Кафедра "Технологія переробки нафти, газу і твердого палива"

Постійне посилання колекціїhttps://repository.kpi.kharkov.ua/handle/KhPI-Press/7696

Офіційний сайт кафедри http://web.kpi.kharkov.ua/fuel

Сучасна назва – кафедра "Технологія переробки нафти, газу і твердого палива", попередня – "Технологія палива та вуглецевих матеріалів".

У перші роки існування ХПІ їх попередниці входили до складу хімічного відділення. Усі розділи хімії спочатку були представлені однією кафедрою хімії, з часом створювалися кафедри технологічного профілю, зокрема з хімічної технології мінеральних речовин та барвників. Серед випускових технологічних кафедр хімічного спрямування ХПІ була і кафедра технології органічних та фарбувальних речовин. У 1885 році професор Валерій Олександрович Гемеліан першим почав читати лекції з дисципліни "Хімія та технологія барвників і їх використання".

Кафедра входить до складу Навчально-наукового інституту хімічних технологій та інженерії Національного технічного університету "Харківський політехнічний інститут".

Підготовка здійснюється за такими основними напрямами: – Переробка нафти з отриманням широкого спектру товарних нафтопродуктів; – Проектування устаткування процесів переробки нафти, вугілля та газового конденсату; – Методи оцінки якості нафти, нафтопродуктів (бензину, дизельного пального), вугілля та газу; – Виробництво альтернативного палива; – Переробка нафтошламів; – Виробництво усіх видів мастил та моторних олив, присадок; – Виробництво синтез-газу; – Коксування, газифікація вугілля; – Виробництво графітових матеріалів; – Очищення та знезараження стічних вод.

У складі науково-педагогічного колективу кафедри працюють: 3 доктора технічних наук, 4 кандидата технічних наук, 1 доктор філософії; 2 співробітника мають звання професора, 4 – доцента.

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  • Ескіз
    Документ
    Ceramic-inorganic polymer composites for protection against electromagnetic radiation mechanical properties designing
    (IOP Publishing Ltd, 2023) Lebedev, V. V.; Miroshnichenko, D. V.; Kryvobok, R. V.; Cherkashina, A. M.; Riabchenko, M. O.
    The possibility of designing mechanical properties of ceramic-inorganic polymer composites for protection against electromagnetic radiation is considered. As a result, the mechanical properties of polymer composite based on polyamide, modified with ceramic inorganic graphite-ferromagnetic fillers (silicon carbide, chromium oxide Cr2O3 and graphite) was received and optimized. The strength characteristics complex of ceramic-inorganic polymer composites with silicon carbide SiC, chromium oxide Cr2O3 and graphite content in diapason 5-15 % wt. were studied. It was established that the optimal strength characteristics can be received using binary modification of polyamide with ceramic-inorganic graphite-ferromagnetic fillers: polyamide 6 – SiC 10% wt. – Cr2O3 10% wt. and polyamide 6 – SiC 10% wt. – graphite 10% wt. Using mathematical modeling, it was established that the polyamide 6 – SiC 10% wt system is the most optimal for three-component complex modification with ceramic inorganic graphite-ferromagnetic fillers – Cr2O3 10% wt. – graphite 10% wt. By design experimental-statistical mathematical models in equal regressions, mathematical optimization of mechanical properties of polymeric ceramic-inorganic composites contains for protection against electromagnetic radiation was carried out. Designed polymer ceramic-inorganic composites for protection against electromagnetic radiation according to their strength characteristics can be used for modern radio absorbing materials production.
  • Ескіз
    Документ
    Study of lignite humic acids hybrid modification technology of biodegradable films based on polyvinyl alcohol
    (РС Теshnology сentеr, 2023) Lebedev, Vladimir Vladimirovich; Miroshnichenko, Denis Viktorovich; Tykhomyrova, Tetyana Sergiivna
    Object of article study is lignite humic acids hybrid modification technology of biodegradable films based on polyvinyl alcohol. The possibility of increasing the strength and operational properties of biodegradable polymeric materials based on polyvinyl alcohol by using its modification with the different types of humic acids from lignite is considered. Lignite humic acids hybrid modification films with antibacterial properties were obtained. The twostage technology of lignite humic acids hybrid modification of biodegradable films based on polyvinyl alcohol was formalized. At the first stage of lignite humic acids hybrid modification technologies for hybrid-modified biodegradable materials production, lignite humic acids are received. At the second stage, hybrid modification of lignite humic acids (that are part of biodegradable polyvinyl alcohol films), which are received by watering from a solution, takes place. It has been conducted a study on determining the effect of lignite humic acids hybrid modification on the most important operational properties of biodegradable film based on polyvinyl alcohol, i. e., tensile strength, relative elongation at break and time of mold appearance. Changes in tensile strength, relative elongation at break and time of mold appearance for the lignite humic acids hybrid modified biodegradable polymeric materials based on polyvinyl alcohol were revealed depending on the content of the different types of lignite humic acids. It was also shown that the lignite humic acids hybrid modification of polyvinyl alcohol with the different types of humic acids allows preserving the biodegradability of the films along with imparting the antibacterial properties. The developed lignite humic acids hybrid modified biodegradable polyvinyl alcohol films with antibacterial properties, in terms of their operational characteristics, are superior to the known similar bio degradable films based on natural biopolymers.
  • Ескіз
    Документ
    Study of brown coal humic substances hybrid modification on sorption resistance of biodegradable materials
    ("Interdruk" Poland, Warszawa, 2023) Lebedev, Vladimir Vladimirovich; Miroshnichenko, Denis Viktorovich; Tykhomyrova, Tetyana Sergiivna
    Researching on brown coal humic substances hybrid modification of biodegradable materials based on pol ylactide and coffee waste for their sorption resistance in different liquid mediums are carried out in this work. The objects of study were extrusion polylactide of the Terramac TP-4000 brand, coffee grounds waste with article size limit from 0.5 to 1 mm, dried to moisture content 0,5% and humic substances, which were obtained by extraction of brown coal. The obtained diffusion coefficient values of different liquids are in the range from 0,95 * 10⁻¹⁰ to 6,65 *10⁻¹⁰ m²\sallow us to conclude that the designed brown coal humic substances hybrid modified biodegrada ble materials based on polylactide and coffee waste can be used as a polymer base in terms of their sorption properties for one and multi-use tableware production.
  • Ескіз
    Документ
    Brown coal humic substances hybrid modified biodegradable composites wear simulation
    ("Interdruk" Poland, Warszawa, 2023) Lebedev, Vladimir Vladimirovich; Miroshnichenko, Denis Viktorovich; Tykhomyrova, Tetyana Sergiivna; Kochetov, Mykyta Sergiyovich
    Researching on wares modeling from brown coal humic substances hybrid modified biodegradable composites based on polylactide and coffee waste technology are carried out in this work. New wares are pots for seedlings and vases for planting greenery that can be used for landscaping for urban territories. The products design was made, the mathematical modeling of the designed products was carried out. The process of modeling products based on brown coal humic substances hybrid modified biodegradable composites based on polylactide and coffee was carried out in the SolidWorks 2020: 3D CAD environment with subsequent receipt of g-code, which is intended for machines for the production of molds for plastic injection.
  • Ескіз
    Документ
    Composite materials for sustainable development and electromagnetic safety of biological and technical objects
    (The University of Technology in Katowice Press, 2023) Lebedev, Vladimir Vladimirovich; Miroshnichenko, Denis Viktorovich; Tykhomyrova, Tetyana Sergiivna