The manufacturing industry is a keen consumer of energy. Irrespective of the field and what your business is producing, you require massive energy to make ends meet.
Amidst rising costs and the need to be more sustainable, the outdated methods of using centralised power stations are becoming obsolete. Distributed energy solutions propose democratised, small-scale technologies to generate, store, monitor, and control your power close to your supply regions.
What are Distributed Energy Resources?
Distributed energy resources (DERs) are decentralised units that allow businesses to generate power on-site. Usually located near load centres, they add value to the electric grid-connected.
One of the significant objectives of distributed energy systems is to create cleaner energy sources with lower carbon footprints. These renewable (behind-the-meter) sources can be used in industries, high-density localities, and campus-like locations.
Here are some of the most popular DER technologies in commercial use today.
- Solar Photovoltaic Systems
- Wind Turbines
- Hydroelectric Systems
- Biomass Combustion or Cofiring
- Combustion Turbines
- Fuel cells powered by biomass or natural gas
- Battery storage systems
- Solid waste incineration
- Reciprocating engines fuelled by oil or diesel
- Hybrid systems that reuse wasted heat
Benefits of Distributed Energy Solutions
DERs generate a very minute percentage of the power required by industries. Nonetheless, they are growing in popularity due to their several environmental and commercial advantages.
Low Energy Losses
Fully established DERs can drive the energy cost down drastically for manufacturers. Firstly, it eliminates the need for an alternate resource for energy production.
To stop this, on-site energy generation has to be transmitted only through shorter distances to reach the consumer. This curbs line loss, a primary transmission cost source for centralised systems.
Low Transmission and Distribution Costs
Setting up a transmission and distribution network for the power generated is expensive. However, when the power is being produced close to where it is used makes the system very efficient and cost-effective.
Additionally, you can gauge the demand and supply accordingly when generating round-the-clock power. Setting up a demand response program lets you switch on the supply during peak demand and save on both cost and energy by switching it off when not required.
Reliable Backup Resource
Most DERS, like local power plants, are independent of the electric grid. This means that they can supply energy round the clock. This stored resource can be tapped into places with frequent central grid outages. Therefore, you can use DERS as a backup solution for your business needs.
In addition to this, a multi-faceted energy source is more reliable than depending on just one source like the main grid. Even if there are major weather disruptions, you will always have an alternate power delivery source.
One of the biggest boons of this technology is its environment-friendly nature. Renewable energy sources like wind, water, and the sun derive energy. This energy is then used to power homes and businesses in nearby areas.
Moreover, research states that distributed generation can substantially decrease greenhouse gas emissions once fully adopted.
Apart from minimising line loss, distributed generation also prevents the wastage of precious resources. With the use of technologies like combined heat and power systems, no by-products of the processes go to waste.
Distributed energy resources are a reliable and efficient method to make more significant revenues and cut wastage from your energy generation processes. Every business today employs cutting edge technology in an attempt to streamline their business.
If your business prioritises sustainability and innovative technology, distributed energy solutions are an excellent option. They are future-oriented and will help you gain greater control over your consumption, even with 24×7 functioning!