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Research regarding the destructive action of natural and anthropogenic agents on heritage monuments
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Objectives:
The purpose of the project is to substantiate and apply scientifically technical investigative methods in the archaeological artifacts, historical and architectural field which are subject to destructive action of natural and anthropogenic agents, in order to identify the opportunities for improvement and restoration of cultural heritage. Artifacts are objects considered a result of human activities that give valuable information on manufacturing technology and their use. They provide the necessary data to obtain results of historical and archaeological nature and details regarding the origin or production technique of archaeological objects.
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Development of modern methods for assessing estrogenic compounds and heavy metals in the food chain at nanoscale
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Objectives:
The purpose of this project: (i) a comprehensive study and development of new methods for rapid and sensitive analysis in order to determine estrogenic contaminants and heavy metals in food chain, at nanoscale, by using modern chromatographic and spectrometric techniques. It will be develop new analysis techniques for: PCB congeners, PAH, DDT, DDE, Dieldrin, phthalic esters, heavy metals; (ii) validation of developed methods: experiments in order to optimize and establish the performance parameters for determination method of estrogenic contaminants - chromatographic separation and identification of organic species and heavy metals – detection limit, sensibility, selectivity, justness, fidelity, uncertainty, degree of recovery in accordance with RENAR, EURACHEM and European Co–operation for Accreditation.
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Optoelectronic equipment and innovative method of high precision and sensitivity based on non-conventional fluorescence spectrometry for testing and control of some environmental agents
, FLUOROSPEC
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Objectives:
FLUOROSPEC aims to achieve an innovative product and of some control techniques for the environmental agents, based on optoelectronic instrumentation and modern spectral methodologies. The instrumental principle of this project consists in producing free atoms through thermo dissociation of a sample in a rf capacitively coupled plasma source (CCP), followed by the excitation of the resulted free atoms through irradiation with electromagnetic radiation provided by an external source and by the measurement of the resulted fluorescence radiation atoms (AFS). The principle is absolutely new; up to now, there is no scientific paper regarding the determination by atomic fluorescence in capacitively coupled plasma. Low power capacitively coupled plasma sources were previously developed by several members of the project team, but used only in optical emission spectrometry (CCP-OES). These sources have substantially advantages as compared to the classical ones: efficient atomization and reduced ionization degree, low spectral background, low power operation, low support gas consumption. The environmental factor that could be tested or measured by this method is the content of heavy metals, up to ultratrace values, in the most diverse types of samples. This project addresses to an environmental problem of great actuality for our country, where the pollution with heavy metals and certain toxic elements is present in all the industrialized areas, sometimes with dramatic features.
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Biodiesel obtained by treating fatty acids, their esters and glycerides with hydrogen enriched gas
, BIOHID
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Objectives:
BIOHID submits, in the first stages of the project, an experimental development which will be focused on the optimization of the technological solution for second generation hydrogen enriched biofuel, produced in a catalytic treatment pilot plant that will be especially created for this purpose.
The project novelty is given by:
- Biofuel production technology: The technological solution proposed by this project represents an absolute novelty at international level, being enframed within the technologies for refining fuels destined for internal combustion engines. The technology proposed for producing a “reformulated biodiesel” starts with the catalytic treatment with hydrogen enriched gas of the triglycerides contained in vegetable oils and animal fats, which leads to the obtaining of fatty acids and glycerin. In order to obtain the “reformulated bio-diesel”, the catalytic hydrogenation of the previously obtained fatty acids is continued until reaching fatty alcohols and superior alkanes. Nevertheless, the catalytic hydrogenation with hydrogen enriched gas of the fat acids esters, classically obtained by the methyl-transesterification of the triglycerides is taken into consideration.
- The pilot plant for obtaining enriched biofuel. The obtained pilot plant has a high innovative level due to its worldwide uniqueness, starting with the operational technologic parameters separately obtained on the traditional technological lines for obtaining bio-diesel as well as those obtained in the pilot plant for producing the hydrogen enriched gas destined for the catalytic or non-catalytic treatment of the fossil fuels.
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Improving the administrative capacity of INCDO-INOE 2000, ICIA Subsidiary, for accessing European funds, CAFE
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Objectives:
Programul Operational Sectorial „Cresterea Competitivitatii Economice”
„Investitii pentru viitorul dumneavoastra”
„Intarirea capacitatii adminstrative a INCDO-INOE 2000, Filiala ICIA, in vederea accesarii fondurilor europene"
Proiect co-finantat prin Fondul European de Dezvoltare Regionala
Pentru informatii detaliate despre celelalte programe operationale cofinantate de Uniunea Europeana va invitam sa vizitati www.fonduri-ue.ro.
Continutul acestui material nu reprezinta in mod obligatoriu pozitia oficiala a Uniunii Europene sau a Guvernului Romaniei.
Proiect nr.190/30.06.2010
Competitia: POSCCE-A2-O2.2.4-2009-3
Domeniul major de interventie: 2.2 – Investitii in infrastructura de CD&I si dezvoltarea capacitatii administrative
Operatiunea: 2.2.4 – Intarirea capacitatii administrative
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