Components of Distribution System
Substations: Any distribution system must have a pivot as substations are. Electrical substations receive high-voltage electricity from the transmission system and step it down to power distribution networks.
Transformers: Transformers, which convert voltage levels in distribution systems, are indispensable parts of such a system. Step-down transformers lower the voltage from substations to levels safe and convenient for supply of consumers.
Feeders: Distribution feeders are a network of power lines that carry electricity from substations to neighborhoods and industrial areas. The feeders uniformly distribute electricity throughout the area served.
Switchgear: Switchgear is a collection of electrical devices for channeling, switching on or off and regulating power. Among other things, it has circuit breakers and disconnect switches that control the flow of electricity.
Distribution Systems in Power System
The dark network of the power grid Generation density High-voltage level Network often comprises parts at several levels Low line voltage Density In this complex web that is today’s socioeconomic environment, distribution systems are an essential junction between electricity generation and consumers ‘everyday life. With a power distribution system playing an ever-more vital role in social development, the various intricacies involved become increasingly important. This article begins a close examination of these systems, laying bare how they work and how problems arise for them in today’s rapidly changing energy scene.
Table of Content
- What are Distribution Systems?
- Block Diagram
- Components of Distribution System
- Functions of Distribution Systems
- Challenges in Distribution Systems
- Types of Distribution Systems Based on the Nature of Current
- Conclusion
- FAQs on Distribution Systems