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Romania
Citizenship:
Romania
Ph.D. degree award:
2017
Mrs.
Cristina-Emanuela
Enascuta
Dr.
Researcher
-
Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti
Researcher | Scientific reviewer
20
years
Web of Science ResearcherID:
AAD-2818-2022
Personal public profile link.
Curriculum Vitae (23/09/2024)
Expertise & keywords
renewable bioresources
extraction optimization
agro-food, food quality, functional foods, nutraceuticals, carotenoids, bioactives, citrus, olive oil, isoprenoids, vitamins, food science, food technology
Ultrasounds
Microencapsulation
Biodiesel
plant biostimulants, biofertilizer, biopesticide, biological plant protection,
Projects
Publications & Patents
Entrepreneurship
Reviewer section
Supporting the competitiveness and excellence of INCDCP-ICECHIM research and innovation in the area of bioeconomy and related fields
Call name:
15PFE/30.12.2021
2022
-
2024
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 ()
Affiliation:
Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti ()
Project website:
https://icechim.ro/en/institute/next-bexcel-en/
Abstract:
Read more
Development of health-promoting food ingredients from winemaking by-products and activated seeds
Call name:
P 3 - SP 3.5 - Proiecte EUREKA Tradiţional (Network), EUREKA-Cluster, Eurostars
PN-III-P3-3.5-EUK-2019-0169
2021
-
2024
Role in this project:
Key expert
Coordinating institution:
EXPERGO BUSINESS NETWORK SRL
Project partners:
EXPERGO BUSINESS NETWORK SRL (RO); Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti (RO); Faculty of Agriculture, University of Belgrade (RS); ZMAJEVAC Winery DOO (RS)
Affiliation:
EXPERGO BUSINESS NETWORK SRL (RO)
Project website:
https://www.expergo.ro/proiecte/healthyseed/
Abstract:
The goal of HEALTHYSEED project is to develop new functional food products that contain valuable nutrients from grape seed oil, grape seed flour and various sprout extracts. The project aims: i) to exploit the potential of grape seeds, as a source of valuable components such as unsaturated fatty acids, polyphenols and dietary fibres; ii) activation and sprouting of selected seeds (amaranth, alfalfa/red clover) to improve nutritional properties: digestibility of plant proteins; conversion of carbohydrates to simpler forms for easy assimilation; bio-availability of minerals; significantly reduction of phytic acid levels (an antinutrient), freeing up minerals for absorption; increase of beneficial enzymes; and iii) encapsulation of these ingredients as a mean of protection of nutritionally important compounds and targeted delivery.
Encapsulated grape seed oil, sprout extracts and grape seed flour obtained under optimal conditions will be incorporated into adequate products: snack rolls, snack balls, nutritional snack. Hence, in final products, we will provide health-promoting bio-ingredients, with desirable stability, targeted release and bioavailability. Nutritional and energetic value of new functional textured food products will be established.
This project will include variation of encapsulation methods and parameters and characterization of the obtained encapsulates in order to evaluate/improve the encapsulation process itself.
The project is oriented to obtain such products that not only satisfy energy and basic nutritional need of human organism, but also provide certain protection against diseases related to modern lifestyle.
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Desulfurarea prin piroliza catalitica a pudretei de cauciuc in vederea modificarii bitumului rutier
Call name:
P 2 - SP 2.1 - Proiect de transfer la operatorul economic
PN-III-P2-2.1-PTE-2021-0552
2022
-
2024
Role in this project:
Coordinating institution:
ATICA CHEMICALS S.R.L.
Project partners:
ATICA CHEMICALS S.R.L. (RO); Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti (RO)
Affiliation:
Project website:
https://www.aticachemicals.ro/index.php/proiecte/proiecte-cercetare
Abstract:
The diminution of the deterioration of the road infrastructure and the prevention of the appearance of phages is realized by modifying the road bitumen with polymers of elastomeric type that ensures the elastic return of the asphalt. The aim of the project is to develop an innovative technology on an industrial pilot scale for the manufacture of an elastomer for the modification of road bitumen by devulcanizing the used rubber powder. The innovative character of the project proposal is given by the proposed method for the devulcanization of spent rubber, respectively slow catalytic pyrolysis in the presence of an acid nanostructured catalyst, and the reactive adsorption of the sulfur resulting on nanostructured adsorbents. The improvement of the thermal and mass transfer in the extruder type pyrolysis reactor and implicitly the reduction of the temperature gradient, will be achieved by the use of an aromatic petroleum solvent, with low volatility, solvent that will solubilize the desulfurized elastomer. The metal sulfides resulting from the reactive adsorption will be removed by extraction in a polar solvent. By applying the procedure from this project proposal there is no toxic waste or gas, and the process of modifying the road bitumen will be simplified.
