BrainMap

Mr. Bogdan-Alexandru Onose

PhD

PhD. Scientific Researcher III - SMART RENOWABLE ENERGY S.R.L.

Other affiliations

PhD. Scientific Researcher III - ASOCIATIA INOVARE SI DEZVOLTARE IN ENERGIE IDEA (Romania)

Researcher

Expertise & keywords

Digital solutions for improving the sustainability performance and FLEXibility potential of HYDROpower assets Call name:
HORIZON-CL5-2022-D3-03-08 2023 - 2026

Role in this project: Partner team leader

Coordinating institution: UBITECH ENERGY

Project partners: UBITECH ENERGY (); ASOCIATIA INOVARE SI DEZVOLTARE IN ENERGIE IDEA ()

Affiliation: ASOCIATIA INOVARE SI DEZVOLTARE IN ENERGIE IDEA ()

Project website: https://d-hydroflex.eu

Abstract:

The core pillars of D-HYDROFLEX project are:

• Digitalisation: Leveraging SCADA data to create a digital twin for hydro plants, enabling predictive maintenance and real-time monitoring. Advanced technologies like predictive analytics, neural networks, and CRISP-DM in Python aid decision support. Data privacy and cyber-resilience are ensured through the F-box security tool based on deep learning.

• Flexibility: Enhancing hydro plant performance using digital twin technology. It optimizes energy production, detects faults early for predictive maintenance, and ensures flexibility to adapt to energy system demands. The project also explores hybridization with hydrogen storage for innovative flexibility provision, aiming to revolutionize hydro plant operations and promote new business models.

• Sustainability: Supporting biodiversity and environmental impact monitoring. Acoustic and image cameras with respective algorithms will collect and analyse the data for fish species analysis. Turbine discharge measurement technology in Polish demo will be used for water usage understanding. Environmental indicators in Spanish demo will be used to improve regulatory compliance monitoring for hydro plant operations and environmental planning.

integRatEd Solutions for POsitive eNergy and reSilient CitiEs Call name: EC - H2020
H2020-231041-957751 2020 - 2025

Role in this project: Partner team leader

Coordinating institution: EIFER EUROPAISCHES INSTITUT FUR ENERGIEFORSCHUNG EDF KIT EWIV

Project partners: EIFER EUROPAISCHES INSTITUT FUR ENERGIEFORSCHUNG EDF KIT EWIV (DE); CITY OF TURKU (FI); OGGA (FR); FUNDACION CIRCE CENTRO DE INVESTIGACION DE RECURSOS Y CONSUMOS ENERGETICOS (ES); DIJON METROPOLE (FR); ENEDIS (FR); UP4NORTH (BE); OY TURKU ENERGIA - ABO ENERGI AB (FI); MUNICIPALITY OF GABROVO (BG); AYUNTAMIENTO DE ZARAGOZA (ES); ETHNIKO KENTRO EREVNAS KAI TECHNOLOGIKIS ANAPTYXIS (EL); GRAND DIJON HABITAT (FR); ELECTRICITE DE FRANCE (FR); SOCIEDADE PORTUGUESA DE INOVACAO CONSULTADORIA EMPRESARIAL E FOMENTO DA INOVACAO SA (PT); TEKNOLOGIAN TUTKIMUSKESKUS VTT OY (FI); NATIONAL TECHNICAL UNIVERSITY OF ATHENS - NTUA (EL); DIMOS EORDAIAS (EL); ELISA OYJ (FI); CIVOCRACY BV (NL); UNIVERSIDAD PONTIFICIA COMILLAS (ES); PANGA (FR); FERROAMP ELEKTRONIK AB (SE); RINA CONSULTING SPA (IT); HOGFORSGST OY (FI); TURKU CITY DATA OY (FI); CORIANCE (FR); SARL NANOSENSE (FR); SAHKO-JOKINEN OY (FI); OFFICE PUBLIC DE L HABITAT DE LA COTE D OR (FR); COMMUNE DE DIJON (FR); TURUN AMMATTIKORKEAKOULU OY (FI); K.I.D.S A.I'S (FR); ATMO BOURGOGNE FRANCHE COMTE (FR); TURUN YLIOPPILASKYLASAATIO (FI); INSTITUTULUI NATIONAL DE CERCETARE DEZVOLTARE PENTRU INGINERIE ELECTRICA ICPE-CA BUCURESTI (RO); SUNAMP LIMITED (UK); ILMATIETEEN LAITOS (FI); ELCON SOLUTIONS OY (FI); BOUYGUES CONSTRUCTION (FR); COMMUNAUTE D' UNIVERSITES ET ETABLISSEMENTS UNIVERSITE BOURGOGNE - FRANCHE - COMTE (FR); VILLE DE BRUXELLES (BE); FAFCO (FR); INNOVATIVE ENERGY AND INFORMATION TECHNOLOGIES LTD (BG); OILON TECHNOLOGY OY (FI); CNET SVENSKA AB (SE); ONYX SOLAR ENERGY SL (ES); SOLAR FINLAND OY (FI); HR-IKKUNAT RUHKALA OY (FI); TURUN YLIOPISTO (FI); ISOLUTIONS LLC (UA); REGIONAL DEVELOPMENT AGENCY OF LUGANSK REGION (UA); MUNICIPIUL BOTOSANI (RO); ALYSEO (FR); SOCIETE D'INGENIERIE DE REALISATIONS ELECTRIQUES ET D'AUTOMATIS_MES (FR); KEMIWATT (FR); DREEV (FR); UNIVERSITE DIJON BOURGOGNE (FR); EYFYEIS LYSEIS GIA KTIRIA MIDENIKOUKAI THETIKOU ENERGEIAKOU ISOZYGIOU- KOMVOS PSIFIAKIS KAINOTOMIAS AMKE (GR); ZNR BATTERIES (FR); FUNDACION ZARAGOZA CIUDAD DE CONOCIMIENTO (ES)

