] BELKBIR LARBI [MA]



Majors University and Research centres’ activity and publications related to Wind Technology in Morocco

Research partners

Publication

2.1.2 Identified Innovation Competencies in PV priorities

Major players ongoing involvement in PV R&D programs, projects and collaboration in Morocco

Relevant patents in the PV field by majors players in Morocco

Domaine Projets Partenaires Scientifiques MarocainsWIND Nanolubrication Additives for improved Winds Turbine Energy Efficiency Faculté des Sciences et Techniques (FST) Tanger - Université Abdekmalek Essaadi (UAE)WIND Développement d'une éolienne domestique selon le standard IEC 61400 Al Akhawayn University (AUI)

WIND Nanolubrication Additives for improved Winds Turbine Energy EfficiencyComparison of synthesis routes of inorganic fullerene-‐like nano-‐additives devoted to wind turbine lubrication: Application of Life Cycle Assessment Approach

Domaine Projets Partenaires Industriels MarocainsPV Réalisation d’un onduleur photovoltaïque 6KVA A2S IndustriesPV LOw COst CSP in Morocco AIC Métallurgie (Delta Holding)

PV Monitoring and Prediction of Power Production for Moroccan Solar Farms Jet Alu

PV Frigo solaire sur Triporteur avec isolation thermique à base du bois de palmier dattier local

Inter Afrique Climatisation

PV PROductivité Photovoltaïque à l’échelle REgionale dans tout le MAroc Resing

PV Développement d’un système de transfert et d’optimisation d’énergie solaire PV

ADETEL

PVUtilisation d’un commutateur (Smart Switch) de transfert pour la production d’électricité par panneaux photovoltaïques pour les villages de pêche connectés au réseau BT

Office National des Pêches (ONP)CENTRELECEASYSOLAR

Publication number Publication date Inventor(s) Applicant(s)WO2004107396 (A3); WO2004107396 (A2) 2004-12-09 PATON MILLAN FRANCISCO [MA] PATON MILLAN FRANCISCO [MA]

WO2004107395 (A3); WO2004107395 (A2) 2004-12-09 PATON MILLAN FRANCISCO [MA] PATON MILLAN FRANCISCO [MA]

MA25053 (A1) 2000-10-01 ORENGO FRANCISBOURRIERES PHILIPPE

MANUF D APP ELECTR DE CAHORS M [FR]

MA23341 (A1) 1995-07-01 HAIMOUD RACHID [MA]

MA23140 (A1) 1994-10-01 AOUFI SAID [MA]

MA22730 (A1) 1993-07-01 NACIRI ABDELLATIF [MA] NACIRI ABDELLATIF [MA]

MA22457 (A1) 1992-10-01 CHARRADE ABDELKRIM [MA]

MA20833 (A1) 1987-07-01 GRAVISSE PHILIPPE [FR]

MA18462 (A1) 1979-12-31 LUCIEN ROURE [MA]



Majors University and Research centres’ activity and publications related to PV Technology in Morocco

Research partners and projects

Publications

Domaine Projets Partenaires Scientifiques MarocainsPV Réalisation d’un onduleur photovoltaïque 6KVA Faculté des Sciences et Techniques (FST) Settat - Université Hassan 1er (UH1)

PV LOw COst CSP in Morocco Université Internationale de Rabat (UIR)Faculté des Sciences et Techniques (FST) Fès - Université Sidi Mohammed Ben Abdellah (USMBA)

PV Monitoring and Prediction of Power Production for Moroccan Solar Farms Université Internationale de Rabat (UIR)Ecole Nationale des Sciences Appliquées (ENSA) Kénitra - Université Ibn Tofail (UIT)

PV Frigo solaire sur Triporteur avec isolation thermique à base du bois de palmier dattier local

Faculté des Science Ben M'Sik - Université Hassan II Mohamedia (UH2M)Faculté des Sciences et Techniques (FST) Errachidia - Université Moulay Ismail (UMI)

PV PROductivité Photovoltaïque à l’échelle REgionale dans tout le MAroc

Faculté des Sciences Semlalia (FSS) - Université Cadi Ayyad (UCA)Faculté des Sciences d’Agadir - Université Ibn Zohr (UIZ)École Nationale des Sciences Appliquées (ENSA) Al Houceima - Université Mohammed 1er (UM1)Faculté des Sciences et Techniques (FST) Béni Mellal - Université Sultan Moulay Slimane (USMS)Faculté des Science Ben M'Sik - Université Hassan II Mohammedia (UH2M)Faculté des Science El Jadida - Université Chouaib Doukkali (UCD)Faculté des Sciences et Techniques (FST) Errachidia - Université Moulay Ismail (UMI)Faculté des Science Dhar EL Mehraz - Université Sidi Mohamed Ben Abdellah (USMBA)Al Akhawayn UniversityFaculté des Science Kénitra - Université Ibn Tofail (UIT)École Supérieure de Technologie (EST) Meknès - Université Moulay Ismail (UMI)Faculté des Sciences et Techniques (FST) Mohammedia - Université Hassan II Mohammedia (UH2M)Faculté Polydisciplinaire Nador - Université Mohammed 1er (UM1)Faculté Polydisciplinaire Ouarzazate - Université Ibn Zohr (UIZ)Faculté des Sciences Oujda - Université Mohammed 1er (UM1)École Normale Supérieure (ENS) Takaddoum - Université Mohamed V Agdal (UMVA)École Nationale des Sciences Appliquées (ENSA) Safi - Université Cadi Ayyad (UCA)Faculté des Sciences et Techniques (FST) Settat - Université Hassan 1er (UH1)École Nationale des Sciences Appliquées (ENSA) Tanger - Université Abdelmalek Essaadi (UAE)Faculté des Sciences Tétouan - Université Abdelmalek Essaadi (UAE)

PV Développement d’un système de transfert et d’optimisation d’énergie solaire PV MAScIR

PVUtilisation d’un commutateur (Smart Switch) de transfert pour la production d’électricité par panneaux photovoltaïques pour les villages de pêche connectés au réseau BT

Ecole Mohammedia d’Ingénieurs (EMI) - Université Mohammed V Agdal (UMVA)

Domaine Projet Publication

PVFrigo solaire sur Triporteur avec isolation thermique à base du bois de palmier dattier local

Natural thermal-‐insulation materials composed of renewable resources: characterization of local date palm fibers (LDPF)

PV PROductivité Photovoltaïque à l’échelle REgionale dans tout le MAroc “Propre.Ma” project: roadmap & preliminary results for grid-‐connected PV yields maps in Morocco.

