Research into the possibility of gas utilization with different nitrogen content for ammonia production

Kozlov, A.M.

doi:10.7868/S3034605325010072

PII

S30346053S0040357125010072-1

DOI

10.7868/S3034605325010072

Publication type

Article

Status

Published

Authors

A.M. Kozlov

Affiliation: Gubkin Russian State University of Oil and Gas

Volume/ Edition

Volume 59 / Issue number 1

Pages

57-61

Abstract

The paper studies the possibility of ammonia production from natural gases ballasted with inert components on the example of nitrogen-methane mixture with nitrogen content from 0 to 43 vol. %. The processes of steam, autothermal conversion, steps of nitrogen-hydrogen mixture preparation and the process of ammonia synthesis on the basis of thermodynamic data are considered.

Keywords

аммиак азот производство аммиака двухступенчатая конверсия природного газа

Date of publication

03.02.2025

Year of publication

2025

Number of purchasers

Views

References

1. Babak V.N., Didenko L.P., Sementsova L.A., Kvurt Y.P. Optimization of steam reforming of methane in a hydrogen-filtering membrane module with a nickel catalyst and a palladium-alloy foil// Theor. Found. Chem. Eng. 2022. V. 56. № 3. P. 279.
2. Анциферов А.С., Бакин Б.Е., Варламов И.П. и др. Геология нефти и газа Сибирской платформы. М.: Недра, 1981.
3. Рогозина Е.А. Состав, зональность и масштабы генерации газов при катагенезе органического вещества гумусовых углей // Нефтегазовая геология. Теория и практика. 2008. Т. 3. № 3. С. 1.
4. Масюк В.А., Сосна М.Х., Карпов А.Б. Производство аммиака. М.: РГУ нефти и газа (НИУ) им. И.М. Губкина, 2020.
5. ИТС 2-2022 Производство аммиака, минеральных удобрений и неорганических кислот [Электронный ресурс] URL: https://rapu.ru/upload/guide_its_ndt_2_2022.pdf (дата обращения 02.06.2024).
6. Сосна М.Х., Касым О.Н. Основные тенденции в развитии технологии производства аммиака // Нефтегазохимия. 2017. № 4. С. 17.
7. Murmura M.A., Diana M., Spera R., Annesini M.C. Modeling of autothermal methane steam reforming: Comparison of reactor configurations // Chemical Engineering and Processing - Process Intensification. 2016. V.109. Р. 125.
8. Афанасьев С.В., Гартман В.Л. Каталитическая конверсия оксида углерода первой и второй ступени // “Neftegaz.RU”. 2021. № 7. С. 28
9. Воробьев Н.И. Технология связанного азота и азотных удобрений. Минск.: БГТУ, 2011.

GOST	Kozlov A. Research into the possibility of gas utilization with different nitrogen content for ammonia production // Theoretical Foundations of Chemical Engineering. – 2025. – V. 59. – Issue number 1 C. 57-61 . URL: https://tohtras.ru/s30346053s0040357125010072-1/?version_id=109129. DOI: 10.7868/S3034605325010072
MLA	Kozlov, A.M "Research into the possibility of gas utilization with different nitrogen content for ammonia production." Theoretical Foundations of Chemical Engineering. 59.1 (2025).:57-61. DOI: 10.7868/S3034605325010072
APA	Kozlov A. (2025). Research into the possibility of gas utilization with different nitrogen content for ammonia production. Theoretical Foundations of Chemical Engineering. vol. 59, no. 1, pp.57-61 DOI: 10.7868/S3034605325010072

RAS Chemistry & Material ScienceТеоретические основы химической технологии Theoretical Foundations of Chemical Engineering

Research into the possibility of gas utilization with different nitrogen content for ammonia production

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References

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RAS Chemistry & Material ScienceТеоретические основы химической технологии Theoretical Foundations of Chemical Engineering

Research into the possibility of gas utilization with different nitrogen content for ammonia production

You can

References

Индексирование

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