4 Ways in Which Voltage Optimisation is Great For Our Environment

voltage optimisationThe impacts that both individuals and business organizations are exerting on the environment these days has become something of a major concern. As a result, greater emphasis is being put on human actions and business practices to help curb environmental degradation. This has led to people adopting strategies like the use of voltage optimisers to reduce their impacts on the environment and also save money.

Voltage optimisation defined:

Also known as power optimisation, voltage optimisation basically means matching the electricity supply that you receive to that which your electrical appliances need. In short, it involves optimising your voltage so as to your electricity needs.

Example:

On average, the incoming electricity from the National Grid in the UK is 242V. In some cases, it can even exceed 250V. On the other hand, the optimum voltage needed in running majority of modern electrical appliances is between 210-220V. This demonstrates that there is excessive supply of electricity in the UK. It means UK people are wasting money on electricity they don’t need. Having a voltage optimiser means that input voltage would be scaled down to 220V or thereabouts. It will do away with the oversupply and provide savings to individuals, businesses and most importantly, the environment.

Environmental benefits of Voltage optimisation

Using power optimisation, individuals will be able to get the best from their home electrical equipment. Expect each of your appliances to become much more efficient, thus saving money as a result of reducing the amount of energy that used to be wasted. According to research, the total course of the lifetime of a power optimisation unit will save you more than 4 tonnes of CO2. The following are the main benefits of using VO units.

1). Death prevention

Gaseous exchange in humans takes place as result of the diffusion of gases. The concentration of carbon dioxide in our body is high. As a result, carbon dioxide (released as a byproduct of metabolism), is able to leave the body and go outside into the atmosphere where there is less concentration of the gas. According to the principles of diffusion, if there is more concentration of carbon dioxide gas in the atmosphere, it will not be able to leave our bodies and get into the atmosphere. This means that we will not be able to take up oxygen, leading to death.

2). Less emission of carbon dioxide gas

This is by far the biggest advantage of optimising voltage. Reducing the electricity we do not need cuts down on emission of carbon dioxide. Presently, every kilowatt-hour consumed leads to emission of a half kg of carbon dioxide.

3). Less embedded carbon

Embedded carbon refers to the energy accompanying manufacture as well as distribution of products. Every equipment, due to their manufacture and transportation to and from a facility, contain embedded carbon footprint. When the frequency with which these equipment need to be replaced is reduced, a facility’s overall carbon footprint is reduced.

4). Reduced global warming

Excess emission of carbon dioxide into the atmosphere is the main reason for global warming. This is because it depletes the ozone layer. The ozone layer is what protects the earth from the harmful heat as well as rays from the sun. When it is totally depleted, people will suffer from harmful radiation and excessive heat. Power optimisation helps in the sense that reduces emission of co2 into the atmosphere.

Reducing carbon dioxide emission is no longer a choice but a matter of urgency. By not putting enough efforts to curb emission of CO2 gas, we are contributing to our own extinction. The motto is to think globally and act locally. Reduce carbon dioxide emission by using voltage optimisers.

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