PROJECT TITLE :
Optimal Design of Multicarrier Energy Systems Considering Reliability Constraints
An energy hub, which receives, converts, stores, and delivers different energy carriers by means that of a selection of energy converters and/or storage components, is one in every of the most vital concepts in multicarrier energy systems. For value-effective and reliable provide of energy to masses in multicarrier energy systems, the problem of selecting different components forming the hub (called hub design) and their operation is of great importance. During this paper, a comprehensive linearized model for optimal design and operation of energy hubs considering reliability constraints is proposed. Adequacy indices and maximum-allowable loss of load probability (LOLP) in case of single contingency are checked and different reliability constraints are introduced in the optimization method to satisfy the specified level of reliability for various load varieties. Finally, the proposed methodology is applied on a take a look at case considering electrical and thermal hundreds. The obtained results show the power of the proposed methodology in meeting energy demand whereas respecting reliability constraints.
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