BrainMap

Mr. Nicolae Maruntelu

Dr. Ing.

Researcher - ASOCIATIA ROHEALTH - CLUSTERUL PENTRU SANATATE

Other affiliations

Researcher - STIMPEX S.A. (Romania)

Researcher | Scientific reviewer | Manager | Consultant

Scientific researcher (CS II), designer of weapons, mines, missiles PhD in Thermodynamics of gas detonation International Inspector Organization for the Prohibition of Chemical Weapons ( OPCW) 1997 - 2007 Diploma Nobel Peace Prize 2013 offered by OPCW Environmental Protection Expert - Climate Change and Renewable Energy specialties Project manager for European projects in the field of: - Protection of Critical Infrastructures; - Equipment and Technologies for First Responders; - CBRN - Risk Management Coordinator of the Working Group: CBRNE-Disaster Medicine belong to ROHEALTH Cluster (https://rohealth.ro/en/en-about-us/en-about-us-working-groups/)

Web of Science ResearcherID: https://independent.academia.edu/NicolaeMaruntelu

Curriculum Vitae (14/03/2022)

Expertise & keywords

Additive manufacturing of ballistic protection composites Call name:
PN-IV-P7-7.1-PED-2024-0508 2025 - 2027

Role in this project: Project coordinator

Coordinating institution: INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE AEROSPATIALA "ELIE CARAFOLI" - I.N.C.A.S. BUCURESTI

Project partners: INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE AEROSPATIALA "ELIE CARAFOLI" - I.N.C.A.S. BUCURESTI (); STIMPEX S.A. ()

Affiliation: STIMPEX S.A. ()

Project website:

Abstract:

Scopul acestui proiect este de a dezvolta sandwich-uri de protectie bazate pe principii structurale cu zabrele,

folosind aliaje de aluminiu si titan adaptate pentru tehnologia Additive Manufacturing (AM),

concentrandu-se pe solutii special concepute pentru protectie balistica utilizate pe vehicule blindate usoare sau aeronave.

Tehnologia AM ne permite sa cream structuri periodice de zabrele metalice cu geometrie eficienta care,

in principiu, poate minimiza utilizarea materialului, optimizand simultan proprietatile mecanice dorite ale acestuia.

- "CBRN Protection Research & Technology studies and expertise" Call name:
2022 - 2023

Role in this project: Partner team leader

Coordinating institution: University ROMA TOR VERGATA

Project partners: University ROMA TOR VERGATA (); Fondazione SAFE, Via Maggiore 73, 48121 Ravenna and operational office in Via Mere snc,37038 Soave ITALY, ()

Affiliation: University ROMA TOR VERGATA ()

Project website:

Abstract:

This aims at supporting to achieve the most effective preparation, which can in turn reduce the potential impact of CBRN attacks.

Moreover, should a CBRN scenario occur, the results of the research phase should allow for the recovery phase to be more efficient

and effective.

The objective is divided into two steps. The first step is dedicated to analyse the current technologies available for decontamination

in order to optimise them as well as to search for a universal decontamination system against CB agents.

The second step provides results related to the discovery of alternatives to reduce logistic fingerprint and

a progressive substitution of water-based solutions with water-free systems.

Search and Rescue: Emerging technologies for the Early location of Entrapped victims under Collapsed Structures and Advanced Wearables for risk assessment and First Responders Safety in SAR operations Call name: EC - H2020
H2020-230159-882897 2020 - 2023

