This paper is published in Volume-8, Issue-5, 2022
Area
Department of Electrical Engineering
Author
Rajinder Kumar, Dr. Anand Mohan
Org/Univ
Alakh Prakash Goyal Shimla University, Shimla, Himachal Pradesh, India
Pub. Date
27 December, 2022
Paper ID
V8I5-1278
Publisher
Keywords
Optimization, DG, Solar, Genetic, PSO

Citationsacebook

IEEE
Rajinder Kumar, Dr. Anand Mohan. Solar Base Distributed Generation in the electrical distributed network using PSO and genetic algorithm with Ant Colony Optimization, International Journal of Advance Research, Ideas and Innovations in Technology, www.IJARIIT.com.

APA
Rajinder Kumar, Dr. Anand Mohan (2022). Solar Base Distributed Generation in the electrical distributed network using PSO and genetic algorithm with Ant Colony Optimization. International Journal of Advance Research, Ideas and Innovations in Technology, 8(5) www.IJARIIT.com.

MLA
Rajinder Kumar, Dr. Anand Mohan. "Solar Base Distributed Generation in the electrical distributed network using PSO and genetic algorithm with Ant Colony Optimization." International Journal of Advance Research, Ideas and Innovations in Technology 8.5 (2022). www.IJARIIT.com.

Abstract

Energy plays a vital role for all humans as it can neither be created nor destroyed but can move/transform from one place to another. Modern living has realized the increased importance of energy as life moves faster; there is a significant need for fast communication, fast transport, and manufacturing processes. So, the energy industry forms one of the biggest consumer markets . The use of electric power system requires an alternative generation because of its great demand by the consumers. The electricity cost is calculated based on different proportions such as 50% for fuel consumption, 25% for distribution, 20% for generation, and 5% for transmission, which has created an alert to use or generate alternative power resources. For the distribution levels, the ratio of reactance to resistance (X/R) is low compared to transmission levels, which has resulted in high power losses and voltage magnitude reduced along with the distribution (radial) lines. The distribution systems must provide energy/electricity to each consumer at an appropriate form of voltage rating. The modern forms of power are involved, with multiple load centers and generating stations interconnected through the transmission and distribution networks. The energy-based power system's main Objective is energy generation and to deliver the energy/power to its customers at its rated voltage-based value with minimum losses. In heavy loading conditions, the reactive form of power flow is the primary cause of failures, reducing voltage levels simultaneously. So, there is a significant need to minimize real losses of power and improve Voltage in distribution systems. In such cases, a variation occurs in the network configuration, usually varying by the operation based on switching meant for transferring the load among the feeders. There are two switches used in distribution systems; one is generally a closed switch that usually connects two line-based sections. The other is the normally open switch placed on tie lines connecting two of the area's primary feeders.