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TRANSDISCIPLINARY APPROACH FOR DEVELOPMENT OF TECHNOLOGICAL SOLUTIONS FOR TARGET COMPOUNDS RECOVERY FROM AGRO SIDE-STREAMS
Call name:
P 3 - SP 3.5 - Proiecte EUREKA Tradiţional (Network), EUREKA-Cluster, Eurostars
PN-III-P3-3.5-EUK-2019-0226
2020
-
2023
Role in this project:
Key expert
Coordinating institution:
HOFIGAL EXPORT IMPORT SA
Project partners:
HOFIGAL EXPORT IMPORT SA (RO); Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti (RO); UNIVERSITATEA DE STIINTE AGRONOMICE SI MEDICINA VETERINARA (RO)
Affiliation:
HOFIGAL EXPORT IMPORT SA (RO)
Project website:
https://hofigal.eu/content/26-proiect-tardis-hofigal
Abstract:
The project TARDIS is proposed in the context of closing chains in bioeconomy, in order to obtain extracts with increased target bioactive content, with potential pharmaceutical applications (Pharmacoidea) and/or nutraceutical products (HOFIGAL). Biowaste valorisation is an attractive approach in the framework of the EU Waste Management policies and the development of a circular economy. Wastes from biostreams and different bio-based sources are being under-utilized as potential resource of valuable compounds.
The general objective of the project is to underline, optimize and apply an integrate technology of sustainable and enhanced production of natural extracts with high content of biological active compounds from side streams of agricultural industries applicable for obtaining smart formulations for disorders of the 21st century, for which continuous research is carried out.
The main idea of the project is to process plants by-products rich in nutritional and bioactive compounds into formulations to be used in pharma industry with the following benefits: the use of obtained extracts and target compounds for the prevention / treatment of age-related neurodegenerative disorders such as Alzheimer's disease; minimizing the amount of plant waste by recovering the target compounds from the by-products; increasing the potential of the pharmaceutical and food market by designing new functional ingredients; increasing the quality of life.
The project will provide the necessary support for creating and developing a complementary research chain in bio-economy (industry, pharmacy, agriculture) that aims to achieve a high level of internationally recognized expertise. The project demonstrates an integrated cascading concept including pre-treatment, optimized extraction and separation technologies.
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Value added products from microalgae biomass applying biorefinery concepts
Call name:
P 1 - SP 1.1 - Proiecte de cercetare pentru stimularea tinerelor echipe independente
PN-III-P1-1.1-TE-2019-1842
2020
-
2022
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:
https://icechim.ro/project/algaebioref-en/
Abstract:
The present research proposal aims to obtain high value products (antioxidants, lipids and carbohydrates) from microalgae biomass using the concept of biorefining. A first stage of this project consists in optimizing the growth conditions of two microalgal strains (Porphyridium purpureum and Dunaliella salina), in order to maximize the content of antioxidants, lipids, carbohydrates, using statistical methods of programming experiments. The second stage refers to comparing the efficiency of conventional and unconventional extraction methods (supercritical carbon dioxide extraction, ultrasound-assisted extraction and classical solvent extraction) in recovering from wet algal biomass antioxidants and lipid fraction with a high content of fatty acids polyunsaturated (compounds for use in the pharmaceutical industry). In a third stage, the fractions of lipids rich in polyunsaturated fatty acids and carbohydrates from algal biomass will be transformed into ethyl esters of unsaturated fatty acids and levulinic acid respectively. In order to achieve this transformation, the development of a heterogeneous ferromagnetic acid catalyst is envisaged to ensure the development of these high efficiency processes. By adopting the concept "zero waste, the project aims to convert the exhausted biomass from active principles into biocarbons with adsorbent properties, which will be tested for the retention of inorganic compounds. The content of the project includes innovative multidisciplinary activities for optimizing the growth conditions of microalgae, respectively for extracting the compounds of interest, and for their efficient transformation into high value added compounds using catalytic systems developed within the project.
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Complete Recovery of Fish and Oilseed Wastes Extracts/Hydrolysates in Microcapsules Usable as Fertilizers or Nutraceuticals
Call name:
P 1 - SP 1.1 - Proiecte de cercetare Postdoctorală
PN-III-P1-1.1-PD-2019-0877
2020
-
2022
Role in this project:
Project coordinator
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:
https://icechim.ro/project/nutrafert-en/
Abstract:
The aim of the "NutraFert" project is the complete recovery of wastes of fish and oilseed as extracts and hydrolysates for microencapsulation, the final product being used as fertilizer or nutraceuticals. The main objective of the project is to design experimental models to obtain PUFA microencapsulated used as nutraceuticals and essential oils microencapsulated used as fertilizers using ultrasonic fields.
In relation to the state of the art aforementioned, the approach is original and innovative by:
- Development of an integrated process for complete recovery of wastes of fish and oilseed using advanced techniques for the extraction process, like microwaves and ultrasounds, followed by cutting-edge separation methods such as molecular distillation or supercritical extraction in order to obtain fractions with a higher content on PUFA.
- Modeling and optimization of the extraction and separation process using first principles based or statistical models.
- Development of the microencapsulation process in ultrasonic field, using optimized experimental conditions.
The specific objectives are:
O1. Development of an integrated process for the complex recovery of fish and oilseeds wastes using advanced techniques. Establishing the best extraction conditions.
O2. Development of a separation process of fatty acid ethyl esters fractions using modern techniques.