Role in this project: Partner team leader

Coordinating institution: NATIONAL TECHNICAL UNIVERSITY OF ATHENS - NTUA

Project partners: NATIONAL TECHNICAL UNIVERSITY OF ATHENS - NTUA (EL); ENOSI PTYCHIOYCHON AXIOMATIKON YPAXIOMATIKON PYROSVESTIR OY SOMATEIO (EL); THALES ITALIA SPA (IT); SERVICIO MADRILENO DE SALUD (ES); CONSIGLIO NAZIONALE DELLE RICERCHE (IT); ETHNIKO KENTRO EREVNAS KAI TECHNOLOGIKIS ANAPTYXIS (EL); UNIVERSITEIT HASSELT (BE); GIOUMPITEK MELETI SCHEDIASMOS YLOPOIISI KAI POLISI ERGON PLIROFORIKIS ETAIREIA PERIORISMENIS EFTHYNIS (EL); VRIJE UNIVERSITEIT BRUSSEL (BE); JOHANNITER OSTERREICH AUSBILDUNG UND FORSCHUNG GEMEINNUTZIGE GMBH (AT); KONNEKT ABLE TECHNOLOGIES LIMITED (IE); POMPIERS DE L'URGENCE INTERNATIONALE (FR); UNIVERSITA DEGLI STUDI DI FIRENZE (IT); ELLINIKI OMADA DIASOSIS SOMATEIO (EL); ASOCIATA CLUSTERUL ROMAN PENTRU PROTECTIE SI ECOLOGIE IN DOMENIUL MATERIALELOR CHIMICE, BIOLOGICE, RADIOLOGICE/NUCLEARE SI EXPLOZIVE (RO); AIDEAS OU (EE); MAGGIOLI SPA (IT); SOFTWARE IMAGINATION & VISION SRL (RO); UNIVERSITA CATTOLICA DEL SACRO CUORE (IT); SPOLECZNA AKADEMIA NAUK (PL); DEUTSCHES FORSCHUNGSZENTRUM FUR KUNSTLICHE INTELLIGENZ GMBH (DE); JOHANNITER-UNFALL-HILFE EV (DE); UKEMED (GLOBAL) LTD (CY); ATOS IT SOLUTIONS AND SERVICES IBERIA SL (ES); SYNYO GmbH (AT); UNIVERSITA DEGLI STUDI DI CAGLIARI (IT); PUBLIC SAFETY COMMUNICATION EUROPE FORUM AISBL (BE); ESCUELA ESPANOLA DE SALVAMENTO Y DETECCION CON PERROS (ES); HITACHI RAIL GTS ITALIA SRL (IT); FUNDACION PARA LA INVESTIGACION E INNOVACION BIOSANITARIA DE ATENCION PRIMARIA (ES)

Affiliation: ASOCIATA CLUSTERUL ROMAN PENTRU PROTECTIE SI ECOLOGIE IN DOMENIUL MATERIALELOR CHIMICE, BIOLOGICE, RADIOLOGICE/NUCLEARE SI EXPLOZIVE (RO)

Project website:

Abstract:

Strippable coatings for heavy metals and radionuclids decontamination Call name: P 2 - SP 2.1 - Proiect de transfer la operatorul economic
PN-III-P2-2.1-PTE-2019-0400 2020 - 2022

Role in this project: Key expert

Coordinating institution: STIMPEX S.A.

Project partners: STIMPEX S.A. (RO); Academia Tehnică Militară „FERDINAND I” (RO); Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti (RO); Ministerul Apărării Naționale prin Centrul de Cercetare și Inovare pentru Apărare CBRN și Ecologie (RO)

Affiliation: STIMPEX S.A. (RO)

Project website: https://www.stimpex.ro/single-post/pelicule-detasabile-pentru-decontaminarea-metalelor-grele-si-radionuclizilor

Abstract:

The main objective of this project is represented by the transfer of an innovative decontamination technology that involves the utilisation of some strippable polymeric coatings for the decontamination of radioactive or heavy metals, from the academic research towards the industrial partner STIMPEX SA. This project idea appeared due to the extremely important problems related with environment protection, because every year increasing quantities of hazardous waste like radioactive or heavy metals are identified as result of the use of these contaminants in defense and security industry (primers, detonators), nuclear power industry, medicine, which lead to negative consequences. In order to reduce the harmful effects caused by these contaminants, this consortium aims to develop an innovative decontamination method for the surfaces. The polymeric films will be obtained on an industrial prototype scale, using a green synthesis method based on ecofriendly, biodegradable, nontoxic and low-cost raw materials. The synthesized decontamination solutions will be applied by spraying them over contaminated surface or they can be stretched with a roller or a brush and after drying, the resulting films can be removed by their simple exfoliation, thus removing also the contaminating agent embedded in their polymeric matrix.

