Optimal planning of energy hubs in interconnected energy systems: a case study for natural gas and electricity
In an energy hub, every energy carrier will be converted to alternative varieties of energy to meet electricity, heating and cooling power demand in an optimal manner. During this study, a framework is presented to optimally style and size interconnected energy hubs. It considers physical constraints on natural gas and electricity networks and environmental problems. The proposed style methodology decides on that parts ought to be allocated to every hub and in what capacity. It includes combined heat and power, boiler, absorption chiller, compression chiller, electricity storage (Li-ion battery) and heat storage. The model also considers incentive policies to put in distributed generation so reducing emissions. Furthermore, it takes energy offer reliability primarily based on availability of components into consideration. This model can facilitate with conducting studies connected to designing future energy systems with interconnected energy hubs. The proposed model has been simulated on an interconnected take a look at system, which represents a municipal district with 3 energy hubs.
Did you like this research project?
To get this research project Guidelines, Training and Code… Click Here