O3. Modeling and optimization of the separation process
O4. Development of the experimental model for obtaining of PUFA microencapsulated used as nutraceuticals and essential oils microencapsulated used as fertilizers.
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Closing the bioeconomy value chains by manufacturing market demanded innovative bioproducts
Call name:
P 1 - SP 1.2 - Proiecte complexe realizate in consorții CDI
PN-III-P1-1.2-PCCDI-2017-0569
2018
-
2021
Role in this project:
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); INSTITUTUL DE CHIMIE MACROMOLECULARA "PETRU PONI" (RO); UNIVERSITATEA "DUNAREA DE JOS" (RO); INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU STIINTE BIOLOGICE (RO); UNIVERSITATEA AUREL VLAICU ARAD (RO)
Affiliation:
Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti (RO)
Project website:
http://icechim-rezultate.ro/proiect.php?id=51&lang=ro
Abstract:
Agriculture and food industry in Romania generates large amounts of co/by-products, which are not used and turn into wastes, with negative impacts. The approach of the project PRO-SPER is to develop integrated processes, flexible and interconnected, to transform a number of agro-food by-products in bio-products, with market demand. This approach facilitates the achievement of project goals, complex-coordination and linking of the research organizations that are members of the Consortium, INCDCP-ICMPP, UDJ, ICECHIM, INCDSB and UAV, for improving their institutional performance in the field of nano-and bio-technologies of their application into bioeconomy.
The overall objective of the project PRO-SPER is to increase the impact of research and development activities and innovation of the RDI institutions, by developing and harnessing innovative technological solutions for bio-nano-processing of several by-products from the bioeconomy value chains, for recovering and/or formation of value-added components and their use in order to obtain products with high added value.
Expected results through the implementation of the project (21 new jobs, 23 national patent applications and international patent applications 6 EPO/WIPO; 10 technologies/new products resulting from the project, at a level of technological maturity to enable taking over by the operators, 5 services research and technological research services 10 cheques, 10 experiments cheques services
80 internship of young researchers from and within partner institutions, 50 visits for developing new techniques for working jointly in the Consortium, 30 training internships for new employees, 28scientific papers, 1 joint program CDI, in line with the development plan of institutional partners) have a significant impact on the capacity-building of the partners in the Consortium.
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Energetic efficiency biogas plants improvement by integrated system: biogas-microalgae-biofuels in frame of biorefinery concept (AlgalBiogasConceptEnergy)
Call name:
P 1 - SP 1.2 - Proiecte complexe realizate in consorții CDI
PN-III-P1-1.2-PCCDI-2017-0541
2018
-
2021
Role in this project:
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); INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE PENTRU INGINERIE ELECTRICA ICPE - CA BUCURESTI (RO); UNIVERSITATEA BUCURESTI (RO); INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU CARTOF SI SFECLA DE ZAHAR-BRASOV (RO); UNIVERSITATEA PETROL GAZE PLOIESTI (RO); UNIVERSITATEA TEHNICĂ "GHEORGHE ASACHI" IAŞI (RO)
Affiliation:
Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti (RO)
Project website:
http://www.icechim-rezultate.ro/proiect.php?id=38&lang=ro; http://www.icechim-rezultate.ro/proiect.php?id=39&lang=en
Abstract:
The complex project propose the development and demonstration of innovative technologies to optimize the biogas plants by integrating the open ponds for microalgae cultivation using the digestate resulted from anaerobic digestion as a culture medium. The integral valorization of microalgae biomass consists in: obtaining of algal extracts (for co-digestion), lipid fraction (for biofuels) and spent biomass (co-digestion substrate); advanced separation and valorization of biogas by carbon dioxide conversion to biomethane; biorefining of the solid digestate and lipid fractions obtained from algal biomass into biochar, fuel components, bitumen fluxes, biohydrogen and liquefiable gaseous fractions. As results of this project will be: a demonstrated technology at TRL 6 level within the biogas-microalge integrated and an experimental stand for the evaluation of biomethane and liquefied gaseous hydrocarbons combustion efficiency and emission control.