Affiliation: INSTITUTULUI NATIONAL DE CERCETARE DEZVOLTARE PENTRU INGINERIE ELECTRICA ICPE-CA BUCURESTI (RO)

Project website:

Abstract:

High-Quality Data-Driven Services for a Digital Built Environment towards a Climate-Neutral Building Stock Call name: EC - Horizon Europe
Horizon-239518-101069658 2022 - 2025

Role in this project: Partner team leader

Coordinating institution: Institution

Project partners: UNIVERSITY COLLEGE LONDON (GB); ENGINEERING - INGEGNERIA INFORMATICA SPA (IT); IRON THERMOILEKTRIKI ANONYMI ETAIREIA (GR); FORUM VIRIUM HELSINKI OY (FI); ELECTRICITE DE FRANCE (FR); MUNICIPIUL IASI (RO); ETHNICON METSOVION POLYTECHNION (GR); INSTITUTE FOR EUROPEAN ENERGY AND CLIMATE POLICY STICHTING (NL); CNET CENTRE FOR NEW ENERGY TECHNOLOGIES SA (PT); FOCCHI SPA (IT); EUROHEAT & POWER (BE); VEOLIA SERVICIOS LECAM SOCIEDAD ANONIMA UNIPERSONAL (ES); FUNDACION CARTIF (ES); EMOTION SRL (IT); UNIVERSITA POLITECNICA DELLE MARCHE (IT); SITTA RESEARCH SRL (RO); CWARE APS (DK)

Affiliation: SITTA RESEARCH SRL (RO)

Project website:

Abstract:

TECHNOLOGIES AND INTELLIGENT EQUIPMENT TO INCREASE PRODUCTIVITY IN PROTECTED AREAS, ENERGY INDEPENDENT Call name:
ADER 25.2.1 2019 - 2022

Role in this project: Key expert

Coordinating institution: INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE PENTRU MASINI SI INSTALATII DESTINATE AGRICULTURII SI INDUSTRIEI ALIMENTARE - INMA

Project partners: INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE PENTRU MASINI SI INSTALATII DESTINATE AGRICULTURII SI INDUSTRIEI ALIMENTARE - INMA (); INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE PENTRU INGINERIE ELECTRICA ICPE - CA BUCURESTI ()

Affiliation: INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE PENTRU MASINI SI INSTALATII DESTINATE AGRICULTURII SI INDUSTRIEI ALIMENTARE - INMA ()