PV PROductivité Photovoltaïque à l’échelle REgionale dans tout le MAroc Simulation of power production with mini-‐PV plants using 3-‐types of Silicon Technologies in Fes-‐Morocco case

PV PROductivité Photovoltaïque à l’échelle REgionale dans tout le MAroc “Propre.Ma” project: Design, Startup and Testing of a Photovoltaïque Station and simulation of its productivity

PV PROductivité Photovoltaïque à l’échelle REgionale dans tout le MAroc “Propre.Ma” project: Metrology Supervision and Data Transfer From a PV Station

PV PROductivité Photovoltaïque à l’échelle REgionale dans tout le MAroc Performance monitoring of a grid-‐connected high concentration photovoltaic power plant

PV PROductivité Photovoltaïque à l’échelle REgionale dans tout le MAroc “Propre.Ma” project: Modeling and simulation of Grid connected photovoltaic system for Meknes Climate

PV PROductivité Photovoltaïque à l’échelle REgionale dans tout le MAroc Modeling and comparative study of different PV modules technologies in Agadir climate

PV Réalisation d’un onduleur photovoltaïque 6KVAComparative Study of Fin Geometries for Heat Sinks in Natural Convection

PV Réalisation d’un onduleur photovoltaïque 6KVA Thermal model of IGBT Modules in the arm converter

PV Les batteries lithium-‐ion: une solution de choix pour le stockage de l'énergie solaireEnergy Storage in Li4Ti5O12/LiCo2/3ni1/6Mn1/6O2 Lithium ion Battery : electrochimical performance and stability

PV Les batteries lithium-‐ion: une solution de choix pour le stockage de l'énergie solaireLiFe1-‐yMnyPO4 Phosphates as convenient electrode materials for energy storage and conversion

PV Les batteries lithium-‐ion: une solution de choix pour le stockage de l'énergie solaireElectrode materials for Sodium Ion Batteries : a cheaper solution for the energy storage



2.1.3 Identified Innovation Competencies in STE priorities

Major players ongoing involvement in STE R&D programs, projects and collaboration in Tunisian

Domaine Projets Partenaires Industriels Marocains

STEStockage de l’énergie thermique solaire par fusion des matériaux à changement de phases au sein d’un système hybride Habitat/Capteur solaire/MCP

ZAHID

STE Les batteries lithium-‐ion: une solution de choix pour le stockage de l'énergie solaire

Réminex - Managem

STEÉvaluation des performances des sites thermosolaires -‐ Application au site CSP Air Baha

Ciment du MarocAirlight EnergyItalgen Ener Maroc

STE Nanocoating and testing, a step towards the improvement of CSP reflectors for less intensive maintenance both terms of labor and water

SPIEInduver

STE Développement d’un champ solaire à faible concentration pour centrales solaires thermodynamiques

InterTridim

STE Couplage energie solaire à concentration et dessalement de l'eau au Maroc Centre National de l’Energie des Sciences et Techniques Nucléaires (CNESTEN)LSA Industries

STE Seawater desalination using solar energy Office Chérifien des Phosphates (OCP)Jet Alu

STE Lutte contre les vagues de chaleur excessive par la climatisation solaire dans le secteur avicole

TURDELVentec

STE COLDSUN : Développement d’une solution de climatisation solaire réversible et innovante

InterTridim

STEAmélioration du fonctionnement des séchoirs solaires : Élaboration de prototypes pour le séchage direct du bois et de prototypes pour le séchage indirect des aliments

AluMéga

STE Contribution des MicroCSPs dans la gestion d'un reseau electrique integrant les sources d'energie renouvelables

Office National de l'Electricité et de l'Eau potable (ONEE)

STE Procédé de Rafraichissement Solaire au Maroc PRSM-SUNNY Energypoles

STE Développement d’un séchage Flash solaire des phosphates Office Chérifien des Phosphates (OCP)

STE Maintien en chauffe d’un stockage de bitume par des panneaux solaires à haute énergie

Bituma

STESystèmes hybrides solaire/biomasse pour la production de l’eau chaude sanitaire et le chauffage dans les Hammams traditionnels (HYBRID-BATH)

Water Sol MarocBUILDIT

STEEtude et conception d'un Séchoir Solaire Hybride autonome par des systèmes d’informations et de gestion d’énergie

RAMO IndustriePépinière ChaymaeCADVALORISATION



Relevant patents in the STE field by majors players in Morocco

Title Publication numberPublication date Inventor(s) Applicant(s)CAPTEUR-TRANSMETTEUR THERMIQUE A RENDEMENT ELEVEVE POUR CHAUFFE EAU SOLAIRE

MA34931 (B1) 2014-03-01 BEN ABDELLAH ABDELLATIFEL OUHABI MOHAMEDIHRINGER ERNESTDHIMDI SAIDBOUYA MOHSINECHERKAOUI MOHAMMEDFAQIR MUSTAPHA

UNIV INTERNATIONALE DE RABAT [MA]

WATER HEATER HAVING AN UNPRESSURISED TANK WITH A THERMOSYPHON EXCHANGER

MA34564 (B1) 2013-10-02 RAOUI ESSAID RAOUI ESSAID [MA]

TURBINE SOLAIRE A REACTION MA33785 (B1) 2012-12-03 JOSE ANTONIO BARBERO FERRANDIZ

JOSE ANTONIO BARBERO FERRANDIZ [ES]

LE PARABOLE SOLAIRE MA33715 (B1) 2012-11-01 CHAMA HOUSSAM EDDINE CHAMA HOUSSAM EDDINE [MA]

CUISEUR SOLAIRE MA33543 (B1) 2012-09-01 ARHAL MOHAMMADEL BAROUDI ABDELLATIFVUILLEMIN GILBERT

UNIV CADI AYYAD [MA]

PARABOLE THERMOSOLAIRE MA32862 (B1) 2011-12-01 DRISS ILALIMOHAMMED CHERKAOUIABDELLATIF BENABDELLAHMOHAMED ELOUAHABI

UNIV INTERNAT DE RABAT [MA]H & H CONSULTING LAW FIRM

MULTI-DIRECTIONAL FRUSTO-CONICAL DUAL REFLECTOR MA32846 (B1) 2011-12-01 BERNOUSSI BENAISSA BERNOUSSI BENAISSA [MA]

REALISATION DES CHAUFFES EAU SOLAIRE DE DIFFERENTS TYPES : PLAT, ROND ET RECTANGLE

MA32524 (B1) 2011-08-01 MAATAOUI SALAH MAATAOUI SALAH [MA]

ENSEMBLE SUPPORT D'HELIOSTAT ET MECANISME D'ENTRAINEMENT

MA30803 (B1) 2009-10-01 VAN DER WESTHUYZEN DAVID GLOVER

ESKOM HOLDINGS PTY LTD [ZA]

INSTALLATION GENERATRICE D'ELECTRICITE PAR CHALEUR SOLAIRE, INSTALLATION D'APPORT DE MILIEU CHAUFFANT ET DISPOSITIF DE SUPPRESSION DES VARIATIONS DE TEMPERATURE.

