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Belarusian State Technological University is one of the leading educational and scientific centers of the Republic of Belarus. It was founded in 1930. Now the University is a large multi-profile educational and scientific center in the Republic of Belarus. The activities of the University cover a wide scope ranging from training highly competitive specialists to research and development and innovative activities.

Today the University is recognized in the Republic of Belarus as a leading higher educational institution in the fields of forestry, chemical and printing industries. Belarusian State Technological University was granted the status of a basic higher educational institution of the CIS in the fields of forestry and forest industry. Later it became a full member of the International Centre for Forestry and Forest Industry (ICFFI)

The BSTU was the first among the national educational institutions to introduce the Quality Management System holding two Conformity Certificates – National Conformity Certifcate of STB ISO 9001-2009 and International Conformity Certifcate of ISO 9001:2008.

In 2011 the University was given the Governmental Prize for Quality Management. It was licensed as a research organization and joined Belarusian-Kazakhstan Research and Educational Consortium as a full member.

In March 2013, the University took under its roof five colleges, i.e. Polotsk State Forestry College, Vitebsk State Technological College, Gomel State Polytechnic College, Bobruisk State Forest Engineering College, and Belarusian State College of Building Materials Industry.

The University researchers contribute to over 230 projects within 35 national and international scientific and technical programs. The University collaborates with more than 400 national enterprises and business within commercial contracts of applied character.

The world markets of hi-tech and R&D products can only be won with state-of-the-art equipment. The University departments and the Centre for Chemical and Physical Investigation Methods are equipped with unique up-to-date research and laboratory facilities enabling high-quality research and assisting in educational process.

The University is committed to providing quality programmes benchmarked to high international standards in an intellectually rich and diverse learning environment. At the heart of our approach is a strong supportive partnership between staff and students. Our students demand a lot of us and we of them – we aim to transform

dreams and ambitions into global opportunities for success. Engineering challenges lie at the heart of many of the most significant problems facing society in the 21st century, from responding to climate change, through to developing sustainable energy sources and making efficient use of scarce natural resources.

We invite young people who want to acquire fundamental knowledge and applied skills in the specialities delivered by the University.

Project participants

Vladimir Nikolaevich Martsul

Head of the Department of Industrial Ecology, PhD
Project coordinator at BSTU
+375173277451
umartsul@gmail.com

 

In 1976 graduated from the Belarusian Technological Institute, then defended his candidate’s thesis in 1983. He has been working at the Belarusian State Technological University since 1976, the head of the Department of Industrial Ecology since 1996. Corresponding member of the International Academy of Ecology.

Teaching disciplines: “Engineering and Environmental Protection”, “Environmental Impact Assessment and Environmental Expertise”, “Environmental Control and Audit in the Protection of the Environment”, “System Analysis in the Protection of the Environment”.

Supervises the educational and research work of students, course and diploma design, a member of the SEC in the specialty “Environmental protection and rational use of natural resources.”

Scientific interests: assessment of environmental impact associated with processing and neutralization, development of technical and technological support for handling waste containing biopolymer and synthetic polymers, physico-chemical wastewater treatment.

He is the author of more than 200 scientific works (more than 70 articles), 32 inventions, 6 manuals with the stamp of the Ministry of Education of the Republic of Belarus.

Main publications:

  1. Марцуль В.Н. Оценка воздействия на окружающую среду. – Минск: БГТУ, 2006. – 286 с.
  2. Неверов А.В., Мороз Н.Л., Марцуль В.Н. Экологический менежджмент.– Минск: БГТУ, 2006.- 286с.
  3. Ражкоў Л.М., Жарская Т.А., Марцуль У.М.,Роўкач А.І. Асновы экалогіі і рацыянальнага прыродакарыстання. Мн. :”Ураджай”, 1999. – 327 с.
  4. Марцуль В.Н., Трофимов С.П., Кузьмич Н.С.Охрана окружающей среды в деревообрабатывающей промышленности. Мн, :БГТУ,1999.-82 с.
  5. Марцуль В.Н., Капориков В.П. Технические основы охраны окружающей среды : лаб. практикум для студентов специальности 1-57 01 01 «Охрана окружающей среды и рациональное использование природных ресурсов». – Мн. : БГТУ, 2005. – 144 с.
  6. Марцуль В.Н., Липик В.Т. Системный анализ в охране окружающей среды. Тексты лекций для студентов специальности 1-57 01 01 очной и заочной форм обучения. – Мн. : БГТУ, 2007. – 184 с.
  7. Марцуль В.Н.,Головач А.М. Экологический контроль и аудит в охране окружающей среды.– Минск: БГТУ, 2012. – 114 с.

