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Thermal design and analysis of an organic rankine cycle system utilizing the main engine and cargo oil pump turbine based waste heats in a large tanker ship

Thermal design and analysis of an organic rankine cycle system utilizing the main engine and cargo oil pump turbine based waste heats in a large tanker ship
Thermal design and analysis of an organic rankine cycle system utilizing the main engine and cargo oil pump turbine based waste heats in a large tanker ship

The utilization of main engine-based waste heat sources using organic Rankine cycle (ORC) systems is only available during the navigation phases of marine vessels, which leads to reductions in the system uptake time and economic viability of the investment during cargo loading/discharging operations and waiting periods in ports. The novel perspective of this study is to propose the cargo oil pump turbine (COPT) based waste heat as a utilizable source, which has not been introduced in the literature yet, and show the economic viability of ORC systems for tanker ships. In this regard, a new waste heat recovery system specifically designed for a reference crude oil tanker ship was introduced that can utilize both main engine-based waste heat during navigation and COPT-based waste heat during cargo discharge operations. The optimal heat exchanger network of the main engine and COPT-based waste heats was designed using pinch point analysis method for achieving optimum waste heat recovery. Energy and exergy analyses were conducted for the proposed ORC integrated waste heat recovery system for both navigation and discharge operation modes of the ship. The economic performance of the ORC system was further assessed by calculating payback periods and levelized energy costs for eleven design points. The highest energy conversion efficiency (16.2%) was achieved when the ORC condenser outlet temperature was taken as 15 °C for R1233zd(E). COPT based waste heat reduced the levelized energy cost of the system by at least 8.9% and the minimum levelized energy cost value was obtained as 0.1307. The best economic performance was yielded with COPT utilization at design point 9 with a payback period of 6.2 years, which was reduced by at least 0.7 years with the utilization of COPT based waste heat.

Cargo oil pump turbine, Economic evaluation, Marine engineering, Organic rankine cycle, Sustainability, Waste heat recovery
0959-6526
Konur, Olgun
4d099dab-c4ae-4baa-a93a-cf6471c304e6
Yuksel, Onur
5138ebb7-a0f3-4308-907c-5baf1dd35360
Korkmaz, S. Aykut
959074e1-2ec0-405c-b1ec-eeababef216b
Colpan, C. Ozgur
b3fce544-afd7-4815-a5cb-d947797a9dbc
Saatcioglu, Omur Y.
08731fb2-f9d9-4aa6-8d84-d66e9a4fd30b
Muslu, Ilker
4e3683a3-e27e-4be7-8d0a-d20055c44bda
Konur, Olgun
4d099dab-c4ae-4baa-a93a-cf6471c304e6
Yuksel, Onur
5138ebb7-a0f3-4308-907c-5baf1dd35360
Korkmaz, S. Aykut
959074e1-2ec0-405c-b1ec-eeababef216b
Colpan, C. Ozgur
b3fce544-afd7-4815-a5cb-d947797a9dbc
Saatcioglu, Omur Y.
08731fb2-f9d9-4aa6-8d84-d66e9a4fd30b
Muslu, Ilker
4e3683a3-e27e-4be7-8d0a-d20055c44bda

Konur, Olgun, Yuksel, Onur, Korkmaz, S. Aykut, Colpan, C. Ozgur, Saatcioglu, Omur Y. and Muslu, Ilker (2022) Thermal design and analysis of an organic rankine cycle system utilizing the main engine and cargo oil pump turbine based waste heats in a large tanker ship. Journal of Cleaner Production, 368, [133230]. (doi:10.1016/j.jclepro.2022.133230).

Record type: Article

Abstract

The utilization of main engine-based waste heat sources using organic Rankine cycle (ORC) systems is only available during the navigation phases of marine vessels, which leads to reductions in the system uptake time and economic viability of the investment during cargo loading/discharging operations and waiting periods in ports. The novel perspective of this study is to propose the cargo oil pump turbine (COPT) based waste heat as a utilizable source, which has not been introduced in the literature yet, and show the economic viability of ORC systems for tanker ships. In this regard, a new waste heat recovery system specifically designed for a reference crude oil tanker ship was introduced that can utilize both main engine-based waste heat during navigation and COPT-based waste heat during cargo discharge operations. The optimal heat exchanger network of the main engine and COPT-based waste heats was designed using pinch point analysis method for achieving optimum waste heat recovery. Energy and exergy analyses were conducted for the proposed ORC integrated waste heat recovery system for both navigation and discharge operation modes of the ship. The economic performance of the ORC system was further assessed by calculating payback periods and levelized energy costs for eleven design points. The highest energy conversion efficiency (16.2%) was achieved when the ORC condenser outlet temperature was taken as 15 °C for R1233zd(E). COPT based waste heat reduced the levelized energy cost of the system by at least 8.9% and the minimum levelized energy cost value was obtained as 0.1307. The best economic performance was yielded with COPT utilization at design point 9 with a payback period of 6.2 years, which was reduced by at least 0.7 years with the utilization of COPT based waste heat.

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More information

Accepted/In Press date: 18 July 2022
e-pub ahead of print date: 20 July 2022
Published date: 25 September 2022
Additional Information: Funding Information: The authors acknowledge the Pinch Team, the Competence Center for Thermal Energy Systems and Process Engineering (CC TEVT) at Hochschule Luzern, for their support in providing the PinCH 3.0 software free of charge for 1 year. Publisher Copyright: © 2022 Elsevier Ltd
Keywords: Cargo oil pump turbine, Economic evaluation, Marine engineering, Organic rankine cycle, Sustainability, Waste heat recovery

Identifiers

Local EPrints ID: 486623
URI: http://eprints.soton.ac.uk/id/eprint/486623
DOI: doi:10.1016/j.jclepro.2022.133230
ISSN: 0959-6526
PURE UUID: 154ae91f-9d4e-442c-93ad-b9520929e73d
ORCID for S. Aykut Korkmaz: ORCID iD orcid.org/0000-0001-5972-6971

Catalogue record

Date deposited: 26 Jan 2024 18:04
Last modified: 18 Mar 2024 04:15

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Contributors

Author: Olgun Konur
Author: Onur Yuksel
Author: S. Aykut Korkmaz ORCID iD
Author: C. Ozgur Colpan
Author: Omur Y. Saatcioglu
Author: Ilker Muslu

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