MA30574 (B1) 2009-07-01 OTA HIDEAKI KAWASAKI HEAVY IND LTD [JP]

SYSTÈME DE MIROIR CYLINDRO-PARABOLIQUE DE CHAMP DE COLLECTEURS SOLAIRES HYPERBOLIQUES

MA30400 (B1) 2009-05-04 CAPAN RAHMI OGUZ CAPAN RAHMI OGUZ [TR]

SYSTEME DE GOUTTIERES SOLAIRES PARABOLIQUES AVEC MOYENS DE POURSUITE ROTATIFS

MA30338 (B1) 2009-04-01 CAPAN RAHMI OGUZ CAPAN RAHMI OGUZ [TR]

SYSTEME D'AUTOSUFFISANCE D'UN FOYER EN EAU, GAZ, CLIMATISATION ET ELECTRICITE AU MOYEN DE L'ENERGIE TRANSFORMEE

MA29826 (B1) 2008-10-03 HOEDT HELMUT K F K F HELMUT HOEDT [MA]

SYSTEM AND METHODS FOR COLLECTING AND DISTRIBUTING THERMAL SOLAR ENERGY IN COMMUNITIES

WO2009139611 (A3); WO2009139611 (A2)

2009-11-19 BERRADA MOHAMED YASSER [MA] BERRADA MOHAMED YASSER [MA]

SYSTEME DE CHAUFFAGE SOLAIRE VOLUMETRIQUE D'EAU PAR TUYAUTERIE NOYEE DANS UNE DALLE DE BETON.

MA25607 (A1) 2002-12-31 PILOTTO JEAN-PIERRE [FR] PILOTTO JEAN-PIERRE [FR]

SYSTEME GUIDE PAR LE RAYONNEMENT SOLAIRE MA24520 (A1) 1998-12-31 ABOUNNAIM ABDENNAIM [MA]

DISPOSITIF DE CONCENTRATION ET DE TRANSFORMATION DE L'ENERGIE SOLAIRE EN ENERGIE THERMIQUE PAR UN CONCENTRATEUR PARABOLIQUE CONIQUE ET UN ECHANGEUR GENERATEUR DECAGONAL POUR LA PRODUCTION D'EAU CHAUDE, DE LA VAPEUR OU DE L'AIR CHAUD A HAUTE TEMPERATURE

MA24328 (A1) 1998-04-01 ABDELKABIR SAMNY [MA]

SYSTEME DE CAPTAGE SOLAIRE MA23844 (A1) 1996-12-31 ELDAD DAGAN PIXIE INVEST SA [LU]

APPAREIL DE RECUPERATION D'ENERGIE RADIANTE MA22750 (A1) 1993-07-01 ALAN JAMES YEOMANS [AU]

CUISSEUR SOLAIRE AUTO-COMPLETE PAR COMBUSTIBLE ASSURANT UNE CUISSON PERMANENTE

MA22282 (A1) 1992-04-01 HABEK ABDELATI [MA]

AMPLIFICATEUR SOLAIRE AUTO-STOCKEUR DE L'EAU CHAUDE

MA22281 (A1) 1992-04-01 HABEK ABDELATI [MA]

SYSTEME SOLAIRE DE CUISSON D'ALIMENTS MA22172 (A1) 1991-12-31 HABEK ABDELATI [MA] HABEK ABDELATI [MA]

COUVERTURE DE PISCINE AVEC CHAUFFAGE SOLAIRE . MA19159 (A1) 1981-12-31 PRELAZ ROGER [CH] PRELAZ ROGER [CH]



Majors University and Research centres’ activity and publications related to STE Technology in Morocco

Research Partners

Publication

Domaine Projets Partenaires Scientifiques Marocains


Faculté des Sciences Ain Chock - Université Hassan II Casablanca (UH2C)

STE Les batteries lithium-‐ion: une solution de choix pour le stockage de l'énergie solaire

Université Cadi Ayyad (UCA)

STE Évaluation des performances des sites thermosolaires -‐ Application au site CSP Air Baha

Université Ibn Zohr (UIZ)

STE Nanocoating and testing, a step towards the improvement of CSP reflectors for less intensive maintenance both terms of labor and water

Al Akhawayn University (AUI)Faculté des Sciences et Techniques (FST) Tanger - Université Abdelmalek Essaadi (UAE)

STEDéveloppement d’un champ solaire à faible concentration pour centrales solaires thermodynamiques

École Nationale Supérieure d'Arts et Métiers (ENSAM) - Université Moulay Ismail (UMI)

STE Couplage energie solaire à concentration et dessalement de l'eau au Maroc Faculté des Sciences Ben M'Sik - Université Hassan II Casablanca (UH2C)Faculté des Sciences et Techniques (FST) Errachidia - Université Moulay Ismail (UMI)

STE Seawater desalination using solar energy Université Internationale de Rabat (UIR) ; Université Abdelmalek Essaadi (UAE)

STE Lutte contre les vagues de chaleur excessive par la climatisation solaire dans le secteur avicole Faculté des Sciences et Techniques (FST) de Tanger - Université Abdelmalek Essaadi (UAE)

STE COLDSUN : Développement d’une solution de climatisation solaire réversible et innovante École Nationale Supérieure d'Arts et Métiers (ENSAM) de Meknès - Université Moulay Ismail (UMI)

STEAmélioration du fonctionnement des séchoirs solaires : Élaboration de prototypes pour le séchage direct du bois et de prototypes pour le séchage indirect des aliments

Faculté des Sciences de Rabat - Université Mohammed V Agdal (UMVA)