Oleg Borisovich Dormeshkin

doctor of technical sciences, professor, vice-rector for scientific work of BSTU
+375173278944
dormeshkin@belstu.by

 

In 1980 graduated from the Belarusian Technological Institute on the specialty “Technology of inorganic substances”. Has been working at the Belarusian State Technological University since 1982.

Teaching disciplines: General Chemical Technology, Equipment and Basics of Design of Inorganic Substances, Technology and Equipment for the Production of Mineral Fertilizers and Salts, Typical Processes of Technology of Inorganic Substances, Modern Technologies of Inorganic Substances and Trends of Their Development.

Scientific interests: research of physico-chemical processes occurring in complex multicomponent systems formed in the production of complex mineral fertilizers, and development on their basis of new resource and energy-saving technological processes; problems of processing and recycling of industrial wastes; purification of sewage and the creation of closed water-rotation systems in the production of mineral fertilizers; study of solubility in multicomponent water-salt systems; processing of phosphate ores and obtaining new types of phosphorus-containing fertilizers; problems of professional and pedagogical training in technical universities; a new paradigm and methodological aspects of chemical and technological education in the context of changing the world educational space

The author of more than 280 scientific works, monographs, more than 25 inventions.

Main publications:

  1. Дормешкин, О. Б. Производство бесхлорных водорастворимых комплексных удобрений / О. Б. Дормешкин, Н. И. Воробьев. – Минск : БГТУ, 2006. – 248 с.
  2. Dormeshkin, O. B. Study of conversion processes in multicomponent systems in manufacture of complex magnesium containing fertilizers // Journal of applied chemistry. 88, No.10, 2015. pp. 1563-1569.
  3. Дормешкин, О. Б. Химическая технология неорганических веществ. Дипломное проектирование : учебно-методическое пособие для студентов учреждений высшего образования по специальности 1-48 01 01 “Химическая технология неорганических веществ, материалов и изделий” специализации 1-48 01 01 01 “Технология минеральных удобрений, солей и щелочей” / О. Б. Дормешкин. – Минск : БГТУ, 2016. – 108 с.
  4. Dormeshkin, O. Water cycle optimization for complex fertilizer manufacturing based on quality improvement of waste water treatment / O. Dormeshkin // Water Research and Technology : Selected publications from the Water Harmony Project, 2015. – Р. 36-43.
  5. Дормешкин, О. Б. Жидкие комплексные удобрения на основе системы NH4H2PO4– (NH4)2HPO4– CO(NH2)2 – H2O // Химическая технология. – 2016. -Т. 17, №3. – С. 98-103.
  6. Дормешкин, О. Б. Влияние магнийсодержащего сырья на процесс кислотного разложения в производстве комплексных фосфорсодержащих удобрений / О. Б. Дормешкин // Химическая промышленность сегодня. – 2016. – № 3. – С. 3-8..
  7. Состояние и перспективы развития производства стекловидных вспененных теплоизоляционных материалов / И. М. Терещенко [и др.] // Стекло и керамика. – 2017. – № 6. – С. 29-32.
  8. Дормешкин, О. Б. Реологические свойства карбамидсодержащих суспензий при получении комплексных NPK и NPKS удобрений / О. Б. Дормешкин // Химическая технология. – 2016. – Т. 17, № 12. – 538-543.
  9. Перспективные технологии получения комплексных удобрений на основе фосфоритов Каратау / О. Б. Дормешкин [и др.] // Инновационные решения проблем экономики знаний Беларуси и Казахстана : сборник материалов научно-практической конференции, Минск, 13 октября 2016 г. – Минск : БНТУ, 2016. – С. 79-80.
  10. Дормешкин, О. Б. Особенности образования и старения осадков в процессе нейтрализации в системе CaO – H[3]PO[4] – H[2]SiF[6] – H[2]O] / О. Б. Дормешкин // Весці Нацыянальнай акадэміі навук. Серыя хімічных навук. – 2016. – № 1. – С. 94-99.
  11. Дормешкин, О. Б. Особенности химических превращений, протекающих на стадии гранулирования и сушки комплексных удобрений в присутствии KCL / О. Б. Дормешкин // Труды БГТУ. – Минск : БГТУ, 2016. – № 3(185) 2016 год. – С. 54-59.
  12. Получение водорастворимого удобрения – сульфата магния из доломита / О. Б. Дормешкин [и др.] // Труды БГТУ. – Минск : БГТУ, 2016. – № 3(185) 2016 год. – С. 60-68.
  13. Гидротермальный синтез полисиликатов при производстве вспененных водостойких материалов типа R[2]O-nSiO[2] / И. М. Терещенко [и др.] // Весці Нацыяльнай акадэміі навук Беларусі. Серыя хімічных навук. – 2016. – № 2. – С. 107-109.
  14. Дормешкин, О. Б. Безотходный технологический процесс получения бесхлорного водорастворимого комплексного удобрения на основе фосфата калия / О. Б. Дормешкин, Н. И. Воробьев, В. И. Шатило // Химическая технология. – 2014. – Т. 15, № 6. – С. 324-332.

