چكيده به لاتين
Power supply in traditional networks is done by large power plants that are centrally located in specific points, and the generated energy must be transferred to the consumption points through transmission and distribution networks. The above power system has many drawbacks, including the reduction of reliability and availability due to the deterioration of the electrical system infrastructure and the imposition of high costs of losses in the transmission of energy to load points. With the growth of electricity consumption and demand for higher quality electricity consumption, the electricity industry has shifted to the use of new technologies, so concepts such as renewable energy plants, microgrids, on-site generation, consumption management, simultaneous production of energy carriers and methods Response to demand emerged. This report examines and compares the use of multi energy carriers simultaneously in smart distribution microgrids and optimal load distribution and reduces the cost of microgrid performance by using different methods including energy management and demand response and using control devices. This thesis examines and compares the use of several energy carriers simultaneously in intelligent distribution microgrids, by using the price based demand response method, thermal storage, temperature controller and uncertainties determination. The optimal load distribution is implemented and we calculate the increase in profit from this method.