STE Contribution des MicroCSPs dans la gestion d'un reseau electrique integrant les sources d'energie renouvelables École Mohammadia d'Ingénieurs (EMI) - Université Mohammed V Agdal (UMVA)

STE Procédé de Rafraichissement Solaire au Maroc PRSM-SUNNY École Supérieur de Technologie (EST) de Fès - Université Sidi Mohammed Ben Abdellah (USMBA)École Nationale Supérieure d'Arts et Métiers (ENSAM) de Meknès - Université Moulay Ismail (UMI)

STE Développement d’un séchage Flash solaire des phosphates Université Euro-Méditerranéenne de Fès (UEMF)

STE Maintien en chauffe d’un stockage de bitume par des panneaux solaires à haute énergie

Université Internationale de Rabat (UIR)Université Abdelmalek Essaadi (UAE)

STESystèmes hybrides solaire/biomasse pour la production de l’eau chaude sanitaire et le chauffage dans les Hammams traditionnels (HYBRID-BATH)

Faculté des Sciences Semlalia (FSS) - Université Cadi Ayyad (UCA)Centre National d’Etudes sur l’Eau et l’Energie (CNEREE)

STEEtude et conception d'un Séchoir Solaire Hybride autonome par des systèmes d’informations et de gestion d’énergie

Faculté des Sciences et Techniques (FST) de Marrakech - Université Cadi Ayyad (UCA)Centre National d’Etudes et de Recherches sur l’Eau et l’Energie (CNEREE)Laboratoire de Procédés Métrologie et Matériaux pour l'Energie et l’Environnement (LP2M2E)

STE Évaluation des performances des sites thermosolaires -‐ Application au site CSP Ait BahaThermal Storage of Concentrated Solar Energy Using Rocks As Materials High Temperature Storage

STE Évaluation des performances des sites thermosolaires -‐ Application au site CSP Ait BahaStorage of Heat Energy in Packed-‐ Bed of Rocks for Concentrated Solar Power Plants

STE Évaluation des performances des sites thermosolaires -‐ Application au site CSP Ait BahaPerformance study of a solar thermal station under transient conditions


Verification & Validation of Simulation Code for Linear Fresnel Systems


Modeling and Simulation of a Linear Fresnel solar collector


Heat transfer model of a trough compound parabolic reflector used in a linear Fresnel solar field


Heating Management of Building Integrated Phase Change Materials

STENanocoating and testing, a step towards the improvement of CSP reflectors for less intensive maintenance both terms of labor and water

Transparent and Hydrophilic TiO2 Anatase as Top-‐Protective Layer for CSP Reflectors


Deposition of Transparent Aluminum Oxide (Al2O3) Films on Silvered CSP Mirrors


Optical Properties of Front and Second Surface Silver-‐Based and Molybdenum Based Mirrors



2.2 Regional actors identified in Energy Efficiency The two tables below are listing the major Tunisian and Moroccan actors in the energy Efficiency priorities. Details on R&D projects, collaborations and scientific activities are then listed below by topics.

Table 5. Distribution of Major Moroccan actors against Maghrenov’s Energy Efficient Roadmap priorities

Technology Topic Industrials Academic Institutions

Local Energy Supply,

Conversion and Storage

Thermal storage Office National de l'Electricité et de l'Eau potable (ONEE) ; Ventec Maroc

• Université Cadi Ayyad (UCA) • Université Internationale de Rabat (UIR)

• Agence Nationale pour le Développement des Energies Renouvelables et de l'Efficacité Energétique (ADEREE) • Société d'Investissements Energetiques (SIE)

Heating (including heat pumps) Cooling

Energy Efficient Buildings

Climate adaptive facades

• Université Hassan II Casablanca (UH2C)

Energy efficient lightening and energy management systems Ventilation

Urban Energy Network

Thermal Networks Office National de l'Electricité et de l'Eau potable (ONEE)

• Université Ibn Tofail (UIT) • Université Mohamed V (UMV)

Electricity networks

Mobility networks

Gaseous networks

Energy in Cities

Urban energy system transition

EasySolar ; Office National de l'Electricité et de l'Eau potable (ONEE) ; Resing

• Al Akhawayn University (AUI) • Ecole Mohammedia d’Ingénieurs (EMI) • MAScIR

Energy data technologies New urban energy services

Energy Producing Hotels

Renewable Energy Supply

Short term energy storage Decentralised climatisation Intelligent Control

Energy Producing Hotels

Design

Windows and solar sharing Insulation



Table 6. Distribution of Major Tunisian actors against Maghrenov’s Energy Efficient Roadmap priorities

Technology Topic Industrials Academic Local Energy

Supply, Conversion and Storage

Thermal storage ENIT ENIM

Heating (including heat pumps)

COALA ENIT ENIM

Cooling COALA ENIT ENIM


Climate adaptive facades

POLYCOQ, PERLA-Industrie, SOFRIFAC (fabricants d’isolant)

ISSTE de Gafsa ISSTE de Borj Cédria ENAUT (Ecole Nat. D’Architecture et d’Urbanisme de Tunis) ENIT

Energy efficient lightening and energy management systems

GLOBAL LIGHTING, FAWANIS

ISSTE de Gafsa ISSTE de Borj Cédria ENAUT (Ecole Nat. D’Architecture et d’Urbanisme de Tunis) ENIT EPT (Ecole Polythecnique de Tunis)

Ventilation COALA ENAUT (Ecole Nat. D’Architecture et d’Urbanisme de Tunis) ENIT

Urban Energy

Network

Thermal Networks ISSTE de Gafsa ENIM ENIT

Electricity networks

ISSTE de Gafsa ENIS EPT

Mobility networks Gaseous networks



2.3 Survey results from 14 actors in Renewable and Energy Efficiency

2.3.1 Survey questions Competence Mapping Survey question to Industrials players

GENERAL INFORMATION

TECHNOLOGY MAPPING

VALORIZATION

the following questions will be asked for each aggregated technological need/field selected as (4), (5) or (6) strategic index

RESEARCH AGREEMENT

the following questions will be asked for each aggregated technological need/field selected as 3, 4, 5 or 6 strategic index

13 How much was your company’s turnover in 2012 within KIC InnoEnergy topics? <100k€ 100k€<1M€ 1M€<10M€ 10M€< 100M€> 100M€

14 How many priority patents applications did your company (and affiliates) filed in within KIC topics: in 2010 in 2011 in 2012

Q 15. For each Technological need/field, indicate how strategic it is for your company, on a scale from 0 to 6

(0) No interest (1) Subject of technological watch but no activity (2) Stopped activity (3) New R&D interest and marketing efforts (4) Existing IP, R&D or products /services, but marginal

activity (5) Existing IP, R&D or products/services, not necessarily within the core business but within the corporate strategy (6) Pure Players

Questions can be answered at topic or subtopic level

Q16. How many new products and services covering this technological need/field has your company (and affiliates) already commercialized or planned to release before the end of 2013?