Project website: http://www.inma.ro/ADER_2020/25_2_1.htm

Abstract:

Project objective:

- designing and realizing a functional model of smart greenhouse;

- designing and creating an experimental model of a smart greenhouse;

- creating a farmer's information application in real time;

- development of an experimental model of intelligent equipment for crop maintenance works in protected areas

INNOVATIVE TECHNOLOGIES FOR IRRIGATION OF AGRICULTURAL CROPS IN ARID, SEMIARID AND SUBHUMID-DRY CLIMATE Call name: P 1 - SP 1.2 - Proiecte complexe realizate in consorții CDI
PN-III-P1-1.2-PCCDI-2017-0254 2018 - 2021

Role in this project: Key expert

Coordinating institution: INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE PENTRU MASINI SI INSTALATII DESTINATE AGRICULTURII SI INDUSTRIEI ALIMENTARE - INMA

Project partners: INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE PENTRU MASINI SI INSTALATII DESTINATE AGRICULTURII SI INDUSTRIEI ALIMENTARE - INMA (RO); INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE PENTRU INGINERIE ELECTRICA ICPE - CA BUCURESTI (RO); STATIUNEA DE CERCETARE DEZVOLTARE PENTRU CULTURA PLANTELOR PE NISIPURI (RO); INSTITUTUL NAŢIONAL DE CERCETARE-DEZVOLTARE PENTRU PROTECŢIA MEDIULUI BUCUREŞTI (RO); INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE PENTRU OPTOELECTRONICA INOE 2000 INCD (RO); UNIVERSITATEA DE STIINTE AGRONOMICE SI MEDICINA VETERINARA (RO); UNIVERSITATEA POLITEHNICA DIN BUCURESTI (RO); STATIUNEA DE CERCETARE-DEZVOLTARE PENTRU POMICULTURA CONSTANTA (RO)

Affiliation: INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE PENTRU INGINERIE ELECTRICA ICPE - CA BUCURESTI (RO)

Project website: http://smartirrig.inma.ro

Abstract:

This Complex Project is part of the National Strategy for Research, Development and Innovation 2014-2020 in the field of intelligent specialization Energy, Environment and Climate Change, on optimal use of conventional and unconventional water resources and in the National Strategy for Sustainable Development of Romania Horizons 2013- 2020-2030 on anticipating the effects of climate change and developing early crisis plans for natural or anthropic phenomena. Some areas with endemic drought tend to be affected by aridation (deepwater level) and even desertification (vegetative carpet disappearance and soil degradation). In southern Dolj county there are approx. 105.000 hectares covered by sand dunes, the area being called "Sahara Olteniei". The purpose of the Complex Project is to increase the institutional performance of research - development - innovation in the field of innovative technologies for irrigation in arid, semiarid and sub - dry climates, by using and developing the research infrastructure of the consortium partners. Consortium consist of 8 public research organizations: INMA, ICPE-CA, INCDPM, INOE 2000-IHP, UPB, USAMV, CCDCPN Dabuleni and SCDP Constanta. The expected results of the complex project are: 13 new research jobs; 7 national patent applications; The realization and transfer in the economic environment of 6 new products, 1 significantly improved product, 3 new technologies, 1 improved technology and 3 new research services; The research services offer for A1 and A2 checks presented on the Erris platform; Internships for young researchers and work visits for experienced researchers B-type; Training the new human resource engaged in C checks; Joint RDI program in the field of irrigation intelligent technologies, correlated with the institutional development plan of each partner.

end-users Tools to Empower and raise Awareness of Behavioural CHange towards EneRgy efficiency Call name:
H2020-EE-2017-RIA-IA 2017 - 2020

Role in this project: Partner team leader

Coordinating institution: CENTRO DE ESTUDIOS DE MATERIALES Y CONTROL DE OBRA SA

Project partners: CENTRO DE ESTUDIOS DE MATERIALES Y CONTROL DE OBRA SA (RO); ICPE S.A. (RO)

Affiliation: ICPE S.A. (RO)