Protective helmets equipped with damping elements based on porous materials imbibed with nanofluids Call name: P 2 - SP 2.1 - Proiect de transfer la operatorul economic
PN-III-P2-2.1-PTE-2019-0432 2020 - 2022

Role in this project: Key expert

Coordinating institution: STIMPEX S.A.

Project partners: STIMPEX S.A. (RO); UNIVERSITATEA POLITEHNICA DIN BUCURESTI (RO); Academia Tehnică Militară „FERDINAND I” (RO)

Affiliation: STIMPEX S.A. (RO)

Project website: https://www.stimpex.ro/single-post/casti-de-protectie-echipate-cu-componente-de-amortizare-din-materialeporoase-imbibate-cu-nanofluide

Abstract:

The project aims to implement, within the structure of the protective helmets, innovative damping components consisting of porous materials imbibed with nanofluids. The mechanism underlying the proposed solution, known as elasto-pore-hydrodynamic lubrication (XPHD), has been highlighted since early 2000s within UPB. The damping effect comes from the dissipation of the impact energy by the viscous friction of the fluid expelled through the porous material upon the compression of the impacted cell. A stronger the impact, amplifies the compression of the cells, with direct consequence in porosity and permeability decrease, which generate higher pressures.

The experimental model development was carried out previously as part of a PN-II-PT-PCCA Grant, in which two of the current partners of the proposal (UPB and STIMPEX S.A.) collaborated.

The testing of the damping cells (i.e. experimental model) was performed under different configurations and energy levels, on the test rigs belonging to UPB, as well as on a pneumatic propulsion facility from ATM. The results showed that the impact force is two times smaller when the damping cells were used.

The current project includes two testing stages (TRL 5 and TRL 6): in the first stage, helmet sectors will be developed and tested by including a system of interconnected damping capsules. These tests aim to establish an optimal structure of the damping elements. The tests from the second stage will be performed according to the STANAG 2920 standard, on the helmet developed at the level of small series industrial prototype. The helmet will be subjected to an operational testing program, which will demonstrate the functionality of the product under relevant conditions. The aim is to develop a new manufacturing technology, which will involve the simultaneous processing of several damping elements on specialized work stands for operations, in order to increase the labor productivity.

HYBRID CATALYTIC/PHOTOCATALYTIC SYSTEM FOR DECONTAMINATION OF SENSITIVE EQUIPMENT Call name: P 2 - SP 2.1 - Proiect de transfer la operatorul economic
PN-III-P2-2.1-PTE-2019-0241 2020 - 2022

Role in this project: Key expert

Coordinating institution: STIMPEX S.A.

Project partners: STIMPEX S.A. (RO); INSTITUTUL NATIONAL DE CERCETARE - DEZVOLTARE PENTRU FIZICA MATERIALELOR BUCURESTI RA (RO)

Affiliation: STIMPEX S.A. (RO)

Project website: https://www.stimpex.ro/single-post/sistem-hibrid-catalitic-fotocatalitic-de-decontaminare-echipamente-sensibile-detoxsens

Abstract:

The project aims the development of innovative industrial technologies for the decontamination of military and/or civilian sensitive equipment based on catalytic/photocatalytic hybrid systems for decontamination of real chemical warfare agents. The industrial prototype, generically called DETOXSENS, will have an immediate contribution in the management of crisis situations involving chemical warfare agents or extremely toxic chemicals once it is introduced into possession of the specialized intervention teams of the Ministry of National Defense, or other structures of the National Defense System. Compared to the decontamination techniques already present on the international market, the newly created prototype will have the ability to rapidly decontaminate the surfaces of sensitive equipment as well as to detoxify (total destruction) chemical warfare agents, the reaction products being completely non-toxic for both humans and environment. DETOXSENS may also be used for the immediate decontamination of individual military equipment. To achieve this objective, a partnership between S.C. STIMPEX S.A. and National Institute of Materials Physics will be formed. The research teams that make up the Consortium are complementary teams and have experience in jointly developing important research projects.