Products or services must cover a need corresponding to this technological need/field. Count only products or services created or developed, even partially, within your company. Count only one product for same products but covering different ranges of size,

power

0 1 3-‐4 >=5

Q17. Approximately, how much did those products and services represent within your company’s total turnover in 2012?

<5% 5%<20% 20%<50% >50%

Q18. How many new entities dealing with this technological need/field have been created by your company in the last 5 years?

>4 <100k€ 100k€-‐1M€1M€-‐10M€ >10M€

Approximate total raised fund for the selected number of spin-‐off/out

Spin-‐off, spin out #

0 1 2 3 <5% 5%<20% 20%<50% >50%

Approximately, how much did the added turnovers of the selected new branches or subsidiaries represent compared to your company’s turnover within KIC InnoEnergy topics in

2012?

New branches or subsidiaries #

0 1 2 3 >4

100k€-‐1M€ 1M€-‐10M€ >10M€

# Number

Approximately, how much did the added turnovers of the selected acquired companies represent compared to your

company’s turnover within KIC InnoEnergy topics in 2012?

Q19. How many entities dealing with this technological need/field did your company acquire in the last 5 years?

0 1 2 3 >4 <100k€

>5

All contracts where your company has to perform research or testing in collaboration with at least another entity, either public or private, wherever the funding comes, and

with the results shared by your company

Q20. How many different research agreements is your company involved in within this technological need/field?

0 1 2 3-‐4



Fig 2. Competence Mapping Survey Questions to Academic players GENERAL INFORMATION

TECHNOLOGY MAPPING

VALORIZATION

the following questions will be asked for each aggregated technological need/field selected as (4), (5) or (6) strategic index

RESEARCH AGREEMENT

the following questions will be asked for each aggregated technological need/field selected as 3, 4, 5 or 6 strategic index

<20k€ 20-‐100k€ 100k€-‐1M€ 1-‐10M€ ≥10M€

Sum, for all the selected research agreements, of what will be performed by your company in terms of human and material resources, wherever

comes the funding get by your company, external or inter

Q21. What is your company’s commitment within these research agreements? Q 22.Who are your 2 major project partners

Name 1 Name 2 Name 1 Name 2

Companies Research institutes and universities

1 2

Q23. According to you, which research institutes or universities are the most

relevant within this technological need/field?

13 How much was the annual research budget of your institution in 2012 within KIC InnoEnergy topics? <100k€ 100k€<1M€ 1M€<10M€ 10M€< 100M€> 100M€

14 How many researchers/year in your institution are working on KIC InnoEnergy topics? 0<5 5 to 20 20 to 100 >100

15 How many priority patents applications did your institution filed in within KIC topics: 2011 -‐ 2012 -‐ 2013 -‐

16 How many research publications did your institution filed in 2013 in within KIC topics ? 2013 -‐

Q 17. For each Technological need/field, indicate how strategic it is for your institution, on a scale from 0 to 6

(0) No interest (1) Subject of technological watch but no activity (2) Stopped activity (3) New R&D interest and marketing efforts (4) Existing IP, R&D or products /services, but marginal

activity (5) Existing IP, R&D or products/services, not necessarily within the core business but within the corporate strategy (6) Pure Players

Questions can be answered at topic or subtopic level

Q18. How many licenses of products and/or services covering this technological need/field have been signed in the last 5 years?

Include all l icenses, option and assignments of all kind of IP (patents, know-‐how, copyrights, trademark…). Count l icenses on the same IP but to different companies as only one license if each licence value is less than 1k€.

A licence grants the right to use IP in a defined field of use and/or territory. An option grants the potential l icensee a time period to evaluate the technology and negotiate the terms of a l icense. An assignment transfers all or part of the right to IP to the licensee.]

>51 2 3 to 4 0

Q19. Approximately, how much was your institution's income from those licenses in the last 3 years?

Total income from all types of IP (patents, know-‐how, copyrights, material transfer agreements…) before disbursement to other parties or inventors. Include license issue fees, annual royalties, annual maintenance fees, sublicensing incomes, option fees, milestone and termination payments.

> 1 M euros 0 < 10 K euros 10-‐100 K euros 100 K -‐ 1 M euros >5

Q20. How many spin-‐offs dealing with this technological need/field were developed from your institution in the last 5 years?

A new company established to develop or exploit IP created by your institution.

0 1 2 3-‐4

Q21. How many different research agreements including industrial entities is your institution involved in within this technological need/field?

0 1 2 3-‐4 >5

All contracts where your institution has to perform research or testing in collaboration with at least another industrial company, wherever the funding comes, and with the results shared

partially or totally with the company(ies)

20-‐100K euros 100K -‐1 M euros 1 -‐10 M euros ≥10M euros

Sum, for all the selected research agreements, of what will be performed by your institution in terms of human and material resources, wherever comes the funding get by your

institution, external or internal

<20K euros

Q22. What is your institution commitment within these research agreements?



2.3.2 List of contact for interviews Table 7. List of Tunisian contacts for The Competence Mapping Survey

Table 8. List of Moroccan contacts for the Competence Mapping Survey

[….]

Q24. What is your institution commitment within these research agreements?

Sum, for all the selected research agreements, of what will be performed by your institution in terms of human and material resources, wherever comes the funding get by your institution, external or internal

<20K euros 20-‐100K euros ≥10M euros100K -‐ M euros 1-‐10M euros 2. Name

Q26. According to you, which companies are the most relevant within this technological need/field?

Compagnies

Q25. Who are your 4 major project partners?

