ANALYSIS OF TECHNOLOGICAL POSSIBILITIES OF FERRIC RECOVERY BY NON-CONVENTIONAL REDUCING AGENTS

308

The article discusses the results of the analysis of the technological possibilities of iron
recovery of iron-containing concentrate by non-traditional restorers. The restoration of iron from
its oxide compounds by direct gas recovery of iron-containing pellets with carbon monoxide is
presented. The direct use of the secondary carbon monoxide available in the republic is shown in
comparison with the application of complex process processes of carbon monoxide processing
and production of intermediate products. It has been established that in order to fully recover
iron oxides in the source raw material mass the technological cycle should be repeated several
times. As a result, alloys of iron with other metals in iron ore concentrate are formed, as
hydrogen is the ideal regenerator.

Name of journalTechnical science and innovation
Number of edition2019,№2(02)
View count308

Web Address

DOI

Date of creation in the UzSCI system24-01-2020

Read count270

Date of publication11-12-2019

Main LanguageIngliz

Pages56-63

Tags

monoxide

oxygenate

pelvis

regeneration

iron ore

exothermic reactions

magnetic separation

Ўзбек

Maqolada temir va uning oksidli birikmalarni uglerod monooksidi bilan temir tarkibli
konsentrat g’ovakli donachalarini to’g’ridan-to’g’ri qaytarish natijalari tahlil qilingan.
Respublikada amaldagi ko’p bosqichli murrakkab texnologik jarayonni qo’llash o’rniga
mavjud bo’lgan ikkilamchi potensialdan uglerod monooksididan foydalanish maqsadga muvofiq
ekanligi aniqlangan. Temir oksidlarning to’liq qaytarilishi uchun dastlabgi hom ashyoni
qaytarish texnologik davrini bir necha qaytarish kerakligi ma’lum bo’lgan.
Olingannatijalarasosidatemirrudasikonsentratitarkibidagimavjudboshqametallarbilanbirg
aqotishmalarhosilbo’lishianiqlangan, chunkivodorod ideal qaytaruvchi hisoblanadi.

Tags

English

The article discusses the results of the analysis of the technological possibilities of iron
recovery of iron-containing concentrate by non-traditional restorers. The restoration of iron from
its oxide compounds by direct gas recovery of iron-containing pellets with carbon monoxide is
presented. The direct use of the secondary carbon monoxide available in the republic is shown in
comparison with the application of complex process processes of carbon monoxide processing
and production of intermediate products. It has been established that in order to fully recover
iron oxides in the source raw material mass the technological cycle should be repeated several
times. As a result, alloys of iron with other metals in iron ore concentrate are formed, as
hydrogen is the ideal regenerator.

Tags

monoxide

oxygenate

pelvis

regeneration

iron ore

exothermic reactions

magnetic separation

Русский

В статье рассматриваются результаты анализа технологических возможностей
получения железа восстановлением железосодержащего концентрата нетрадиционными
восстановителями. Представлено восстановление железа из его оксидных соединений
методом прямого газового восстановления железосодержащих концентратов-окатышей с
монооксидом углерода. Показано целесообразным прямое использование имеющегося в
республике вторичного монооксида углерода по сравнению с применением сложных
технологических процессов переработки монооксида углерода и получением промежуточных
продуктов. Установлено, что для полного восстановления оксидов железа в исходной
сырьевой массе технологический цикл следует повторить несколько раз. В результате
образуются сплавы железа с другими металлами, имеющими место в составе железорудного
концентрата, поскольку водород является идеальным восстановителем.

Tags

№ Author name position Name of organisation

1 Abidova G.S. Ilmiy xodim TDTU

2 Aminov N.S. assistent TDTU

3 Avdyakova O.S. dotsent Институт химии и инженерной экологии. Россия. Тольяттинский государственный университет.

№ Name of reference

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№	Author name	position	Name of organisation
1	Abidova G.S.	Ilmiy xodim	TDTU
2	Aminov N.S.	assistent	TDTU
3	Avdyakova O.S.	dotsent	Институт химии и инженерной экологии. Россия. Тольяттинский государственный университет.