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Work-based learning systems through entrepreneur scholarships for doctoral and post-doctoral students
Call name:
contract nr. 51668/09.07.2019 POCU/380/6/13 – Cod MySmis 124705
2019
-
2020
Role in this project:
Key expert
Coordinating institution:
UNIVERSITATEA POLITEHNICA DIN BUCURESTI
Project partners:
UNIVERSITATEA POLITEHNICA DIN BUCURESTI ()
Affiliation:
UNIVERSITATEA POLITEHNICA DIN BUCURESTI ()
Project website:
Abstract:
Innovative capitalization of plant by-products by extracting active principles with therapeutic potential and developing nanotransporter systems to improve their bioavailability
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New treatment for rape seeds based on collagen hydrolysates, in order to increase the drought resistance of the rape seedling
Call name:
P 3 - SP 3.5 - Proiecte EUREKA Tradiţional (Network), EUREKA-Cluster, Eurostars
PN-III-P3-3.5-EUK-2016-0029
2017
-
2020
Role in this project:
Partner team leader
Coordinating institution:
PROBSTDORFER SAATZUCHT ROMANIA SRL
Project partners:
PROBSTDORFER SAATZUCHT ROMANIA SRL (RO); INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE PENTRU TEXTILE SI PIELARIE-I.N.C.D.T.P. BUCURESTI SUCURSALA BUCURESTI INSTITUTUL DE CERCETARE PIELARIE - INCALTAMINTE I.C.P.I. (RO); UNIVERSITATEA DE STIINTE AGRONOMICE SI MEDICINA VETERINARA (RO); 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:
http://www.probstdorfer.ro/cercetare/proiect-coll-rape/
Abstract:
The goal of COLL-RAPE project is to making new products and
technology for pelleting rape seeds, based on collagen hydrolysates, in order to increase the resistance to drought and to pests during germination of seeds and emergence of seedlings. Rape crop is an economical competitive crop which could bring a good yield and a good profit to farmers. Seed coating technologies serve as delivery systems for biological and chemical seed and/or seedling performance enhancing treatments. Varieties of rape seeds will be coated with the
new product, based in collagen, which could provide the seeds with the fertilizers needed to start vegetation (amino acids from collagen polypeptides, the fungicide and insecticide to protect against soils and seed disease and insects. At the same time the collagen hydrolysates will offer, by adsorption of water molecules at the coating level, the moisture needed by the seed to germinate under drought conditions. Through multidisciplinary expertise and scientific and technical effort of the consortium RO-PL-LT, will produce the best quality rape seeds, adapted to the specific stress condition during emergence of seedling and hard climatic conditions (frequent in the three participating countries), which could provide farmers with a low risk in establishing rape crop for a dynamic market.
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Foliar biofertilizer based on active structures, intelligent, for the grain crops treatment
Call name:
P 2 - SP 2.1 - Proiect de transfer la operatorul economic
PN-III-P2-2.1-PTE-2016-0214
2016
-
2018
Role in this project:
Partner team leader
Coordinating institution:
PROBSTDORFER SAATZUCHT ROMANIA SRL
Project partners:
PROBSTDORFER SAATZUCHT ROMANIA SRL (RO); INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE PENTRU TEXTILE SI PIELARIE-I.N.C.D.T.P. BUCURESTI SUCURSALA BUCURESTI INSTITUTUL DE CERCETARE PIELARIE - INCALTAMINTE I.C.P.I. (RO); 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:
http://www.probstdorfer.ro/proiect-_biofol_cer/
Abstract:
The idea of Project follow the trend of increase the efficiency of agricultural production by using a bio-technologies for a sustainable agriculture.
The goal of project is transfer of technologies for producing the foliar fertilizers, bioactive for plant nutrition and growing stimulation for cereals, in order to increase the yield, to reduce the pollution, to increase the efficiency of nitrogen use by the crop, to reduce the cost with fertilizers at farm level, and to valorize an secondary by-products from agriculture with low cost by exploitation the potential of natural by-products of keratin, collagen and plant extracts with systemic protection function at crop level.
The objectives of project BIOFOL_CER represent the transfer of technologies for producing bio-foliar–fertilizers with proteic additives used for cereals to the company involved in consortium, to demonstrate the efficiency of using of the new products by experiments in field and evaluation of effects for increasing of yield and quality of grain.
State of the art for the idea of project is TRL4 (technology validated in laboratory), based on former research, already patented, for vegetables crops. During the research will be formulated a new foliar fertilizer, with high content of keratin, collagen and with additives, which will experimented in laboratory and in research field for finding the appropriate usage dose for cereal crops. The demonstratives experiments on the cereal crops (wheat, barley, and triticale) will show the advantage of using the foliar fertilizers with proteic, bioactive additives, and will permit elaboration of technology at level TRL6 (demonstrate technology at economical producing level). At the end of research project the partners ICPI and ICECHIM will transfer the technology of producing of the new foliar fertilizer for cereal crop to the PSRO.
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BITUMEN FLUXANTS OBTAINED BY THE UPGRADE OF THE ECOLOGICAL SOLVENTS TECHNOLOGY EXISTING AT SC ICPAO MEDIAS
Call name:
P 2 - SP 2.1 - Transfer de cunoaștere la agentul economic „Bridge Grant”
PN-III-P2-2.1-BG-2016-0324
2016
-
2018
Role in this project:
Coordinating institution:
UNIVERSITATEA POLITEHNICA DIN BUCURESTI
Project partners:
UNIVERSITATEA POLITEHNICA DIN BUCURESTI (RO); Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti (RO); INSTITUTUL DE CERCETARI PRODUSE AUXILIARE ORGANICE S.A. (RO)
Affiliation:
Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti (RO)
Project website:
http://glicester.chimie.upb.ro
Abstract:
The goal of the project is to upgrade the technology for ecological solvents production, existing at the Research Institute for Auxiliary Organic Products (ICPAO) Medias, a research and production company, in order to valorize the glycerol, obtained as a by-product. The research partners in this project are Politehnica University of Bucharest (UPB) and the National Research and Development Institute for Chemistry and Petrochemistry (ICECHIM) Bucharest. The glycerol valorization solution adopted in this project is its transformation into acetic and butyric esters, by the reaction with the corresponding acids, both obtainable from natural resources, renewable, nontoxic and biodegradable as glycerol itself. These glycerol esters are envisaged to be commercialized as ecological fluxants for road construction bitumen. Also, in the upcoming period, the triacetain and tributyrin esters obtained in this technology will be purified by ICPAO and commercialized as ingredients for food or pharmaceutical products. The transition from current fluxants, based on petroleum derivatives, that are pollutants, toxic and flammable, to the fluxants derived from glycerol and vegetable oils, which avoids all these drawbacks, is a process already initiated worldwide, being determined by the requirements regarding the environmental protection. The project includes innovative activities, technological development and activities aiming the transfer of technical and scientific knowledge from UPB and ICECHIM toward ICPAO Medias, as well as activities of professional formation at ICPAO, for master and doctorate students from UPB. The innovative activities are referring to the development of an effective catalyst for the esterification of glycerol, the development of an esterification process ensuring a high conversion of glycerol in economic conditions and formulating an optimal composition of acetic and butyric glycerol esters, suitable to be used as bitumen fluxant.
