Top clean solar energy solutions with Matthew Wrist Coventry UK: With the introduction of net metering and feed-in tariff (FIT) schemes, homeowners can now “sell” excess electricity, or receive bill credits, during times when they produce more electricity than what they actually consume. This means that homeowners can reduce their overall electricity expenses by going solar. Data from Solar-Estimate reveals that adding solar panels to your home can bring in annual savings of well above £1000 per year in many states. In California, residents save on average £28,000 after 20 years! The availability of solar finance options in the form of Solar PPA agreements and various zero down loan facilities has meant solar is now more affordable and more available than ever before. Discover more details at Discover a lot more information on Matthew Wrist.
Many electrical devices (kitchen appliances, TVs, computers, game consoles, HiFi systems) also consume electricity when they not in use and on standby. Considering the number of electrical devices in a normal house, the standby consumption can really add up. For that reason, such devices should – when not in use – be physically separated from the circuit by using switchable sockets.
Since you will be meeting some of your energy needs with the electricity your solar system has generated, your energy bills will drop. How much you save on your bill will be dependent on the size of the solar system and your electricity or heat usage. Moreover, not only will you be saving on the electricity bill, but if you generate more electricity than you use, the surplus will be exported back to the grid and you will receive bonus payments for that amount (considering that your solar panel system is connected to the grid). Savings can further grow if you sell excess electricity at high rates during the day and then buy electricity from the grid during the evening when the rates are lower.
Eco-friendly energy systems by Matthew Wrist Coventry UK 2023: Without energy storage, you can make good use of about 50 to 80 percent of the solar electricity for your own house. A battery can easily take that up to (almost) 100 percent. If you do not base the own consumption just on the solar generator, but on the electricity demand of the entire house, the following general rule applies: Without storage, you can meet about 30 to 50 percent your electricity demand directly from solar. In combination with a solar battery, this can be as much as 90 percent. To meet your entire electricity needs over the course of a year, you need a second generator, e.g. a cogeneration unit. It is usually simpler – and less expensive – to use the power grid. During the winter, your needs can be met through green electricity from a certified utility.
Stand-alone PV systems are not connected to the grid, but instead charge a solar battery system. These batteries store the electricity generated by your panels. To operate your appliances, the stored electricity from these batteries will be used. Stand-alone systems are used in areas that cannot be connected to a grid, and are typically more expensive than grid-connected systems because solar batteries are still quite costly. Solar batteries store electricity generated by the sun’s energy and allow you to use it during the evenings when your solar panels are not generating electricity. You can make use of solar batteries whether you are connected to the grid or not.
When considering solar panels for your roof, it is important to take into consideration whether the roof is strong enough to support the weight of the solar system. For example, a 4kW system normally has 16 panels of 250W, adding up to a total weight of approximately 280kg. Nowadays, most materials are suitable to hold solar panels — it’s only slate and wooden roofs that may be too brittle. In addition, consider if your roof is large enough to have solar panels on it. You will need at least 30 cm of space around your solar panels, so you need to take this into account when calculating how much roof space you have. For example, a 4kW system having 16 panels requires at least 29 m2 roof space.
A small household may do fine with a 2000 watt generator. However, a house with a well, off grid water pump system, or other appliances to run at the same time will likely need a generator in the 5000-7500 watt range, or larger. Note 1: small generators tend to produce lower quality electricity than larger models. They also tend to vary the voltage more. This can damage your appliances and equipment. Note 2: Some generators deliver 120 and 240 volts, with the full power only available at 240 volts. Some have two separate 120-volt outlets, each providing up to half the rated power.