چکیده
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Natural gas will play a key role in the transition to a lower-carbon economy, constituting a natural
alternative to coal and acting as a backup resource to the intermittent nature of renewable generation.
These energy carriers can be structurally linked together by Power-to-X technologies because of their
interaction to increase energy efficiency. For this purpose, this paper proposes an innovative model to
optimally manage the electricity and natural gas grids in a cost-efficient manner. In this model, an energy
hub has water, electricity, and gas oil as inputs, supplying electric and thermal loads. Besides, the energy
hub uses the Power-to-gas (P2G) technology to produce natural gas, selling it to a gas network to reduce
the congestion in gas pipelines and the energy hub owner's costs. A demand response program has been
also applied in this model to shift the loads from on-peak times to off-peak ones. Various technologies
such as energy storage and distributed generation have been used in the modeling to reach the goals
targeted by operators. Furthermore, a scenario generation method has been applied to model the uncertainty
of wind turbine output. The proposed problem has been finally formulated as mixed-integer
linear programming that has been solved under GAMS software by using CPLEX solver to reach the
global optimality. The results obtained from simulations demonstrate that the proposed model can
significantly reduce the operation cost, while properly alleviating gas network congestion.
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