Compagnies Research institutes and universities

3. Name 4. Name 1. Name1. Name 2. Name

Universities Family Name and First Name Institution Website E-‐mail AddressEl ALIMI Souhei l ENIM -‐ Ecole Nationale d'Ingénieurs de Monasti r www.enim.tn souhei l .ela l imi@gmai l .com

M. Abdelmajid Jemni ENIM -‐ Ecole Nationale d'Ingénieurs de Monasti r www.enim.tnCHAABOUNI Refaat ENIT -‐ Ecole Nationale d'Ingénieurs de Tunis www.enit.rnu.tn [email protected]

SOUSSI Meriem ENIT -‐ Ecole Nationale d'Ingénieurs de Tunis www.enit.rnu.tn souss [email protected]

ZNOUDA Ess ia ENIT -‐ Ecole Nationale d'Ingénieurs de Tunis www.enit.rnu.tn znouda_ess [email protected]

BELHADJ Jamel ENSIT -‐ Ecole Nationale Supérieure d'Ingénieurs de Tunis www.ensit.tn Jamel [email protected]

MEZNI Taoufik ENSIT -‐ Ecole Nationale Supérieure d'Ingénieurs de Tunis www.ensit.tn mezni [email protected]

M. Afi f El Cafs i CRTEn -‐ Centre de Recherches et des Technologies de l 'Energie www.crten.rnrt.tn

MAATALLAH TaherISSTEG -‐ Insti tut Supérieur des Sciences et des Technologies del 'Energie de Gafsa www.issteg.rnu.tn [email protected]

R&D Centers

Senior Engineer, MHESR/ICT -‐ CRTEn Tunis ia [email protected] Service -‐ Head of the Technology Transfer Office of CRTEn(TTO.CRTEn) [email protected]

du Centre de Recherches et des Technologies de l 'Energie

GUIZANI AmenAl lah CRTEn -‐ Centre de Recherches et des Technologies de l 'Energie www.crten.rnrt.tn amenal [email protected]

CHOUIKH Ridha CRTEn -‐ Centre de Recherches et des Technologies de l 'Energie crten.rnrt.tn [email protected]

Industrials

M. Amor Ben TayebSOFTEN (Filiale du groupe GIORDANO industries, leaders Français de l’énergie solaire)BSI -‐ Biome Solar Industry

Gérant de la société

M. Mohamed Trabels i "Global Lighting"[1] [email protected]

BABA Abdal lah AES -‐ Al ternative Energy Systems www.aes-‐tunisie.com [email protected] JELLOULI Yacine CLIMA-‐CONSEIL www.climaconseil@com [email protected] TOUMI Khaled Sagemcom Software & Technologies Tunis ia www.sagemcom.com toumi.khaled@gmai l .com

BEN CHARFEDDINE Adnene QUALIMEX chad@qual imex.com.tn

M. Fethi Khedder "Frigan" (fabricant des réfrigérateurs)[2] [email protected]

M. Ahmed Ernez www.biomesolar.com [email protected]

M. KBAIER Zied www.crten.rnrt.tn

BESSAÏS Brahim CRTEn -‐ Centre de Recherches et des Technologies de l 'Energie www.crten.rnrt.tn brahim.bessa [email protected]

M. Fathi Zagrouba ISSTEG -‐ Insti tut Supérieur des Sciences et des Technologies del 'Energie de Gafsa www.issteg.rnu.tn [email protected]



2.3.3 Synthetic results

Total – 14 replies.

Tunisia – 2 industrials, 4 academics.

Morocco – 8 academics

Table 7. Summary of Survey Reponses

Name of the institution Academic or Industrial

Contact # of identified

subtopics out of 125Subtopics in RE Subtopic in EE

# of subtopics with interest level > 4

# of subtopics with specific aswers

Tunisia AES (Alternative Energy Systems Sarl) Industrial Abdallah BABA 41 26 15 10 0CLIMA-‐CONSEIL Industrial Yacine JELLOULI 16 1 15 5 3CRTEn Academic Brahim / AmenAllah / Zied BESSAÏS / GUIZANI / KBAIER37 19 18 1 0ENIM Academic Souheil / Abdelmajid El Alimi / Jemni 24 12 12 15 2ENSIT / LSE-‐ENIT Academic Jamel BELHADJ 16 13 3 7 7Higher Institute of Science and Technology of Energy, Gafsa

Academic Taher MAATALLAH 75 38 37 0 0

Morocco Société Marocaine de Développement des Energies Renouvelables (SMADER) Academic Driss ZEJLI 36 24 12 0 0Université Mohammed V-‐Agdal de Rabat Academic Rachid TADILI 29 18 11 1 0Al Akhawayn University, Ifrane Academic Anas BENTAMY 7 6 1 0 0University Mohammed I Academic Ahmed MEZRHAB 121 44 77 44 0Univesity Abdelamalek Essadi Academic Abdelaziz MIMET 0 0 0 0 0

Tarik CHAFIK 7 5 2 0 0Ibn Zohr University Academic Salma EL AIMANI 3 3 0 3 0Université Mohammed I -‐ Laboratoire OLMAN-‐RL (Observatoire de la Lagune Marchica de Nador et Région Limitrophe)

Academic Abdelkader Doudou 4 2 2 4 0



3 Mapping worldwide Innovation competences against Maghrenov’s Roadmap

Some of the regional priorities in Renewables and Energy Efficiency are also addressed by worldwide players. This chapter presents the Top 10 industrial and Top 10 academic worldwide players per detailed Maghrenov’s priorities.

3.1 Worldwide actors as identified in KIC InnoEnergy Competence Mapping in Renewable Energies

3.1.1 In Wind Energy

Table 8. Maghrenov’s Wind Energy priorities and worldwide Competence Mapping

1.1.1 Advanced Wind Farm control strategy KIC IE priority

W1.1. Monitoring systemsW1.2. Tools

1.1.2 Improvement in Operation and Maintenance strategies KIC IE priority W1.2. Tools

1.2.1Development of adapted wind turbine designs and standards

Maghrenov priority

1.2.2Optimisation of WTG components and new products adapted to mediteranean conditions

Maghrenov priority

1.3.1 Development and update of wind energy atlases Maghrenov priority

1.3.2 Improvement in siting and micrositing Maghrenov priority

1.3.3 Improvement in wind forecasting and nowcasting KIC IE priority

W1.1. Monitoring systemsW1.2. Tools

1.4.1 Improvement in manufacturing processes Maghrenov priority

1.4.2 Improvement of logistic Maghrenov priority

1.5.1 Grid integration strategies at power system level KIC IE priority

W1.2. ToolsW4.1. Power transmission systems: electrical infrastructure and floating substations (offshore)

1.5.2 Energy Storage and smart grid managementKIC IE priority (new)

1.5.3 Long distance transmission and Euromed interconnection Maghrenov priority

1.6.1Design and adapted standards for small and mid-‐scale wind turbines.

