Place of birth Xujbala village of Guba district of Azerbaijan Republic 
Date of birth May 5, 1946
Education S.M. Kirov Baku State University 
Scientific degree Doctor of Chemical Sciences
Title Professor 

Topic of  PhD thesis:

-         specialty code

-         specialty name

-         topic name


2314.01

Petrochemistry

Synthesis of allyl and qlysidyl ethers of p-isopropomylphenol and their cooliqomerization with styrene and malein anhydride

Topic of doctoral thesis:

-         specialty code

-         specialty name

-         topic name


2314.01

Petrochemistry

Synthesis and effective application area of reactive oliqoethers and epoxyoliqomers

Total number of printed scientific publications:

-          number of scientific publications printed abroad:

-          number of papers  published in journals indexed and abstracted in international databases

236

 

80

 

20

Number of patents and certificates of authorship 21

Staff training:     

-         number of  PhD

-         number of  Doctor of sciences 


5

Basic scientific achievements

Main scientific achievements: In the result of conducted complex investigations scientific basis for synthesis of new reactive sopolymers of adjustable composition, structure, molecular weight, nature and number of functional groups on the base of propylene oxide, glycidyl ester of methacrylic acid, styrene and butadiene and anhydrides of dibasic carboxylic acids, prepared on the base unsaturated hydrocarbons contained in C5 fraction of liquid pyrolysis products has been developed. It has been found that along with high reactivity these kinds of copolymers are characterized by high hardness, adhesion, weather, light and heat resistance and resistance to temperature changes. Thanks to these properties these copolymers are recommended as a binding agent in the composite materials and modifiers for polymer materials.

On the basis of available raw material which is light gas oil of catalytic cracking one-stage method for synthesis of petroleum resin – phenoformolite has been developed. The latter finds wide application as an insulating material, ion exchange composition and foam plastic. Based ob determined high electrical insulating properties the products obtained are recommended as an insulating material in the field of high voltage.

In recent years systematic studies in the field of synthesis of ionic liquid compositions are conducted which finds wide application as a catalytic component, catalytic systems and reaction medium and solvent allowing creation of simple, ecologically safe, economically effective technologies of synthesis and processing. In particular, synthesis of chloroaluminate ionic liquid catalytic systems has been carried out. Oligomerization of C8-C10 α-olefins in their presence has been realized giving synthetic poly-α-olefin oils characterizing by high viscosity, viscosity index, low unsaturation degree, freezing point, oxidation stability and low volatility. By studying the structures of synthesized oil fractions it has been found that oligomerization of α-olefins in the presence of chloroaluminate ionic liquids leads to formation of oligomers having naphthene-paraffin structure practically not containing unsaturated fragments in macromolecule that makes possible their use as a component in obtaining semisynthetic base oils without preliminary hydrogenation. Possibility of obtaining semisynthetic engine and industrial oils on the base of synthesized poly-α-olefin oil fractions and mineral oil has been shown.

Purposeful studies has been conducted in the field of selective purification of petroleum fractions using neutral ionic liquids as a selective solvent synthesized on the basis of organic acids and various amines. Perspectives of use of synthesized ionic liquids as an extractant for selective purification with obtaining fuels and base oils of improved quality has been established. Based on obtained results, ionic liquid on the basis of morpholine and formic acid is recommended as an extractant for selective purification of oil fractions of various viscosities. Synthesis of experimental batch of mentioned ionic liquid and purification of transformer oil were realized at experimental-industrial plant.

Investigations in the field of synthesis of high-molecular compounds, particularly, styrene homopolymers and copolymers by radical polymerization in mode of “living” chains are carried out. Conditions of synthesis of polystyrene, copolymers and block copolymers of styrene with methacrylic acid based esters characterized by relatively narrow polydispersity with participation of stable free radical 4-carboxyamide-2,2,5,5-tetramethylpyrrolidine-1-oxyl have been determined.

Carried out obtaining process of super- plastificator in powder form in the experimental industrial factory as a continuation of research works in field of obtaining superplastificator based on gasoil fraction from catalytic cracking process.

Names of scientific works

1. Ибрагимова М.Д ., Самедова Ф.И.,Гасанова Р.З., Азмамедов Н.Г., Эйвазов Э.З. Синтез олигооктеновых и олигодеценовых масел в присутствии хлоралюминатных ионных жидкостей // Нефтехимия 2007,№1, Т. 47,c. 64-67

2. Ибрагимова М.Д., Азизов А.Г., Гаджиева Т.А. и др. Синтез олигомеров и соолигомеров регулируемой молекулярной массы и структуры методами радикальной и ионно-жидкостной олигомеризации // Доклады НАНА, 2009, №6, с.70-78

3.Ибрагимова М.Д., Азизов А.Г., Самедова Ф.И., Мамедов.Р.Б. Ионные жидкости в процессах экстракции нефтяных фракций // Нефтепереработка и Нефтехимия, 2010, № 11, с. 26-29

4. Azizov A.H., Aliyeva R.V., Kalbaliyeva E.S, Ibrhimova M.C. Selective synthesis and mechanism of formation of oligoalkylnapthenic oils by oligocyclization of hexane in the presence of ionic-liquid catalysts. // Journal of Applied Catalysis A: General 375(2010), p.70-77.

5. Ибрагимова М.Д., Азизов А.Г., Самедова Ф.И., Нагиев В.А., Мамедов Р.Б. Перспективность применения ионных жидкостей в процессах селективной очистки нефтяных фракций. Перспективные направления исследований в области нефтепереработки и нефтехимии (Сборник обзорных статей ИНХП НАНА) Баку“Элм”,2013,462 C./ c.86-121

6. Ибрагимова М.Д., Азизов А.Г., Мамедова П.Ш., Ибрагимова Т.А., Юсифзаде Ф.Ю., Дадашева С.Д. Исследование Cu содержащих композитов на основе сополимеров стирола с бутоксиметилметакрилатом регулируемой структуры в качестве антимикробных присадок к синтетическим маслам. // Мир нефтепроду-ктов. Вестник нефтяных компаний. 2014, №2, c.22-24

Membership with international and foreign scientific organizations  
Pedagogical activity  
Other activities

- Member of the Scientific Council of ANAS

- Scientific Secretary of D 01.031 Thesis Council in charge of the defense of theses for PhD and doctoral scientific degrees on specialties of “Petrochemistry”, “ Chemical technology and engineering”, “Oil-Gas-rock coal processing and technology”, “Chemistry and technology of gas processing processes” which operates under the ANAS.

- Processes of petrochemistry and oil refining

Awards and prizes

1.Medal of Progress

2.Diplom of All-Union Chemical Society named after D.I.Mendeleev

Main place of work and its address ANAS The Y.H.Mamedaliyev İnstitute of Petrochemical ProcessesAZ1025, Azərbaycan Respublikası, Bakı ş., Xocalı pr., 30
Position Head of  laboratory
Office phone (+994 12) 4965894
Mobile (+994 55) 7019046
Home phone (+994 12) 4325533
Fax (+994 12) 4903520
E-mail

minaver-ibrahimova@rambler.ru