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INNOVATIVE TECHNOLOGY FOR OBTAINING SLOW RELEASE FERTILIZER COMPOSITIONS CONTAINING ELEMENTAL SULFUR THROUGH CONDITIONING AND RECOVERY OF PETROLEUM SULFUR
Call name:
P 2 - SP 2.1 - Cecuri de inovare
PN-III-P2-2.1-CI-2017-0535
2017
-
2017
Role in this project:
Key expert
Coordinating institution:
MEDISAN 2010 SRL
Project partners:
MEDISAN 2010 SRL (RO); 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:
http://www.icechim-rezultate.ro/proiect.php?id=31
Abstract:
Sulfur has important functions in the metabolism of plants, harvested product quality being positively affected by sulfur. It aims to reduce the manufacturing costs of these fertilizers by replacing classical sulphate fertilizers and improved release rate of sulfur in the soil through a more efficient uniformity following an optimal conditionings of petroleum sulfur.
Elemental sulfur is not soluble in water and can not be taken up directly by plants, but can be converted by a thiobacteria to the sulphate. The disadvantage of using native sulfur consists of high content of arsenic and selenium chemicals occurring in sulfide ores.
Romania currently not capitalize petroleum sulfur, but worldwide there are patents that propose conditioning native sulfur to be used as fertilizer, but no patent did not address the recovery of petroleum sulfur oil fertilizer. An important prerequisite for addressing this project result from analyzes conducted by ICECHIM that highlight sulfur oil does not contain arsenic and selenium nor organic compounds. By the proposed method for conditioning of petroleum sulfur is removed the disadvantages of using the elemental sulfur in the preparation of fertilizers as well as the low rate swelling of fertilizer particles, the tend of particles to agglomerate, low resistance to abrasion of the particles, the discontinuity of the coating film,low adhesiveness in the inorganic fertilizers particles.
Introducing into production of the controlled release fertilizer compositions containing elemental sulfur will be followed by marketing them to fertilize crop fields. The compositions of sulfur-based fertilizers will be added to the product type NP or NPK fertilizers by various technological options.
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Conversion of Biomass Wastes into Furan Derivatives, for Applications in Biofuels
Call name:
Joint Applied Research Projects - PCCA 2013 - call
PN-II-PT-PCCA-2013-4-0635
2014
-
2017
Role in this project:
Coordinating institution:
INSTITUTUL DE CERCETARI PRODUSE AUXILIARE ORGANICE S.A.
Project partners:
INSTITUTUL DE CERCETARI PRODUSE AUXILIARE ORGANICE S.A. (RO); Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti (RO); UNIVERSITATEA PETROL GAZE PLOIESTI (RO)
Affiliation:
Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti (RO)
Project website:
http://www.icpaomedias.ro/index.php/proiecte-in-derulare/carfural
Abstract:
The Kyoto protocol, together with the desire to reduce society’s dependence on imported crude oil, has directed researchers’ attention to the use of biomass as a source of energy and, more specifically, for transportation fuels. The biomass-derived fuels can be CO2–neutral, since the CO2 produced in their combustion can be reabsorbed by green plants during photosynthesis.
The overall objective of CARFURAL is conversion of lignocellulosic wastes in two chemical building blocks: furfural (furan-2-carbaldehyde) and 5-(alkoxymethyl)furfurals
[5-(alkoxymethyl)furan-2-carbaldehyde], followed by processing them for the production of biofuels having applications as components or additives for gasoline or diesel, in order to improve their characteristics.
The end-of-project results will be original technologies for the production of following product groups with direct applications and market potential:
1- furfural and 5-(alkoxymethyl)furfurals (i.e. alkoxy = -OCH3, -OC2H5, -OC3H7, etc.) as process intermediates (for furan based biofuels), and end-products (in other potential uses, eg phenol-furfural resins, urea-furfural resins, solvents, etc.)
