Generally, maritime grids involve many types of energy carriers, and these energy carriers exchange, transform and distribute within the maritime grids, including the transportation of fossil fuel, fuel to electricity generation, electricity to heat, and fuel to heat, and so on. Besides, maritime grids also involve the operation of the transportation system or even wireless communication in the future. In this sense, future maritime grids can be viewed as “multi-energy transportation-power microgrids”, and the proper management of those multiple energy carriers is essential for the operation of future maritime grids. This Chapter focuses on this topic to analyze the roles of multi-energy management in future maritime grids. The organization of this Chapter is shown as follows, (1) the first section introduces the concept of multi-energy management; and (2) the second section gives a few examples of future multi-energy maritime grids; and (3) the third section formulates a general model for the multi-energy management of maritime grids and gives a decomposed solving process; and (4) the fourth section gives two typical problems, (1) multi-energy management in ships, and (2) multi-energy management in seaports, to analyze the roles of multi-energy management in the operation of maritime grids.
Multi-energy Management of Maritime Grids
Springer Ser.Naval Architect., Marine Engineer., Shipbuilding, Shipping
Optimization-Based Energy Management for Multi-energy Maritime Grids ; Chapter : 7 ; 149-171
2021-04-22
23 pages
Article/Chapter (Book)
Electronic Resource
English
Optimization-Based Energy Management for Multi-energy Maritime Grids
Catalogue medicine | 2021
|Optimization-Based Energy Management for Multi-energy Maritime Grids
Catalogue medicine | 2021
|