Project leader

Faculty of Chemical Engineering and Technology

University of  Zagreb, Croatia

 

Prof. Tomislav Bolanča is responsible for the financial, administrative and research management of MEAoWT. He is involved in: (i) defining of experimental plans for degradation of priority pollutants in mono-component solutions; (ii) optimization of chemical structures and generation of molecular descriptors; (iii) QSAR modeling for predicting kinetic parameters, biodegradability and toxicity of priority pollutants in mono-component solutions; (iv) ANN modeling SFOR predicting biodegradability and toxicity of priority pollutants and their intermediates in multi-component solutions; and (v) application of advanced computational tools for prediction of environmental aspects of priority pollutants' water treatment.

 

Prof. Marko Rogošić is involved in: (i) defining of experimental plans for priority pollutants degradation in mono-component solutions; (ii) optimization of UV/H₂O₂, UV/S₂O₈^2- and ferrate (VI) oxidation; (iii) determination of reaction rate constants using direct and competitive kinetics; (iv) development and verification of M/M models for simulation of priority pollutants degradation; and (v) application of advanced computational tools SFOR prediction of environmental aspects of priority pollutants' water treatment.

 

 

 

Assoc. Prof. Ana Lončarić Božić is involved in: (i) defining of experimental plans for biodegradability and toxicity study of multi-component solutions; (ii) degradation of priority pollutants by UV/H₂O₂, UV/S₂O₈^2- and ferrate(VI) oxidation (iii) water analyses by advanced analytical tools; (iv) establishing the degradation pathways of priority pollutants, biodegradability and toxicity; (v) development of M/M models for simulation of priority pollutants degradation;  (vi) QSAR modeling for predicting kinetic parameters, biodegradability and toxicity of priority pollutants in mono-component solutions; and (vii) application of advanced computational tools for prediction of environmental aspects of priority pollutants' water treatment.

 

Assoc. Prof. Šime Ukić 

Assoc. Prof. Šime Ukić is involved in: (i) optimization of UV/H₂O₂, UV/S₂O₈^2- and ferrate(VI) oxidation for degradation priority pollutants; (ii) water analyses by common and advanced analytical tools; (iii) verification of M/M models for simulation of priority pollutants degradation; (iv) defining of experimental plans SFOR studying priority pollutants biodegradability and toxicity in multi-component mixtures; (v) optimization of chemical structures and generation of molecular descriptors; (vi) ANN modeling for predicting biodegradability and toxicity of priority pollutants and their intermediates in multi-component mixtures; and (vii) application of advanced computational tools for prediction of environmental aspects of priority pollutants' water treatment.

 

 

 

 

 

 

 

M. Sc. Daria Juretić Perišić

M. Sc. Daria Juretić Perišić is involved in: (i) degradation of priority pollutants by UV/H₂O₂, UV/S₂O₈^2- and ferrate(VI) oxidation; (ii) water analyses by common and advanced analytical tools; (iii) establishing the degradation pathways and biodegradability and toxicity of priority pollutants; (iv) development of M/M models SFOR simulation of priority pollutants degradation; (v) QSAR modeling for predicting kinetic parameters, biodegradability and toxicity of priority pollutants in mono-component solutions; and (vi) application of advanced computational tools for prediction of environmental aspects of priority pollutants' water treatment.

 

 

 

Assist. Prof. Bakhtiyor Rasulev 

 

 

Assist. Prof. Bakhtiyor Rasulev expertise within the research field proposed by MEAoWT, particularly related to the computational chemistry, molecular optimization, generation and selection of descriptors using advanced computational chemistry and statistical softwares is very beneficial to the research team during modeling actions. Besides his research duties within MEAoWT, Dr. Rasulev will also provide advanced training for Croatian MEAoWT collaborators, particularly PhD students.