Stability Analysis in a Smart Grid Network Due to Dynamic Demand Load Respond

Abstract

The modern electric grid is developing through smart grid network and at particular demand load response a smart grid network how much affected the efficiency of the overall grid system is a key factor of system analysis. Due to the traditional loading of grid network is often excessive cost and so estimation of smart power grid network increase day by day through mathematical modeling tools which reduces operating time and cost. Furthermore the proposed smart model can also reduce computing costs together with time concern than more accurate problem representation in classical orientation. This paper establish a Stability analysis of IEEE 14 bus power model using demand respond monthly data of West Bengal Power scenario and demonstrates its feasibility. The results obtained are verified with the standard available results. We shortly summarize in our paper the approach of physical application, calculation procedure and difference types of stability possibilities that are illustrated in detail in the references. Load modelling is also applied when demand needs to be shifted at point of response in our experimental investigation that resuts the informational value and reliability of the different indices. Method of the experimentation was compared with the different index values observed by numerical simulation in time domain on realistic sample network. Aim of this work is to enhance stability methods for calculating on different cases through smart network planning, operation control and to provide a possibility of realtime monitoring system of stability for power dispatcher.