 

Artyom Dmitrievich Vorobiov

Senior Lecturer of the Deparment of Technology of Inorganic Substances and General Chemical Technology
Project Secretary from BSTU
avorobiov@belstu.by

 

Teaching disciplines: “Technology of industrial water treatment”, “Technology of soda products”; “General chemical technology.” Manages the teaching and research work of students, course and diploma design.

Scientific interests: Chemistry and technology of water treatment processes. Problems of chemical treatment of cooling and RO water. Water treatment and conditioning for use in cooling water-circulation systems, boiler systems, etc.

Author of more than 30 scientific works.

Main publications:

  1. Воробьёв А. Д. Стабилизация охлаждающих водооборотных систем фосфорорганическими соединениями / А. Д. Воробьёв, О. Б. Дормешкин, Е. В. Воробьёва // Журн. прикл. хим. – 2013. – № 5. – С. 766–771.
  2. Дормешкин, О. Б. Метод оценки эффективности действия реагентов-ингибиторов накипеобразования / О. Б. Дормешкин, А. Д. Воробьёв, Д. В. Чередниченко // Труды БГТУ. – 2013. – № 3: Химия и технология неорган. в-в. – С. 67–71.
  3. Особенности кристаллизации карбоната кальция в присутствии органических фосфатов и карбоновых кислот / А. Д. Воробьёв, О. Б. Дормешкин, Ю. В. Матрунчик, Н. П. Крутько // Вес. Нац. акад. навук Беларусі. Сер. хім. навук. – 2014. – № 1. – С. 101–107
  4. Ингибиторы отложений солей жесткости и коррозии для водооборотных систем охлаждения / Д.В. Чередниченко, П.Д. Воробьёв, А.Д. Воробьёв, И.В. Шестак, Н.П. Крутько // Вес. Нац. акад. навук Беларусі. Сер. хім. навук. – 2014. – № 1. – С. 107–113.
  5. Воробьёв, А. Д. Ингибирование процесса кристаллизации карбоната кальция смесью органических фосфатов и карбоновых кислот / А. Д. Воробьёв, О. Б. Дормешкин // Вес. Нац. акад. навук Беларусі. Сер. хім. навук. – 2014. – № 2. – С. 91–98.
  6. Влияние фосфоновых и карбоновых кислот на кристаллизацию малорастворимых солей / А. Д. Воробьев, О. Б. Дормешкин, Е. В. Воробьева, Д. В. Чередниченко // Журнал неорганической химии. – 2016. – Т.61. – № 8. – С. 1001–1005.