Project website: http://www.eteacher-project.eu/

Abstract:

eTEACHER concept consists of encouraging and enabling energy behaviour change of building users by means of continuous interventions displayed through a set of empower tools to drive informed decisions in order to save energy and optimise indoor environment quality. These empower tools are a set of ICT solutions that ensures friendly connection in between end-users and building systems, implement continuous behavioral change interventions and provide tailored advice. The tools can be classified into BACS (Building Automation and Control Systems) add-ons and end-user friendly solutions. The BACS add-ons (What-if-Analysis, data processing and universal BACS/monitoring system interface) are responsible for collecting information from the building, pre-processing data to focus on relevant metrics related to the use of energy and indoor environmental quality, exploring potential energy conservation measures (ECMs) and post-processing data in order to present it in a way that can have more impact on users behavior.The user friendly solutions are energy efficiency and comfort advisor apps for end-users devices (mobiles, smartTV, smartwatch, dashboarding). These apps show the ECMs identified by BACS-addons and integrates ICT-based behavioural change techniques such as gamification (games, challenges, bonus system, energy literacy, energy visibility, etc.) according to different roles (visitors, facility managers, owner, etc.) as building users and according to cultural and demographic indicators. An important feature of the advisor apps is that they collect feedback from end-users regarding comfort and satisfaction that are used to customise ECMs and engagement techniques. The project is demonstrated in 12 real buildings located h 3 different climate conditions. The pilots located in Spain are 2 residential buildings, 2 schools and 2 health care centres. The pilots located in UK are an office building and a school. The Romania pilots are 4 residential buildings.

Transfer of knowledge to the private environment in the energy field based on the scientific experience of ICPE-CA Call name:
2016 - 2020

Role in this project: Key expert

Coordinating institution: INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE PENTRU INGINERIE ELECTRICA ICPE - CA BUCURESTI

Project partners: INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE PENTRU INGINERIE ELECTRICA ICPE - CA BUCURESTI ()

Affiliation: INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE PENTRU INGINERIE ELECTRICA ICPE - CA BUCURESTI ()

Project website: https://www.transenerg.ro/

Abstract:

Complex decision support tool to optimizing the technical operation of PV plants Call name: P 2 - SP 2.1 - Proiect de transfer la operatorul economic
PN-III-P2-2.1-PTE-2016-0032 2016 - 2018

Role in this project: Key expert

Coordinating institution: ICPE S.A.

Project partners: ICPE S.A. (RO); ACADEMIA DE STUDII ECONOMICE (RO); ROENER ENERGYPRO S.R.L. (RO)

Affiliation: ICPE S.A. (RO)

Project website: http://www.icpe.ro/OPTIMPV

Abstract:

Promoting renewables at the national level is reaching a new dimension at the moment, being closely related to the launch of a feed-in tariff scheme but it is more important to maximize the power generation while giving stability to the current investments so as to achieve high rates of power performance.

Up to now the promotion schemes have been more oriented towards investment and increase in profitability and they have left as marginal the issues regarding the production with a high efficiency and the achievement of an optimal power production based on investments.

The project’s goal is exactly the initiation of an monitoring, command and control system, based on a cloud solution that is able to support the decision process, in order to increase power production and profits, but also to maintain the best condition of equipments from the renewable energy power plant.

The launched issue is based on models of analysis, information systems able to integrate fixed and dynamic procedures, weather forecasts, intelligent databases, data and nominal characteristics, data and actual performances required to find a technical and economical optimum.

At the national level, the optimization of power production capacities can only have a positive impact; from the load curve obtained from Romanian National Power System (SEN) published by Transelectrica, it can be noticed that the days with great solar potential are making the power injected into the network hardly exceed 50% of the installed power, which proves that the existing green certificates scheme, in the field of PV, left on the last place the production performance, hence the current very strong demand to develop intelligent systems able to be included in the decision-making chain of the PV power plant operator in order to maximize the revenues.

