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Exergy analysis of industrial ammonia synthesis

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  • Kirova-Yordanova, Zornitza

Abstract

Exergy consumption of ammonia production plants depends strongly on the ammonia synthesis loop design. Due to the thermodynamically limited low degree of conversion of hydrogen–nitrogen mixture to ammonia, industrial ammonia synthesis is implemented as recycle process (so-called “ammonia synthesis loop”). Significant quantities of reactants are recycled back to reactor, after the removal of ammonia at low temperatures. Modern ammonia synthesis plants use well-developed heat- and cold recovery to improve the reaction heat utilisation and to reduce the refrigeration costs. In this work, the exergy method is applied to estimate the effect of the most important process parameters on the exergy efficiency of industrial ammonia synthesis. A specific approach, including suitable definitions of the system boundaries and process parameters, is proposed. Exergy efficiency indexes are discussed in order to make the results applicable to ammonia synthesis loops of various designs. The dependence of the exergy losses on properly selected independent process parameters is studied. Some results from detailed exergy analysis of the most commonly used ammonia synthesis loop design configurations at a wide range of selected parameters values are shown.

Suggested Citation

  • Kirova-Yordanova, Zornitza, 2004. "Exergy analysis of industrial ammonia synthesis," Energy, Elsevier, vol. 29(12), pages 2373-2384.
    • Handle: RePEc:eee:energy:v:29:y:2004:i:12:p:2373-2384
    DOI: 10.1016/j.energy.2004.03.036
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    Citations

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    Cited by:

    1. Flórez-Orrego, Daniel & de Oliveira Junior, Silvio, 2017. "Modeling and optimization of an industrial ammonia synthesis unit: An exergy approach," Energy, Elsevier, vol. 137(C), pages 234-250.
    2. Panjeshahi, M.H. & Ghasemian Langeroudi, E. & Tahouni, N., 2008. "Retrofit of ammonia plant for improving energy efficiency," Energy, Elsevier, vol. 33(1), pages 46-64.
    3. Beckinghausen, Aubrey & Odlare, Monica & Thorin, Eva & Schwede, Sebastian, 2020. "From removal to recovery: An evaluation of nitrogen recovery techniques from wastewater," Applied Energy, Elsevier, vol. 263(C).
    4. El-Shafie, Mostafa & Kambara, Shinji & Hayakawa, Yukio & Hussien, A.A., 2021. "Integration between energy and exergy analyses to assess the performance of furnace regenerative and ammonia decomposition systems," Renewable Energy, Elsevier, vol. 175(C), pages 232-243.
    5. Flórez-Orrego, Daniel & de Oliveira Junior, Silvio, 2016. "On the efficiency, exergy costs and CO2 emission cost allocation for an integrated syngas and ammonia production plant," Energy, Elsevier, vol. 117(P2), pages 341-360.
    6. BoroumandJazi, G. & Rismanchi, B. & Saidur, R., 2013. "A review on exergy analysis of industrial sector," Renewable and Sustainable Energy Reviews, Elsevier, vol. 27(C), pages 198-203.
    7. Flórez-Orrego, Daniel & de Oliveira Junior, Silvio, 2017. "Exergy assessment of single and dual pressure industrial ammonia synthesis units," Energy, Elsevier, vol. 141(C), pages 2540-2558.
    8. Penkuhn, Mathias & Tsatsaronis, George, 2017. "Comparison of different ammonia synthesis loop configurations with the aid of advanced exergy analysis," Energy, Elsevier, vol. 137(C), pages 854-864.
    9. Michalsky, Ronald & Parman, Bryon J. & Amanor-Boadu, Vincent & Pfromm, Peter H., 2012. "Solar thermochemical production of ammonia from water, air and sunlight: Thermodynamic and economic analyses," Energy, Elsevier, vol. 42(1), pages 251-260.

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