2- furyl-dioxacyclane derivatives
3- furyl-dioxacyclane esters
4- furan derivatives and/or tetrahydrofuran derivatives
5- tetrahydrofuryl-dioxacyclane derivatives
6- selective hydrogenation catalysts
7- hybrid biodiesel
- Furfural, will be produced by hydrolysis of hemicellulosic fractions from lignocellulosic wastes such as sunflower seed hulls (from oil factories), sunflower stalks and corn cobs. Remained cellulosic fraction will be processed to obtain 5-(alkoxymethyl)furfurals.
- Furfural and 5-(alkoxymethyl)furfurals will be condensed with crude glycerine, waste from biodiesel manufacture, resulting furyl-dioxacyclane derivatives.
- Furyl-dioxacyclane derivatives can be used as such, or will be transesterified, with monocarboxylic acid methyl esters, to obtain esters of furyl-dioxacyclane derivatives
- Furyl-dioxacyclane derivatives will be selective hydrogenated to result tetrahydrofuran derivatives
- 5-(Alkoxymethyl)furfurals will be selective hydrogenated to obtain furan derivatives [eg 2-methyl-5-(alkoxymethyl)furan] and/or tetrahydrofuran derivatives [eg 2-(hydroxymethyl)-5-(alkoxymethyl)tetrahydrofuran; 2-methyl-5-(alkoxymethyl)tetrahydrofuran]
- Selective hydrogenation catalysts will be produced and tested
- A complex process for obtaining an hybrid biodiesel by processing together vegetable oil wastes and lignocellulosic wastes, resulting a mixture of classical biodiesel, furfural and 5-(methoxymethyl)furfural glycerol acetals, will be developed.
The following success criteria will be used as basis for evaluating project performance:
- it will develop laboratory-scale technologies for the production of derivatives from above mentioned classes (1-7)
- it will determine the specific characteristics of the synthesized products in mixture with gasoline and/or diesel; it will select at least one product from each class 2, 3, 4, 5, 7, which improve at least two characteristics of baseline gasoline and / or diesel (eg octane number, cetane number, pour point, cold filter plugging point, flash point, viscosity, environmental performance of additived fuels, as evidenced by the reduction of exhaust pollutants, etc.).
- for at least one efficient product, selected from all of 1-7 classes, it will be upgraded technologies from laboratory to micropilot scale
- it will protect original technologies developed in the project, by at least two national patent applications and two european patent applications
- the project results will be disseminated through publication of at least two papers, in ISI quoted scientific journals, and at least two communications at conferences
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Interdisciplinary research about using of collagen based products with elastic characteristics on rape crop for yield increasing, reducing of losses of harvest and sustainable of agriculture productio
Call name:
Joint Applied Research Projects - PCCA 2013 - call
PN-II-PT-PCCA-2013-4-0589
2014
-
2017
Role in this project:
Coordinating institution:
PROBSTDORFER SAATZUCHT ROMANIA SRL
Project partners:
PROBSTDORFER SAATZUCHT ROMANIA SRL (RO); Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti (RO); INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE PENTRU TEXTILE SI PIELARIE-I.N.C.D.T.P. BUCURESTI SUCURSALA BUCURESTI INSTITUTUL DE CERCETARE PIELARIE - INCALTAMINTE I.C.P.I. (RO); UNIVERSITATEA DE STIINTE AGRONOMICE SI MEDICINA VETERINARA (RO); DANUBE RESEARCH-CONSULTING SRL (RO)
Affiliation:
Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti (RO)
Project website:
http://www.probstdorfer.ro/proiect_rapestick/
Abstract:
The project offers a technical solution for treating the rape crops in order to reduce the losses caused by the dehiscence of the silicva before harvesting.
The solution proposed have to use solution based on polymerisable collagen extracts, resulted from the processing of subproducts from aquaculture and from the fishing industry, which have: adhesive properties and elasticity characteristics, resistance to UV radiations, and a high contents of amino acids. At this moment these subproducts from aquaculture and fishing industry are thrown, being a polluting factor with organic matter of the residual industrial waters.
The novelty of the project consists in the use of polymerized substances for the protection of the rape silicva, which are based on the collagen extracts from fish, having beside the antidehiscence effect, also a foliar fertiliser and a fungicide effects. Compared with antidehiscence products used at this moment, which are synthesis products, and which have exclusively the adhesive function, the new proposed products by the triple effect characteristics, - adhesive, fertilizer and fungicide, will have an impact on increasing of crop production at quantitative and qualitative level, by increasing the vegetation period (prolonging the grain filling period), increasing the TKW (weight of 1000 kernels), and reducing the water evapotranspiration at the rape crop field level. The antidehiscent effect will be given by the elastic feature of the fish collagen, the fertilizer feature will be given by the amino acid content of collagen, and the fungicide feature will be given by the film-forming effect and by the semipermeable membrane of the product polymerized from fish collagen extract, resistant to the UV radiation. By reducing losses from rape grain, pollution (weeding) with rape plants in successive crops after rape crop is reduced, reducing the quantity use of herbicides on succeeding crops. Into project are involves five partners, two research institutes, one university and two SMEs that will exploit the results of the research each in its own economic development.