Cost-effective and sustainable Bio-Renewable Indoor Materials with high potential for customization and creative design in Energy Efficient buildings Call name:
FP7-2013-NMP-ENV-EeB 2013 - 2017

Role in this project: Key expert

Coordinating institution: RINA CONSULTING SPA

Project partners: RINA CONSULTING SPA (RO); ICPE S.A. (RO)

Affiliation: ICPE S.A. (RO)

Project website: http://www.brimee.eu/

Abstract:

The challenge of today lies in the accomplishment of sustainable and low-energy buildings, which can combine at the same time the thermal insulation properties with healthy, comfortable, accessible and safe indoor environment. Reduction of the energy demand through the use of insulating materials still remains a challenge for European architects and building designers as well as materials producers. Beside good and consistent thermal and acoustic performance overtime, a good and marketable insulation material should in fact be self-extinguishing, not degradable, unshrinkable or non-settling, safe during handling and installation, low cost and should not pollute the indoor building environment, while having a low embodied energy, proven through LCA assessment. The main aim of the BRIMEE project is therefore to combine the development of better performing insulation materials for improving buildings energy performance and having as final overall objective a significant reduction of buildings operational energy, in combination with the capability not to emit harmful substances and to act as an absorber for indoor pollutants. Our innovation is based on a Nano-Cristalline Cellulose (NCC) based foam, strengthened with Natural derived resin (furan), providing self extinguishing features. An enzimatic approach and protein fusion to the Cellulose basis is exploited to confer to the material additional functionalities from the bulk, such as fragrance release, water repellence or anti-bacteria. Thanks to an advanced processing, the NCC material can be profitably extracted from the waste streams of the pulp and paper industry. Although the BRIMEE product family is applicable for the envelope and interior partitions of both new and existing buildings, most of the impact and the largest market is represented by buildings built before 1975 and requiring retrofitting. This is the initial market to be penetrated in line with EU priorities and recent action plans and directives.

Simulation based control for Energy Efficiency building operation and maintenance Call name:
FP7-2013-NMP-ENV-EeB 2013 - 2017

Role in this project: Partner team leader

Coordinating institution: ACCIONA CONSTRUCCION SA

Project partners: ACCIONA CONSTRUCCION SA (RO); ICPE S.A. (RO)

Affiliation: ICPE S.A. (RO)

Project website: https://www.energyintime.eu/

Abstract:

Buildings Operational stage represents 80% of building’s life-cycle cost of which 50% is consequence of the energy use. Up to 90% of the buildings’ life cycle carbon emissions occur during their operational phase, mainly as consequence of the HVAC, lighting and appliances’ energy use. Therefore, energy and cost saving strategies addressing this building operation phase will have a major impact in the building life cycle cost.

Energy IN TIME (EiT) project goes beyond existing building control techniques, developing an integrated control & operation approach, that will combine state of the art modelling techniques with the development of an innovative simulation-based control technique with the overarching objective of automating the generation of optimal operational plans tailored to the actual building and users requirements. This approach will allow reducing system inefficiencies and contributing to improve building energy efficiency and comfort.

The target for Energy IN TIME solution will be existing non-residential buildings, which present the building typologies that guaranties higher impact and room for improvement due to the variety and quantity of facilities and equipment covered and the operational management model used in them. A control tool will be implemented in the building energy management systems to be automatically and remotely operated. The methodology for the enhancing solution implementation will be defined for existing buildings and for its implementation in new buildings since its initial commissioning.

The Energy IN TIME project work plan is divided into nine work packages: WP1: Requirements & System Architecture; WP2: Simulation Reference Model; WP3: Whole building Intelligent Control System.; WP4: Diagnosis & Continuous Commissioning; WP5: Energy Decision Support Tool. ; WP6: System Integration & Pilot-Scale Validation.; WP7: Demonstration to implement the designed and developed systems; WP8: Dissemination & exploitation; WP9 Coordination.

Toolboxes for systemic retrofitting Call name:
FP7-2012-NMP-ENV-ENERGY-ICT-EeB 2012 - 2016

Role in this project: Key expert

Coordinating institution: RINA CONSULTING SPA

Project partners: RINA CONSULTING SPA (RO); ICPE S.A. (RO)

Affiliation: ICPE S.A. (RO)

Project website: http://www.retrokitproject.eu/

Abstract:

RetroKit will develop and demonstrate multifunctional, modular, low cost and easy to install prefabricated modules, integrating efficient energy use systems and RES for systemic retrofitting of residential buildings. Aiming at external retrofitting concepts with an integration of internal renovation aspects, semi-prefabricated technological solutions will be clustered in a “RetroKit Toolbox” supported by a decision support system that provides data, transparency on payback, guidelines, and design support. Solutions will target aging multi-family residential buildings that represent more than half of the European building stock and consume between 65% and 80% of the total energy consumptions of EU buildings.

