OPTIMAL ALLOCATION ON DISTRIBUTION NETWORK WITH THE LINEAR INTEGRATION PROGRAMMING OF DISTRIBUTION GENERATOR
Embedded generation (EG) can be defined as small-scale generation, which is not directly connected to the transmission system and is not centrally dispatched. Generation is now being connected at distribution level, which has led to the characteristics of the network being changed. If increasing levels of generation are to be accommodated, then there must be a change of thinking regarding the planning and design of the distribution network. As a result of the restructuring of electricity markets and the targets laid down for renewable energy, increasing amounts of embedded generation (EG) are being connected to distribution networks. To accommodate this new type of generation, the existing distribution network should be utilized and developed in an optimal manner. This design based on the background to the technical constraints faced by EG projects, and a new methodology is developed using linear programming to determine the optimal allocation of EG with respect to voltage and power loss constraints. The methodology is implemented and tested on IEEE-15 network.
Reference Paper-1: Modeling and Simulation of Distribution Network with the Integration of Distribution Generator using Matlab
Author’s Name: T. D. Sudhakar, M. Raja Rajan, K. N. Srinivas, R. Raja Prabu, T.V. Narmadha and M. Mohana Krishnan
Source: INDJST
Year: 2016
Reference Paper-2: Optimal Allocation of Embedded Generation on Distribution Networks
Author’s Name: Andrew Keane and Mark O’Malley
Source: IEEE
Year: 2005
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