Resilience support for critical infrastructures' through standardized training on CBRN Call name:
ISFP-AG (ISF-Police Action Grant) 2019 - 2021

Role in this project: Partner team leader

Coordinating institution: SAFE (Security and Freedom for Europe)

Project partners: SAFE (Security and Freedom for Europe) (); ASOCIATIA CLUSTERUL ROMAN PENTRU PROTECTIE SI ECOLOGIE IN DOMENIUL MATERIALELOR CHIMICE, BIOLOGICE, RADIOLOGICE/NUCLEARE SI EXPLOZIVE (PROECO - CBRNE) ()

Affiliation: ASOCIATIA CLUSTERUL ROMAN PENTRU PROTECTIE SI ECOLOGIE IN DOMENIUL MATERIALELOR CHIMICE, BIOLOGICE, RADIOLOGICE/NUCLEARE SI EXPLOZIVE (PROECO - CBRNE) ()

Project website: https://www.safe-europe.eu/news-posts/resist-project-kicked-off-in-the-beautiful-frame-of-soave-on-12th-14th-november/

Abstract:

Operators of public spaces and Critical Infrastructures (CIs) are currently more and more confronted with many and varied

types of events, natural or man-made, threatening the functioning of the infrastructure and the security of end-users.

To this aim we propose within public and private CIs’ operators the testing of a joint CBRNe specific training programme

(including real life exercises) for the creation of “CBRNe Intervention Groups” of CI personnel trained and equipped

to operate in CBRNe contaminated environments ensuring that a part of the personnel present in the CI at all times

"Impacting Shock Waves on Maritime Ships Using Sinergic Polymeric Materials-MAUS" Call name:
2018 - 2021

Role in this project: Key expert

Coordinating institution: Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti

Project partners: Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti (RO)

Affiliation: Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti (RO)

Project website:

Abstract:

Additional protection for a war ships likely to be frequently touched by shock waves caused by submarine explosions

can be achieved by placing layers of multiple shock absorber modules (MAUS) inside the ship.

From the point of view of the materials in the MAUS structure, porous structures were identified,

with some properties capable of realizing elastic layers, capable of absorbing the shock wave energy and dynamically

balancing the elastic pulsation of the hull of the ship.

Smart Robots for Fire-Fighting Call name:
H2020-MSCA-RISE-2016 -

Role in this project: Key expert

Coordinating institution: BOURNEMOUTH UNIVERSITY

Project partners:

Affiliation:

Project website: http://fusion-edu.eu/SMOOTH/

Abstract:

The SMOOTH project aims to propose a novel robot-assisted decision making system in smart firefighting to perform

searching and rescuing practice in the fire ground, and to facilitate the decision makings with higher efficiency. A 3-D human-robot interactions infrastructure will be created to facilitate efficient interactions

between human adaptive mechatronics and adaptive networked control. Based on these concepts, the consortium will

investigate the needs and key technologies such as hybrid autonomous and miniaturized robotic modules, wireless

sensor technologies, advanced decision support algorithms.

Contingency of CBRN hazards and improvement of national security resources Call name: P 1 - SP 1.2 - Proiecte complexe realizate in consorții CDI
PN-III-P1-1.2-PCCDI-2017-0395 2018 - 2021

Role in this project: Key expert

Coordinating institution: Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti

Project partners: Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti (RO); Ministerul Apararii Nationale prin Centrul de Cercetare Stiintifica pentru Aparare CBRN si Ecologie (RO); Academia Tehnica Militara (RO); UNIVERSITATEA POLITEHNICA DIN BUCURESTI (RO); CENTRUL DE CHIMIE ORGANICA AL ACADEMIEI ROMANE "C.D.NENITESCU" (RO); Centrul de Cercetare Stiintifica pentru Fortele Navale Constanta (RO)

Affiliation: Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti (RO)

Project website: http://icechim-rezultate.ro/proiect.php?id=40&lang=ro si http://icechim-rezultate.ro/proiect.php?id=33&lang=en