RetroKit targets the social, technological, industrial, and economic barriers preventing retrofit. RetroKit overcomes these barriers by addressing the highest potential energy savings strategies, developing configurations of semi-prefabricated modules for industrial scale-up that integrate different functionalities into façades and roofs. RetroKit solutions include RES, free cooling and solar heating strategies, while LCA, LCC and business models will support the market take-up. RetroKit systemic approach to retrofitting will streamline the value chain, thus enabling customised mass production, industrial scale-up, and efficient construction processes for manufacturers, integrators, installers and contractors.

RetroKit workplan align the S&T Objectives, with the methodology and project impact. Clear, quantified, and measurable performance metrics are established. Cost estimates for retrofit performances are already conducted demonstrating that a ROI close to 7 years is achievable by RetroKit solutions. Testing will make use of partner world class laboratories and building test facilities. Validation will involve 3 full scale buildings in different climate zones and apply the international standard IPMVP for energy savings assessment.

Electric propulsion modular system for land vehicles and boats, built in a flexible technology Call name: Dezvoltare Produse - Sisteme - Tehnologii - 2012
PN-II-IN-DPST-2012-1-0002 2013 - 2015

Role in this project: Key expert

Coordinating institution: ICPE

Project partners: ICPE (RO); Universitatea Politehnica Bucuresti (RO); Technosoft International SRL (RO)

Affiliation:

Project website: http://www.icpe.ro/simopel/ro

Abstract:

The resulting product of this project is a modular electric propulsion (SIMOPEL) for sustainable development of land and water transport. The product will meet the market demand within different power ranges for different types of transport systems, such as:

- Land transport: electric vehicles (cars, scooters), industrial autonomous/robotic transport systems (TransContainers).

- Water transport systems (boats, speedboats) .

The concept of modular propulsion system proposed in this project is an innovative concepts for experimental electric vehicles, concept that allows both increased autonomy and propulsion power, according to the specific use .

The target market is rapidly growing, with high growth rates. The product target could be:

- Manufacturers of lightweight two-wheeled vehicles (bicycles, scooters)

- Local authorities for various uses in areas where ICE vehicles traffic is prohibited.

- Carriers or tourism managers in recreational areas

- Manufacturers who want to enter into the light electric vehicles market and want to test experimental models and prototypes

- Administration of natural reserves (such as Danube Delta Biosphere Reserve) who want to equip their boats with electric propulsion

Modular electric propulsion system comprises the following modules:

- Propulsion module itself, consisting of electric motor/generator and control system;

- Command and control module with associated auxiliaries;

- Batteries and recharging control system;

- Power flow management module, including the DC/DC converter;

The battery recharging module, an infrastructure component, will also be developed within the project ("the electric gas station") .

Initial fabrication, testing and final inspection will be performed in the existing technological capabilities and specialized laboratories of ICPE .

The project Consortium entirely covers the necessary technical expertise. The team includes key individuals with experience in engineering technology, people who were responsible for the design, execution and implementation of manufacturing technologies for other like products. The project management group provides managerial competencies required for such a complex process, with applications in many industrial activities. Project managers from each partner are highly appreciated specialists in the scientific tasks assigned to each member of the Consortium. The technical experts are people with experience in designing electrical machines and automation systems.

Icpe Solar Energy Infrastructure Development Call name:
Priority Axis 2: Research, Technological Development and Innovat -

Role in this project: Key expert

Coordinating institution: ICPE S.A.

Project partners:

Affiliation:

Project website:

Abstract:

The project aims mainly on the development of Icpe by improving the infrastructure and increasing the quality of research by adapting to the European requirements and alignment to the competitiveness (the most important centers in the solar field in Europe).

FILE DESCRIPTION	DOCUMENT
List of research grants as project coordinator or partner team leader
Significant R&D projects for enterprises, as project manager
R&D activities in enterprises
Peer-review activity for international programs/projects