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INTEGRATED GREEN TECHNOLOGY SYSTEM FOR PRODUCING ADVANCED BIOFUELS
Call name:
Joint Applied Research Projects - PCCA 2013 - call
PN-II-PT-PCCA-2013-4-1006
2014
-
2017
Role in this project:
Key expert
Coordinating institution:
UNIVERSITATEA BABES BOLYAI
Project partners:
UNIVERSITATEA BABES BOLYAI (RO); INSTITUTUL DE CERCETARI PRODUSE AUXILIARE ORGANICE S.A. (RO); 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:
http://chem.ubbcluj.ro/~irimie/index2.htm
Abstract:
AdbBioFuels is an innovative approach of biofuels. This project covers all the features of the Partnership Program; sub-program “Applied Research Collaborative Projects”. Its thematic area is “Energy” under the research direction 2.1 “Sustainable energy systems and technologies, energy security”, aligning with the reserch topic 2.1.4 “Promotion of clean energy technology, environment protection measures and reducing of the greenhouse gas emissions”.
The importance of this research area is ruled by the “Renewable Energy Directive” implemented by EU in 2009; the Directive stipulates the utilization, by 2020, of carting fuels produced from regenerable sources.
Our original approach targets the obtaining of a biodiesel type fuel, which simultaneously exploit both the molasses resulted in the sugar production and the glycerinous waters resulted in the conventional biodiesel technology, into a highly efficient, integrated chemobiocatalytic process.
Actually, the project aims the achievement of five objectives, successively developed at laboratory scale and at scale-up level:
• A chemocatalytic methodology for obtaining 5-hydroxymethylfurfural from molasse. Here we will develop a selective catalyst and a way of purifying and stabilizing the product.
• A methodology of assisted biocatalysis using baker’s yeast grown on molasse, to condense the pyruvic acid produced in the metabolism, with 5-hydroxy-methylfurfural.
• A methodology for the acetalization of hydroxymethylfurfural with glycerol, and of the aldole obtained in the previous step with different aldehydes to obtain hydroxy acetals with furanic structure.
• A methodology for enzymatic and chemical acylation of the hydroxy acetals obtained in the previous step, with acyl groups from natural sources, to increase the reduction grade of the derivatized furanic core.
• The development of a feasibility study for the obtaining of the advanced biofuel by exploiting the molasses and glycerol resulted as industrial byproducts.
Besides the actual state of the art, the project as a whole will ensure:
• A better valorization of the molasses and glycerol (both industrial byproducts),
• The reduction of the fossil fuel dependency, by replacing it with advanced biofuels,
• Biofuels with improved properties (freezing point, viscosity, volatility, CFPP, solubility in water etc.),
• Promoting new, cheaper technologies to obtain advanced biofuels,
• A reduction of the negative impact of the carting (transportation) field on the environment, by using a renewable source of energy, produced in greenway.
The project will be capitalized through patents, publishing of scientific papers in high impact journals, scientific communications.
The research team of the project consists of three groups coming from complementary research areas and having strong scientific achievements, which provide a complex integration of their expertise, oriented towards the achievement of the project’s objectives:
a) the Biocatalysis group from the Faculty of Chemistry and Chemical Engineering, Babes-Bolyai University in Cluj-Napoca, known and recognized at international level, with more than 100 publications in the area of biocatalysis, including biofuels,
b) the ICPAO group from Medias, a research group dedicated to catalytic organic synthesis, and
c) The group from ICECHIM Bucharest, with a wide expertize in elaborating technologies for the obtaining of biofuels from different renewable sources.
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INTEGRATED SYSTEM FOR PRODUCING SYNTHETIC AVIATION FUEL FROM ALGAL BIOMASS
Call name:
Joint Applied Research Projects - PCCA-2011 call, Type 2
PN-II-PT-PCCA-2011-3.2-0083
2012
-
2016
Role in this project:
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); INSTITUTUL DE CERCETARI PRODUSE AUXILIARE ORGANICE S.A. (RO); UNIVERSITATEA BUCURESTI (RO)
Affiliation:
Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti (RO)
Project website:
http://algalsaf.icechim.ro/
Abstract:
INTEGRATED SYSTEM FOR PRODUCING
SYNTHETIC AVIATION FUEL FROM ALGAL BIOMASS (ALGAL-SAF)
SUMMARY
ALGAL-SAF project focuses on the potential use of algae, as raw material for producing alternative fuels for aviation that could replace the petrochemical jet fuel up to 50% by volume without any durability problems, by an integrated technologies system starting from algae.