Abstract:

SECURE-NET is a Complex Project designed to improve the institutional performance of the Consortium Research Partners (Institutions with Re-launch Capabilities in the Field of National Security). In this respect, the Complex Project proposes five research themes corresponding to the five Component Projects, which aim at: (i) contingency of chemical, biochemical, radiological and nuclear (CBRN) hazards by developing new decontamination products and by developing specific sensors for detecting chemical agents of combat, and (ii) improving national security by developing shock-absorbing composites, solid rocket fuel and multispectral camouflages. This Complex Project brings together institutions with tradition, having either similar specialisation or complementary specialisation, to strengthen scientific and technical competences in the field of National Security and Advanced Materials for military applications. The Project Consortium has a gender-balanced staff and promotes the involvement of a large number of teachers, researchers, doctoral students and post-doctoral students in all activities proposed by the Common Agenda. In addition, the project facilitates the transfer of scientific knowledge between participating institutions as well as the recruitment and training of new staff. The multitude of results generated by the implementation of SECURE-NET express the potential for significant influence upon (i) the scientific community through communication and dissemination of results (as a short- and medium-term impact), and (ii) the public and private environment by promoting new research services and new transferable products / technologies to the external environment of the Consortium, particularly to the national defence industry (as a long-term impact).

Personal kit for immediate decontamination Call name: P 2 - SP 2.1 - Proiect de transfer la operatorul economic
PN-III-P2-2.1-PTE-2016-0132 2016 - 2018

Role in this project: Key expert

Coordinating institution: STIMPEX S.A.

Project partners: STIMPEX S.A. (RO); Ministerul Apararii Nationale prin Centrul de Cercetare Stiintifica pentru Aparare CBRN si Ecologie (RO)

Affiliation: STIMPEX S.A. (RO)

Project website: http://www.stimpex.ro/single-post/2016/12/01/TIDI-TRUS%C4%82-INDIVIDUAL%C4%82-DE-DECONTAMINARE-IMEDIAT%C4%82

Abstract:

The proliferation of chemical, biological, radiological and nuclear weapons (CBRN) constitute a direct military threat to the population, territory and allied forces, representing a serious concern for the Alliance.

Along with gas mask, the individual package for immediate decontamination is a necessary component that all soldiers that are in combat missions or civilian personnel of intervention teams must equip.

In the case of terrorist incidents such as CBRN or military actions with the use of weapons of mass destruction, the individual decontamination is an extremely urgent measure for the rescue of personnel from all categories of military forces or specialized intervention teams, and the unprotected civilian population. Any delay has a significant impact on the performance of combat missions, volume loss and recovery success.

CCSACBRNE has experience in the detection, identification and decontamination in the event of CBRN events and/or environmental. There is also the know-how in approaching the specific decontamination research by developing products and technologies available in the field of CBRN decontamination. Also the CCSACBRNE has the specific infrastructure for the CBRN research and testing.

Thereby, during 2013-2015, within the PSCD of MoD, at CCSACBRNE was conducted a research prototype named “The Individual immediate decontamination kit – TIDI”, which is a product designed to protect soldiers against chemical warfare agents and biological agents.

SC STIMPEX SA is a Romanian company specialized in the production of individual and collective protection equipment, and in the design and production of equipment and complex CBRN devices. STIMPEX has an advanced compartment of R&D and has the possibility of taking over the production of the research results.

Surface plasmon resonance multi-sensor for real time illicit drugs detection Call name: P 3 - SP 3.2 - Proiecte ERA.NET - COFUND
ERA.NET.RUS PLUS-SNIFF - CALORIS 2016 - 2018

Role in this project: Partner team leader

Coordinating institution: CALORIS GROUP SA

Project partners: CALORIS GROUP SA (RO)

Affiliation:

Project website: http://proeco-cbrne.ro/en/sniff/

Abstract:

All over the world, billions of dollars are spent annually on chemical/biological detection related to medical diagnosis, environmental monitoring, public security and food safety because laboratory analysis using expensive equipment is usually cumbersome and time-consuming. During the last 20 years, global research and development on the field of sensors has expanded exponentially in terms of financial investment, the published literature, and the number of active researchers. Bio mimetic sensors will be used as “on-site” method by the authorities to provide enough information for routine testing and screening of transportation. The main advantages of using versatile sensors for fast drug tracing refer to cost-efficiency and “on-site” legal measures to prevent drug traffic and consumption. The general objective of “SNIFF” proposal is to develop efficient optical micro sensor arrays (optical multisensor) using surface plasmon resonance (SPR) for detecting various drug compounds i.e. LDS, cocaine, heroin or methamphetamine to prevent illegal transit and consumption of drugs. Furthermore, the sensitive membrane of the optical sensor will be tailored, using a molecularly imprinting technique (MI), to “sniff” (sense and detect) only the targeted drugs. The most obvious advantage of SPR sensors using MIPs as selective films is having a wide range of low cost functional monomers as well as cross-linking agents available which may be selected by various experiments to match the functional groups of the template molecule. MIP are to be synthesized directly on the thin golden layer of SPR sensor using two procedures: deposition of the compatible synthetic MI layer directly on the golden concave surface and grafting the MIM onto the Au functionalized surface. Apart the low cost, the new sensor will have a very good resistance in time, due to the synthetic polymer, the possibility of continuous monitoring and of the recovery and reuse.

Solutii tehnice pentru neutralizarea termica a unor deseuri pirotehnice rezultate la fabricarea airbag-urilor auto Call name: Cecuri de Inovare - 2012
PN-II-IN-CI-2012-1-0085 2012 - 2012

Role in this project: Project coordinator

Coordinating institution: SC COMFRAC R&D PROJECT EXPERT SRL

Project partners: SC ISOPLUS SPECIAL SRL (RO); SC COMFRAC R&D PROJECT EXPERT SRL (RO)

Affiliation:

Project website:

Abstract:

Airbag-urile sunt dispozitive de siguranta pasive care asigura protectia soferilor si pasagerilor autovehiculelor in cazul coliziunilor. Constructiv acestea sunt compuse dintr-un generator de gaze cu compozitie pirotehnica si un balon gonflabil. In timpul fabricatiei, se acumuleaza cantitati insemnate de compozitii pirotehnice, care trebuie neutralizate.

Obiectivele proiectului sunt: Crearea unui parteneriat intre Beneficiar si Furnizorul de servicii in scopul exploatarii eficiente de catre Beneficiar a expertizei furnizorului in domeniul distrugerii ecologice a dispozitivelor pirotehnice ; Creșterea productivităţii, competitivității şi a calităţii serviciilor prestate de beneficiar de distrugere ecologica a deseurilor care contin compozitii pirotehnice,; Încurajarea beneficiarului de a investi în activităţi de cercetare-dezvoltare pentru dezvoltarea instalatiilor ecologice pentru distrugerea si neutralizarea dispozitivelor iesite din uz, incarcate cu compozitii pirotehnice; Sprijinirea beneficiarului de catre furnizor in vederea accesarii fondurilor publice, private sau structurale.

Serviciul consta in: elaborarea unui studiu tehnic privind solutiile posibile si alegerea solutiei optime de dezmembrare si neutralizare ecologica a airbag-urilor scoase din uz sau rebutate pe linia de fabricatie; cercetari experimentale privind stabilirea produsilor rezultati prin arderea compozitiei pirotehnice din airbag-uri; elaborarea specificatiei preliminare de dezvoltare pentru instalatia de incinerare si neutralizare ecologica a compusilor solizi si gazosi rezultati in urma incinerarii;

Necesitatea proiectului rezulta din faptul ca la fabricarea airbag-urilor, rezulta in mod inerent cantitati insemnate de deseuri si rebuturi, care trebuie distruse respectand legislatia de mediu. Noua tehnologie va inlocui procedeul actual de arderea in spatii prin care se elimina in atmosfera compusi organici volatili, hexaclorbenzen, monooxid de carbon si dioxine.

