Decentralized power generation: the future of efficient power transmission and distribution

March 11th, 2019 | Posted in Power quality
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Traditionally, there are three major steps in the provision of consumers with electricity. They are generation, transmission, and distribution.

Today let’s talk about Decentralized generation as a system thanks to this article from Uko, graduate of mechanical engineering in Nigeria.

 

Electrical generation, Electrical transmission & Electrical distribution

First of all, here’s a little reminder. Generation is the production of electricity from primary sources of energy. This is the first stage of electricity supply and it takes place in a remotely located plant.

Transmission is the second stage of conventional electricity supply. It is the bulk movement of electricity from generating stations to supply areas. Transmission may be underground or overhead. During the transmission of electricity, losses occur in power lines and transformers as a result of the Joule effect. These losses amount to 8-15% of the energy generated.

The final stage of electricity supply involves stepping down electricity from transmission systems and distributing it to consumers within an area.

 

Fig. 1. Electrical power system | img: wikipedia

Fig. 1. Electrical power system | img: wikipedia

 

The conventional methods of power generation not only result in losses but are also costly to maintain. These problems have necessitated the advent of a fast-rising, revolutionary system of power generation known as Decentralized generation.

Also called distributed generation, Decentralized generation is a more accessible, efficient and cost-effective system of electricity generation.

Unlike traditional power generation which involves a single centralised plant serving several areas, Decentralized generation involves several individual micro plants and distribution systems that each serves a small area. These plants are in close proximity to the loads they supply, thereby eliminating the need for transmission. The benefits of Decentralized generation are numerous. The following are some of the reasons why Decentralized generation is the future of efficient power supply.

 

Fig. 2. Decentralized Vs centralised power

Fig. 2. Decentralized Vs centralised power | img: ilsr.com

 

 

Decentralized generation for a Cleaner energy

Decentralized generation promotes the production of clean energy. This is because micro-plants typically employ renewable energy sources such as solar power, geothermal power, biogas, wind power, and small-scale hydro-power to produce electricity. A combination of more than one source of generation and an energy storage system is often used. This is called hybrid power generation.

 

Decentralized generation for an Efficient power generation

During transmission over long distances, a percentage of energy generated in centralised generation is lost in power lines and transformers. These losses which range from 8-15% of the generated power are absent in distributed generation. Hence distributed generation is more efficient as a higher percentage of electricity is available to consumers.

 

Decentralized generation and Reduced cost of production

The cost of installation and maintenance of transmission infrastructure is really high in centralised generation. Consider the kilometres of cable and power lines, the numerous step-up and step-down transformers and all other supporting infrastructure. These all contribute to high production costs.

 

Decentralized power generation for an easier accessibility

Due to geographical location and topography, the supply of electricity to certain areas is nearly impossible. Locations such as Islands, deserts and mountainous areas are very difficult to connect to a national grid. In such locations, Decentralized generation makes power supply very convenient. Instead of transmitting power over rugged terrains and long distances, micro-stations can be constructed very close to consumers in hard to reach areas.

Increased productivity of generation companies

When several plants, as opposed to a single plant are supplying electricity, consumers have the option to switch between providers. This gives rise to competition among generation companies, thereby increasing their performance.

Currently, the traditional methods of power generation and supply are still widespread. However as more and more countries and investors seek to provide clean, efficient power; Decentralized power generation is advancing to the forefront as the future of power supply.

Thanks for reading me,

Uko.

Let’s share our thoughts in the comments :)

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