There was a time when people didn’t require much power as they didn’t use many electrical appliances in their homes. However, things have now changed, and in modern homes, the use of electrical appliances is far more, which is why more power is needed to run the average home. On the other hand, it’s high time for us to consider reducing energy consumption starting from our houses and offices. All the extra energy we consume is ultimately affecting our environment, and it also results in heavy bills that can be a huge financial burden for you.
In a nutshell, if you are the kind of person who believes in using energy-efficient devices and electrical equipment, then you need to take measures accordingly. This will save our environment, and it will also help you cut down the extra electricity bill expenses.
How Much Power Does An Average Home Take?
The power supply demand of each home varies, and it’s all based on the way someone lives and the kind of appliances he uses on a daily basis. When calculating the power you need to run your home; these are some of the factors you should consider;
- how big or small the residence is
- how many people are living in the house
- how many and what kind of appliances are being used
- at what time of the day do you use all your appliances
- do you have any energy-hungry appliances that demand a lot of power?
What usually happens is that an average meter gives away power of 9.2 kVA, which is more than enough. In other words, you can operate your devices all at the same time and give them a maximum power of 9200 watts. However, if you have things running in your house like a sauna, some pool or an electric car etc., then it’s obvious that 9.2kVA of power won’t be enough for you.
How To Calculate The Total Power That My Meter Can Supply?
It’s very easy to calculate the power your meter will be supplied to you to run your house and the appliances in it. However, if you find it a little confusing, you can always opt for help from a pro electrician North Vancouver. For calculation, there’s this simple formula where you have to multiply the Intensity (I) with the Voltage (V) of the current being supplied to your home.
For example, as said earlier, an average meter gives away power of 9.2kVA. To calculate this, 230 volts (V) and an Intensity of 40 amperes (A) is multiplied. Upon multiplication, you’ll get “9 200 volt-amperes” which is also expressed as 9.2kVA.
Best Tips To Save Electricity
Now that you know the power supply you need for an average home, it’s time that you start considering some tips to save electricity. There’s a lot we can do to reduce energy consumption in our house. Want to know how? Don’t worry and just stick a little longer because we are now going to jot down some of the most useful tips to save electricity.
- -Try washing your clothes in cold water so that less power is consumed by your machine.
- -Change the settings of your computer so that it automatically goes to sleep when you aren’t using it. This can save you a great deal of energy.
- -Make better use of natural lighting as it’s already being practised in modern homes nowadays. People prefer windows that allow natural light inside so that they don’t have to rely on bulbs, lights and lamps etc.
- -Use energy-saving bulbs in your house like the fluorescent globes. You can easily find energy-efficient LED bulbs and lights etc. in the market.
These are some basic tips that you can use to cut down your electricity consumption. However, this isn’t it, and you do know that there are several other things you can do here, like shutting down the lights when you are leaving the room or turning off the switch when your phone or laptop is fully charged. The more you pay attention to these little things, the better it will be for you and the environment.