Cofraj termoizolant inglobat din NEOPOR pentru constructii Call name: Cecuri de Inovare - 2012
PN-II-IN-CI-2012-1-0057 2012 - 2012

Role in this project: Project coordinator

Coordinating institution: SC COMFRAC R&D PROJECT EXPERT SRL

Project partners: SC AMVIC SRL (RO); SC COMFRAC R&D PROJECT EXPERT SRL (RO)

Affiliation: SC COMFRAC R&D PROJECT EXPERT SRL (RO)

Project website:

Abstract:

Obiective: Protejarea drepturilor de proprietate industriala ale SC AMVIC SRL prin brevetarea produsului „Cofraj termoizolant inglobat din NEOPOR pentru constructii, MARC”; valorificarea competentelor tehnico-stiintifice ale furnizorului de servicii SC COMFRAC R&D PROJECT EXPERT SRL in sectorul productiv, prin asistarea beneficiarului SC AMVIC SRL in procesul de dezvoltare a portofoliului sau de brevete de inventie; formarea unui parteneriat durabil intre SC AMVIC SRL, producator de sisteme revolutionare de cofraje termoizolante pentru constructii si SC COMFRAC R&D PROJECT EXPERT SRL, furnizor de servicii de CDI si consiliere in domeniul protectiei drepturilor de proprietate industriala; stimularea investitiilor SC AMVIC SRL in activitati de CDI; cresterea competitivitatii si calitatii cofrajelor termoizolante pentru constructii fabricate de SC AMVIC SRL.

Descrierea serviciului. Pentru indeplinirea obiectivelor, furnizorul va presta urmatoarele servicii: cercetare documentara din brevete si intocmirea unui raport tehnic privind stadiul actual al tehnicii in domeniul cofrajelor termoizolante pentru constructii; intocmirea unui studiu tehnic privind proprietatile fonoabsorbante ale cofrajului termoizolant MARC prin simulare numerica si determinare experimentala in scopul adjudecarii unei revendicari la brevet; elaborarea documentatiei tehnice propriu-zise a inventiei, conform Legii nr. 64/1991 (descrierea inventiei, revendicari, desene explicative si rezumatul inventiei); completarea cererii de brevet de inventie si achitarea taxelor de inregistrare si de publicare la OSIM.

Necesitate. Brevetarea cofrajului termoizolant inglobat din NEOPOR pentru constructii MARC, va asigura protejarea drepturilor de proprietate industriala ale SC AMVIC SRL pentru urmatorii 20 de ani, fata de orice incercare a unor agenti economici de fabricare, folosire ori oferire spre vanzare a unor produse contrafacute, ilegale, care copiaza partial sau total caracteristici ale cofrajului MARC.

Dispozitive medicale pentru teste rapide la diagnoza precoce a unor maladii frecvente Call name: Cecuri de Inovare - 2012
PN-II-IN-CI-2012-1-0072 2012 - 2012

Role in this project: Project coordinator

Coordinating institution: SC COMFRAC R&D PROJECT EXPERT SRL

Project partners: SC REMED PRODIMPEX SRL (RO); SC COMFRAC R&D PROJECT EXPERT SRL (RO)

Affiliation:

Project website:

Abstract:

Proiectul isi propune sa dezvolte dispozitive medicale inovative care sa realizeze teste rapide pentru diagnoza precoce a cancerului cervical, uterin sau de vagin, a hepatitei B si a ischemiei miocardice.

Obiective: Crearea unui parteneriat intre beneficiarul SC REMED PRODIMPEX SRL si furnizorul de servicii SC COMFRAC R&D PROJECT EXPERT SRL in scopul expolatarii eficiente de catre beneficiar a expertizei furnizorului in domeniul dezvoltarii dispozitivelor medicale de diagnoza precoce; Creșterea productivităţii, competitivității şi a calităţii dispozitivelor medicale pentru diagnoza precoce (DMDIAG) fabricate de beneficiar; Încurajarea beneficiarului de a investi în activităţi de cercetare-dezvoltare pentru introducerea in fabricatie si comercializarea unor noi dispozitive medicale pentru diagnoza precoce; Sprijinirea beneficiarului de catre furnizorul de servicii in vederea accesarii fondurilor publice, private sau structurale pentru dezvoltarea unor noi produse medicale.

