Results estimated:
►
hypothesis regarding the biodegradation of hydrocarbons type pollutants
under the action of micro-organisms ►hypothesis regarding the
biodegradation of pollutants for the biological extraction of the heavy
metals ► conceptual models and theories applicable in case of
contaminated soils bioremediation ►technical solutions for biological
treatment of the contaminated soils – possibilities to use the
micro-organisms for the biological extraction of the heavy metals and
hydrocarbons from the contaminated soil ►innovative solution for the
biological treatment of the contaminated soils – methods of qualitative
and quantitative analysis of the contaminated soils ►sampling plan
►samples ►patent proposal ►assignment of rights ►soils characterized
from qualitative and quantitative point of view ►technical
specification ► experimental model project ► experimental model
►characteristics of the model ►samples prepared for treatment ►
assessed risks and impact ► demonstrative meetings ►biological
treatment procedure – prototype ►characteristics of the procedure
►remediation technology of contaminated soils
Results obtained:
Stage 1.
- A1.1 Formulating hypothesis concerning hydrocarbons pollutants biodegradation under the action of microorganisms and for biological extraction of heavy metals
- A1.2 Elaboration of some conceptual models and theories applicable in case of bioremeding the soils polluted with heavy metals, sulphur dioxide, hydrocarbons
- A1.3 Developing a web page
- A2.1 Critical analysis of technical solutions for the soils polluted with heavy metals, applicable in soils rehabilitation works
- A2.2 Establishing methods of qualitative and cantitative analysis of soils polluted with heavy metals
- Results dissemination
- A3.1 Critical analysis of technical solutions for the soils polluted with sulphur dioxide, hydrocarbons, applicable in soils rehabilitation works
- A3.2 Researches on the possibility of using microorganisms at biological extraction of heavy metals and hydrocarbons out of polluted soil
- A3.3 Elaboration of the innovative solution for biological treatment of soils polluted with heavy metals, sulphur dioxide, hydrocarbons
- A3.4 Establishing methods of qualitative and cantitative analysis of soils polluted with sulphur dioxide, hydrocarbons
- A3.6a Partial results dissemination/articles and communications
- A4.1 Representative sampling of soils in highly polluted
areas by activities specific to the metallurgic industry and preparing
for biological treatment
A4.2 Qualitative and quantitative characterization of soils contaminated with heavy metals
A4.3 Development of innovative experimental model of biological treatment of soil contaminated with heavy metals
A4.4 Designing and implementing the experimental model of biological treatment of contaminated soils. Testing of the experimental model operation
A4.5 Experimental study of soils contaminated with heavy metals using the biological treatment decontamination process – qualitative and quantitative characterization of contaminated soils, after biological treatment on the experimental model
A4.6 Realization of the remediation technology of soils contaminated by activities specific to the metallurgic industry, based on the innovative solution of biological treatment – on site and off site – of contaminated soils. Elaboration of technical documentation
A4.7 Evaluating the risks and impact of the activities specific to the metallurgic industry on the soils
A4.8 Identification and assignment of intellectual property rights on the innovative solution of biological treatment of soils contaminated with heavy metals. Patent request
A4.9 Disseminating the results on a wide scale by national and international communication/publication
Technical University of Cluj-Napoca
Environmental and Material's Engineering Faculty, Environmental Engineering Department
103-105 Muncii Avenue, 400641 Cluj-Napoca Romania
Tel/Fax: +40 264 401 732