Maghrenov priority

1.6.2 Development of hybrid system. Maghrenov priority

TechnologyTopic nº

TOPIC nameSubtopic

nº

WIND

1.1Wind Farm and O&M

improvements

1.2

Wind assessment1.3

1.5Power transmission and

grid integration

1.6Small & Mid-‐Scale Wind

Turbunes

1.4 Manufacturing and logistics

Design and components adapted to local conditions

Subtopic name / project ideasRelation to

KIC IE priorities

Corresponding KIC InnoEnergy priority segment in existing

Competence Mapping



W1.1. Monitoring systems



W1.2. Tools



W4.1. Power transmission systems: electrical infrastructure and floating substations (offshore)



3.1.2 In PV

Table 9. Maghrenov’s PV priorities and worldwide Competence Mapping

TechnologyTopic nº

TOPIC nameSubtopic

nºSubtopic name / project ideas

Relation to KIC IE

priorities


Competence Mapping

2.1.1 Targeted improvement in solar cell technology Maghrenov priority

2.1.2Targeted improvement in cell and module design and manufacturing/production

Maghrenov priority

2.1.3 Targeted improvement in Balance of Pant Maghrenov priority

2.1.4 Development of adapted certification strategies Maghrenov priority

2.2.1Adaptation of existing technologies to typical technical specifications for Northern Africa regions.

Maghrenov priority

2.2.2Development of product selection and specific certification strategies

Maghrenov priority

2.2.3 Development of adapted cleaning systems Maghrenov priority

2.3.1Design of systems and their components to improve PV grid integration capabilities

KIC IE priority S.3.1.2. Grid Integration

2.3.2Improvement of forecasting and nowcasting of PV production based on meteological data

KIC IE priority

S.3.1.2. Grid Integration

2.3.3Proof of concept for Smart Grid projects in combination with smart PV systems

Maghrenov priority

2.4.1Low cost highly reliable components for autonomous systems, including production devices and storage.

KIC IE priority

2.4.2Monitoring and control of the electrochemical storage of solar energy.

KIC IE priority

2.4.3 Monitoring PV systems in isolated remote areas KIC IE priority

2.4.4 Applications to water pumping and desalination. Maghrenov priority

2.5.1 Building Integrated PV (BIPV) KIC IE priority

2.5.2Development of dedicated solution/uses to enhance the use of BIPV systems

KIC IE priority

2.4 Autononous power systems

2.5 BIPV

PV

2.1 PV cells and modules

2.2Design and components

adapted to local conditions

2.3 PV Systems integration

S.3.1.1. Building & Storage Integration



S3.1.1 Integration in the building



S3.1.2 Integration to the grid



3.1.3 In STE

Table 10. Maghrenov’s Solar Thermal Energy priorities and worldwide Competence Mapping

TechnologyTopic nº

TOPIC nameSubtopic


Relation to KIC IE

priorities


Competence Mapping

3.1.1 Alternative working fluids Maghrenov priority

3.1.2 Alternative heat transfer fluids KIC IE priority

STE1.3. New working fluids for higher temperatures

3.1.3 Innovative cycles Maghrenov priority

3.1.4Higher-‐temperature receivers and improved selective coatings

KIC IE priority

STE1.4. Better selective coatings of receivers

3.1.5 Software implementation -‐ Design and operationKIC IE priority (new)

3.1.6 Optimised collector and collector field design KIC IE priority

STE2.2. Improved new solar concentrators design

3.2.1 Modular design Maghrenov priority

3.2.2 Reduced water consumption during mirror cleaning and low-‐soiling characteristics

KIC IE priority


3.2.3 Water free mirror cleaning Maghrenov priority

3.2.4 Improved dry-‐cooling systems KIC IE priority

STE4.2. More efficient dry-‐cooling systems

3.2.5 Durability and lifetime assessment of key components KIC IE priority

STE2.3. Improved durability of key components

3.2.6 Design of piping and instrumentation tools Maghrenov priority

3.3.1 Thermochemical storage Maghrenov priority

3.3.2 Improve attributes of the storage systems KIC IE priority

STE3.1. Improved sensible heat storage concepts

3.3.3Use the grid as storage medium (smart grid) and include weather prediction

KIC IE priority

STE3.2. Optimization of storage configuration and operation & control

3.3.4 Hybridisation conceptsKIC IE priority (new)

3.3.5 Hybridisation conceptsKIC IE priority (new)

STE

3.1 Higher plant efficiency

3.2Lower investment and O&M

costs and increased sustainability

3.3 Thermal storage



STE1.3. New working fluids for higher temperatures



STE2.2. Improved new solar concentrators design



STE4.2.1. Dry cooling systems for Solar thermal installations



STE2.3. Improved durability of key components



STE3.1. Improved sensible heat storage concepts



STE3.2. Optimization of storage configuration and operation & control



3.2 Worldwide actors as identified in KIC InnoEnergy Competence Mapping in Energy Efficiency

3.2.1 In Local Energy storage

Table 11. Maghrenov’s Local Energy Storage priorities and worldwide Competence Mapping

5.1.1Compact storage systems based on thermochemical principles for heating. Solar driven.

KIC IE priority

SBC1.1.1. Compact storage systems based on thermochemical principles for heating. Solar driven.

5.1.2 Compact storage systems to increase the cooling capacity during summer, driven by district heating

KIC IE priority

SBC1.1.2. Compact storage system to increase the cooling capacity during summer, driven by district heating

5.1.3ESCo based on innovative energy management algorithm for boreholes

KIC IE priority

SBC1.1.3. ESCo based on innovative energy management algorithm for boreholes

5.1.4 Demand side management enabled active and passive storage

KIC IE priority

SBC1.1.4. Demand side management enabled by active or passive storage in order to avoid grid problems

5.2.1 Micro chip for small non-‐residential buildings KIC IE priority

SBC1.2.1. Micro CHP for small non-‐residential buildings

5.2.2Optimal integrated design tool and control alorithm for the combination of ground coupled heat pump systems

Maghrenov priority

5.2.3 Heat pump based on natural refrigerants for existing buildings for heating and domestic water

KIC IE priority

SBC1.2.3. Heat pump based on natural refrigerants for existing buildings for heating and domestic water.

