期刊
IEEE TRANSACTIONS ON INDUSTRY APPLICATIONS
卷 55, 期 6, 页码 5543-5553出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TIA.2019.2934088
关键词
All-electric ship (AES); carbon capture system (CCS); greenhouse gas (GHG) emission; joint management; optimal sizing
资金
- Ministry of Education (MOE), Republic of Singapore, under Grant AcRF TIER 1 [2019-T1-001-069, RG75/19]
- Nanyang Assistant Professorship from Nanyang Technological University, Singapore
Under increasingly stringent emission regulations, carbon capture system (CCS) is a feasible alternative to reduce the shipping greenhouse gas (GHG) emission before the maturity of renewable energy technology. In this sense, this article proposes an optimal sizing method to determine the capacity of shipboard CCS under strict energy efficiency operating index (EEOI) constraint. The proposed model is formulated as a two-stage planning problem, where the first stage is to determine the capacity of CCS and the expanded capacity of energy storage system to sustain the operation of CCS, and the second stage is a joint shipboard generation and demand-side management model to address the power shortage issue led by the CCS integration. Extensive simulations demonstrate that under EEOI constraint, the CCS integration is feasible to reduce the shipping GHG emission, and the proposed joint generation and demand-side management method is able to relieve the power shortage issue of shipboard CCS. The corresponding average carbon capture level increases 11.9% with the joint management.
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