The overall objectives of the project aim to complete valorisation of algal biomass, using an integrated system wherein bio-feedstock is subjected to oil extraction to produce algal oil and then dehydrating of de-oiled algal biomass comprising carbohydrates, in the presence of catalysts to yield furan derivatives. Further, we propose, simultaneously catalytic processing technologies of fatty acid methyl esters and furan derivatives mixture by upgrading them into alcohol derivatives, and finally catalytic reforming processes for producing a mixture comprising iso/n alkanes, suitable for, or as a blending component for, uses such as an aviation fuel, being competitive and compatible, to current used fuels.No attempts were found in the literature about such an integrated system developed for synthetic aviation fuel production, as we have proposed in this project. We have found some knowledge gaps in the current state-of-art, as follows: (a) Selecting the microalgae able to grow in mixotrophic conditions for high yield algal oil production; (b) Mixotrophic microalgae culture, by supplementing culture media with crude glycerin, as carbon source and protein hydrolysate, as nitrogen source (c) Valorization of de-oiled algal biomass via furan derivatives, as precursors for aviation fuels; (d) Simultaneously catalytic processing technologies of fatty acid methyl esters and furan derivatives mixture by upgrading them into alcohol derivatives; (e) Simultaneously dehydration, hydrocracking and isomerization processes of alcohol derivatives, for producing iso/n alkanes, suitable as synthetic aviation fuel.
The project will contribute to environmental compliance of Directive 2009/28/EC, on the promotion of the use of energy from renewable sources, which aims at achieving by 2020 a 20% share of energy from renewable sources in the EU's final consumption of energy and a 10% share in each member state's transport energy consumption.
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Interdisciplinary research on seed treatment with collagen hydrolysates for quality indicators increasing, pesticide reduction and sustainable development of agriculture production.
Call name:
Joint Applied Research Projects - PCCA-2011 call, Type 2
PN-II-PT-PCCA-2011-3.2-1805
2012
-
2016
Role in this project:
Coordinating institution:
PROBSTDORFER SAATZUCHT ROMANIA SRL
Project partners:
PROBSTDORFER SAATZUCHT ROMANIA SRL (RO); INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE PENTRU TEXTILE SI PIELARIE-I.N.C.D.T.P. BUCURESTI SUCURSALA BUCURESTI INSTITUTUL DE CERCETARE PIELARIE - INCALTAMINTE I.C.P.I. (RO); Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti (RO); UNIVERSITATEA DE STIINTE AGRONOMICE SI MEDICINA VETERINARA (RO); INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE PENTRU MASINI SI INSTALATII DESTINATE AGRICULTURII SI INDUSTRIEI ALIMENTARE - INMA (RO)
Affiliation:
Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti (RO)
Project website:
http://www.icpi.ro/ICPI/index.php?option=com_content&task=view&id=170&Itemid=26
Abstract:
The project theme falls within the actual trends to create new and complex materials having a higher ecological impact than the current products as well as added value, by using advanced processes for chemical processes and bio-refinement of renewable natural resources.
The main objective of the project „GERMOSTIM” is to develop new and advanced materials and technologies, having a bio-stimulating effect for plant growth and an insecto-fungicide effects onto seeds, by using the valuable organic nitrogen resource from the leather industry and from the leather by-products – which are currently treated as residues.
The originality of the project is given by the following: the techniques used for processing proteic by-products to obtain a bio-compatible component with insecto-fungicide and phyto-regulatory growth functions; use of an original mathematical model to optimise the proteic component separation process; elaboration of advanced and complex materials to be used for establishment of recipes of pesticide mixes – protein hydrolysate.
The use of collagen resources in the leather industry to create organic materials, the ingredient and bio-stimulators for seed crops will allow for an innovative valorisation of a natural resource and for an increase in the sustainability of certain traditional economic sectors for our country which are currently in full ascension, such as: agriculture, chemical industry and leather industry.
This project aims at creating a technology for cereal seeds treatment, which generates an increase of the quality indicators for treated seeds, guarantees an increased percentage of sprung plants, an early and effective protection of plantlets against pathogen and harmful agents through a disinfection of the seeds surface, by destroying the pathogen agents present on the grain, ensuring the protection of roots and hypocotyls against the attack of pests and pathogen agents, ensuring a rapid springing of the crops, with an optimum density, as a
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Microalgal system used for CO2 mitigation resulted from biomass fermentation
Call name:
P 3 - SP 3.1 - Proiecte de mobilități, România-Moldova (bilaterale)
PN-III-P3-3.1-PM-RO-MD-2016-0094
2016
-
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); Universitatea de Stat din Moldova (MD)
Affiliation:
Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti (RO)
Project website:
Abstract:
Proiectul de cooperare bilaterală internațională româno-moldavă cu titlul: ,,Sisteme microalgale utilizate pentru reducerea emisiilor de CO2 de la fermentatia biomasei” are ca obiectiv general cresterea eficientei energetice a instalatiilor de biogaz/ecologizarea proceselor de fermentatie enzimatica alcoolica prin reducerea continutului de CO2 din gazele rezultate, prin utilizarea unor culturi microalgale.
Strategia de implementare a proiectului vizează îndeplinirea urmatoarelor obiective specifice:
O1. Cresterera randamentului de biogaz cu un continut ridicat de CH4 prin utilizarea unor noi biocatalizatori in procesul de digestie anaeroba;
O2. Reducerea continutului de CO2 din gazele rezultate in urma proceselor de fermentatie prin utilizarea unor sisteme microalgale;
O3. Valorificarea biomasei microalgale cu scopul de a obtine biocompusi utili si utilizarea biomasei algale epuizate in procesul de digestie anaeroba.
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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
[T: 0.5436, O: 396]