5.3.1Solar assisted cooling based on absorption principles, for existing dwellings

KIC IE priority

SBC1.3.1. Solar assisted cooling based on absorption principles for existing dwellings

5.3.2Fast local heating and cooling systems based on occupancy/presence

KIC IE priority

SBC1.3.2. Fast local heating and cooling system based on occupancy/presence

5.3.3Energy efficient, fast reacting, user-‐centred, comfort on demand system for offices

KIC IE priority

SBC1.3.3. Energy efficient, fast reacting, user-‐centred, comfort on demand system for offices


Cooling

Local Energy Supply,

Conversion and Storage

5.1 Thermal storage

5.2 Heating (including heat pumps)

5.3

Technology Topic nº

TOPIC name Subtopic nº

Subtopic name / project ideas Relation to KIC IE



SBC1.1.1. Compact storage systems based on thermochemical principles for heating. Solar driven. + SBC1.1.2. Compact storage system to increase the cooling capacity during summer, driven by district heating



SBC1.1.3. ESCo based on innovative energy management algorithm for boreholes



SBC1.1.4. Demand side management enabled by active or passive storage in order to avoid grid problems



SBC1.2.1. Micro CHP for small non-residential buildings



SBC1.2.3. Heat pump based on natural refrigerants for existing buildings for heating and domestic water



SBC1.3.1. Solar assisted cooling based on absorption principles for existing dwellings



SBC1.3.2. Fast local heating and cooling system based on occupancy/presence



SBC1.3.3. Energy efficient, fast reacting, user-centred, comfort on demand system for offices



3.2.2 In Energy Efficient Buildings

Table 12. Maghrenov’s Energy Efficient Buildings priorities and worldwide Competence Mapping


TechnologyTopic nº

TOPIC nameSubtopic


Relation to KIC IE

6.1.1Adaptable facade systems (adaptation of solar/ light transmittance, insulation quality)

KIC IE priority

SBC2.1.1. Adaptable facade systems (adaptation of solar/light transmittance, insulation quality)SBC2.1.4. Transparent PC sheets coated on windows: Active windowsSBC2.1.5. Time adjustable IR coating for windows: active windows

6.1.2Quick and cost-‐effective insulation method reducing cold bridges

Maghrenov priority

6.1.3PCM integrated building components and control system to optimise the use of thermal capacity of a building

KIC IE priority

SBC2.1.3. PCM integrated building components and control system to optimise the use of thermal capacity of a building

6.1.4Transparent PV sheets coated on windows: Active windows

KIC IE priority


6.1.5Time adjustable IR coating for windows: Active windows

KIC IE priority


6.2.1Intelligent controlled lightening based on human activity, presence and amount of daylight

Maghrenov priority

6.2.2In-‐home intelligence: user feedback system with integrated analysis and advices function

KIC IE priority

SBC2.2.2. In-‐home intelligence: user feedback system with integrated analyses and active function

6.3.1 Technologies to implement or enhance demand controlled ventilation systems

KIC IE priority

6.3.2 Maintenance free, energy efficient filtration systems integrated in ventilation ducts

KIC IE priority

6.3.3 Multi-‐zone demand controlled ventilation systems KIC IE priority

6.3.4System to recover heat from exhaust ventilation systems with natural supply (so called C ventilation)

KIC IE priority

6.3.5 New more-‐cost effective sensors for demand controlled ventilation systems

KIC IE priority

6.3 Ventilation


6.1Climate adaptive

facades

6.2Energy efficient

lightening and energy management systems

NRE3.2. HVAC (Heating, Ventilation, and Air Conditioning)



SBC2.1.1. Adaptable facade systems (adaptation of solar/light transmittance, insulation quality) + SBC2.1.4. Transparent PC sheets coated on windows: Active windows +SBC2.1.5. Time adjustable IR coating for windows: active windows



SBC2.1.3. PCM integrated building components and control system to optimise the use of thermal capacity of a build



SBC2.2.2. In-home intelligence: user feedback system with integrated analyses and active function



NRE3.2. HVAC (Heating, Ventilation, and Air Conditioning)



3.2.3 In Urban energy priorities

Table 13. Maghrenov’s Urban Energy priorities and worldwide Competence Mapping


TechnologyTopic nº

TOPIC nameSubtopic


Relation to KIC IE

8.1.1Integrated decision tool box for urban energy scenario analysis

Maghrenov priority

8.1.2Tools for energy concept analysis including urban planning

Maghrenov priority

8.1.3Integrated KPI's monitoring system for urban energy system

Maghrenov priority

8.1.4ESCO offering complete spectrum energy transition to city stakeholders

Maghrenov priority

8.1.5Additional decision tools for interactions with other urban aspects: waste, mobility, water

Maghrenov priority

8.2.1IT plateform for urban energy data exchange integrated in global urban IT infrastructure

Maghrenov priority

8.2.2Dataprocessing intelligence for intercation of urban energy data in finction of new urban energy services

KIC IE priority

8.2.3New energy low cost monitoring/high quality energy monitoring equipment for cities

Maghrenov priority

8.3.1ESCO for energy building renovation with limited risks and investments for end-‐user

Maghrenov priority

8.3.2ESCO for energy flexibility analysis/management of the urban energy system

Maghrenov priority

8.3.3 ESCO urban energy system transitions Maghrenov priority

8.3.4 ESCO for districts heating/cooling Maghrenov priority

Energy in cities

8.1 Urban energy system transition

8.2 Energy data technologies

8.3New urban energy

services

SG1.3. ICT systems for enhancements of existing distribution assets into Smart Grids and market models



SG1.3. ICT systems for enhancements of existing distribution assets into Smart Grids and market models



3.2.4 In Energy Efficiency in the industry

Table 14. Maghrenov’s Energy Efficiency priorities and worldwide Competence Mapping

NRE3.4. Heat Recovery and Heat Valorisation in industrial processes


TechnologyTopic nº

TOPIC nameSubtopic


Relation to KIC IE

11.1Using the waste heat for other goals

KIC IE priority

NRE3.4. Heat Recovery and Heat Valorization in industrial processes

11.2Monitoring energy consumption and benchmarking

KIC IE priority

NRE3.3. Energy Management Sensors and Solutions

11.3

The generation of own renewable energy by PV, Wind, Solar thermal (steam), storage

Maghrenov priority

11.4Complexe restructuring the industrial process

Maghrenov priority

Energy Efficiency in the Industry

maghrenov deliverable 3.4: catalogue of evaluated competence

Environment