Optimizing Waste Heat Recovery in Marine Power Plants

Theophilus-johnson, Kombo; Ogboada Jaja, Goodnews; Chuku, Azubuike John

doi:10.31217/p.40.2.2

Scientific Journal of Maritime Research, Vol. 40 No. 2, 2026.

Original scientific paper

https://doi.org/10.31217/p.40.2.2

Optimizing Waste Heat Recovery in Marine Power Plants

Kombo Theophilus-johnson orcid.org/0000-0001-6284-4477 ; Rivers State University, Faculty of Engineering, Department of Marine and Offshore Engineering, Port Harcourt, Nigeria. *
Goodnews Ogboada Jaja orcid.org/0000-0003-2189-1765 ; Rivers State University, Faculty of Science, Department of Computer Science, P. M. B. 5080, Port Harcourt, Nigeria
Azubuike John Chuku ; Rivers State University, Faculty of Engineering, Department of Marine Engineering, P. M. B. 5080, Port Harcourt, Nigeria

* Corresponding author.

Full text: english pdf 2.182 Kb

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APA 6th Edition

Theophilus-johnson, K., Ogboada Jaja, G. & Chuku, A.J. (2026). Optimizing Waste Heat Recovery in Marine Power Plants. Pomorstvo, 40 (2), 177-188. https://doi.org/10.31217/p.40.2.2

MLA 8th Edition

Theophilus-johnson, Kombo, et al. "Optimizing Waste Heat Recovery in Marine Power Plants." Pomorstvo, vol. 40, no. 2, 2026, pp. 177-188. https://doi.org/10.31217/p.40.2.2. Accessed 18 May 2026.

Chicago 17th Edition

Theophilus-johnson, Kombo, Goodnews Ogboada Jaja and Azubuike John Chuku. "Optimizing Waste Heat Recovery in Marine Power Plants." Pomorstvo 40, no. 2 (2026): 177-188. https://doi.org/10.31217/p.40.2.2

Harvard

Theophilus-johnson, K., Ogboada Jaja, G., and Chuku, A.J. (2026). 'Optimizing Waste Heat Recovery in Marine Power Plants', Pomorstvo, 40(2), pp. 177-188. https://doi.org/10.31217/p.40.2.2

Vancouver

Theophilus-johnson K, Ogboada Jaja G, Chuku AJ. Optimizing Waste Heat Recovery in Marine Power Plants. Pomorstvo [Internet]. 2026 [cited 2026 May 18];40(2):177-188. https://doi.org/10.31217/p.40.2.2

IEEE

K. Theophilus-johnson, G. Ogboada Jaja and A.J. Chuku, "Optimizing Waste Heat Recovery in Marine Power Plants", Pomorstvo, vol.40, no. 2, pp. 177-188, 2026. [Online]. https://doi.org/10.31217/p.40.2.2

Abstract

In today’s world, the demand for marine industries to improve energy efficiency and reduce environmental impact from marine power plants through waste heat recovery (WHR) is increasing daily. The energy efficiency of the marine engine is about 50% with a large amount of energy removed as waste heat, especially in exhaust gases. The present research paper proposes the optimization of the WHR by adopting the artificial neural network (ANN) model, exploring real-world data extracted from marine power plants on board to investigate the optimization of waste heat recovery. The ANN model, which was trained with operational parameters including exhaust gas temperature, engine load and ambient conditions, showed a very good predictive capability producing an R2 of 0.95, RMSE of 3.85kW, and MAE of 2.68kW. The ANN model proved to be more accurate and reliable than conventional thermodynamic methods considering fluctuating operational conditions. As indicated by the sensitivity analysis, exhaust gas temperature and engine load were found to produce the greatest impact on the potential of WHR. The results have a tremendous impact on the maritime sector, enabling ship operators and owners to improve efficiency and sustainability while reducing exhaust gas emissions.

Keywords

Waste Heat Recovery; Marine Power Plants; Artificial Neural Networks; energy efficiency; Marine Sustainability; Machine Learning

Hrčak ID:

346488

URI

https://hrcak.srce.hr/346488

Publication date:

23.4.2026.

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Scientific Journal of Maritime Research, Vol. 40 No. 2, 2026.

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