Descrierea serviciului. Pentru indeplinirea acestor obiective, furnizorul va efectua urmatoarele activitati: elaborarea unui studiu documentar pentru selectia procedurilor de punere in evidenta prin analize de culoare specifica a elementelor morfologice pentru depistarea cancerului cervical, vaginal si de col uterin cu reactivi si coloranti prin tehnica Papanicolau, pentru punerea in evidenta a antigenului hepatitei B si pentru depistarea precoce a riscului de ischemie miocardica in stadii incipiente; Incercari de laborator si experimentari cu diverse tipuri de reactivi specifici analizelor anatomo-patologice in scopul alegerii tehnologiei de fabricare; Stabilirea protocoalelor de lucru pentru laboratoarele clinice; Optimizarea si definitivarea tehnologiilor de fabricatie a DMDIAG.

Proiectul este necesar pentru dotarea laboratoarelor clinicilor medicale destinate interventiilor generale, care nu poseda aparatura performanta pentru depistarea rapida a maladiilor sus-mentionate in stadii incipiente.

Solutii de constructii rezidentiale eficiente energetic utilizand cofraje termoizolante inglobate MARC Call name: Cecuri de Inovare - 2012
PN-II-IN-CI-2012-1-0043 2012 - 2012

Role in this project:

Coordinating institution: SC COMFRAC R&D PROJECT EXPERT SRL

Project partners: SC PASSIVHAUS SRL (RO); SC COMFRAC R&D PROJECT EXPERT SRL (RO)

Affiliation:

Project website:

Abstract:

Conceptul de varf in termenii constructiilor eficiente energetic este casa zero energie (CZE). Proiectul isi propune sa ofere solutii bazate pe modelari matematice care sa confirme sau sa infirme faptul ca solutiile straine promovate pentru CZE sunt corect aplicate la conditiile din Romania. Continentalitatea este o caracteristica climatologica care reflecta influenta marilor si oceanelor asupra unei portiuni de uscat. Ea este rezultatul impactului modificarilor elementelor meteorologice (temperatura, precipitatii, radiatia solara, nebulozitatea etc.) datorita latitudinii, distantei fata de ocean, altitudinii si circulatiei atmosferice. Distributia temperaturii in diferite puncte depinde de diferentele de radiatie solara, de umiditate si de caldura inmagazinata in pamant. Fluxurile de energie termica deasupra pamantului si deasupra apei sunt alte elemente care influenteaza diferentele de temperatura.

Obiectivele proiectului

1. Determinarea indexului de continentalitate pentru cele patru zone climatologice din Romania;

2. Utilizand rezultatele de la pct.1 se vor stabi solutii pentru:

- o anvelopa extrem de eficienta a locuintelor utilizand cofraje termoizolante, pentru a putea renunta la un sistem conventional de incalzire;

- racorduri fara punti termice;

- locuinte etanse la aer, dar cu un sistem de ventilatie eficient.

Serviciul consta in:

- efectuarea unor cercetari documentare pentru colectarea de date de la statiile meteorologice amplasate in Romania;

- realizarea modelului matematic pentru determinarea indexului de continentalitate pentru teritoriul Romaniei;

- simulari pentru intocmirea diagramelor indexului de continentalitate pentru Romania;

- stabilirea solutiilor de termoizolare eficienta pentru construirea unei CZE folosind cofrajele termoizolante.

Necesitatea proiectului rezulta din absenta unor standarde romanesti de realizare a CZE folosind anvelope termoizolante obtinute prin solutii bazate pe studii de climatologie.

FILE DESCRIPTION	DOCUMENT
List of research grants as project coordinator or partner team leader	Download (34.66 kb) 29/07/2018
Significant R&D projects for enterprises, as project manager	Download (289.22 kb) 02/08/2017
R&D activities in enterprises
Peer-review activity for international programs/projects	Download (42.83 kb) 29/07/2018